{"id":1696,"date":"2023-12-31T15:03:13","date_gmt":"2023-12-31T15:03:13","guid":{"rendered":"https:\/\/wp.ditsolution.net\/echofy-multi\/?page_id=1696"},"modified":"2026-03-20T14:31:49","modified_gmt":"2026-03-20T06:31:49","slug":"join","status":"publish","type":"page","link":"https:\/\/en.carbonology.com\/index.php\/join\/","title":{"rendered":"Careers"},"content":{"rendered":"\t\t<div data-elementor-type=\"wp-page\" data-elementor-id=\"1696\" class=\"elementor elementor-1696\">\n\t\t\t\t\t\t<section class=\"elementor-section elementor-top-section elementor-element elementor-element-2cac53b elementor-section-boxed elementor-section-height-default elementor-section-height-default\" data-id=\"2cac53b\" data-element_type=\"section\" data-settings=\"{&quot;background_background&quot;:&quot;classic&quot;}\">\n\t\t\t\t\t\t<div class=\"elementor-container elementor-column-gap-default\">\n\t\t\t\t\t<div class=\"elementor-column elementor-col-100 elementor-top-column elementor-element elementor-element-1e95896\" data-id=\"1e95896\" data-element_type=\"column\">\n\t\t\t<div class=\"elementor-widget-wrap elementor-element-populated\">\n\t\t\t\t\t\t<div class=\"elementor-element elementor-element-65e78e2 elementor-widget elementor-widget-html\" data-id=\"65e78e2\" data-element_type=\"widget\" data-widget_type=\"html.default\">\n\t\t\t\t\t<ul class=\"joinlist\">\r\n<li>\r\n    <div class=\"jbox\">\r\n        <div class=\"h3\"><h4>Cross-Process Structural Design Expert<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n        <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in March 2026<\/span><\/div>\r\n        <div class=\"desc\">Responsible for the structural design of systems across multiple process stages, including fixed bed support\/heat exchange, liquid mass transfer countercurrent\/crossflow systems, microchannel deformed channels\/intake manifolds, plasma reaction chambers and other core devices.<\/div>\r\n        <div class=\"content\">\r\n            <h4 class=\"pp\">Job Responsibilities<\/h4>\r\n            <div class=\"p\">\r\n                <p>1.Responsible for the structural design of systems across multiple process stages, including fixed bed support\/heat exchange, liquid mass transfer countercurrent\/crossflow systems, microchannel deformed channels\/intake manifolds, plasma reaction chambers and other core devices.<\/p>\r\n                <p>2.Optimize structural design based on the principles of thermodynamics and fluid mechanics to reduce pressure loss, improve heat distribution, and enhance process efficiency.<\/p>\r\n                <p>3.Collaborate closely with simulation and process experts to iterate design drawings, ensure the manufacturability and high performance of the structure, and output CAD models and specification documents as accurate input for factory production and processing.<\/p>\r\n                <p>4.Support the construction of laboratory prototypes and scale-up design, evaluate the impact of structures on overall process performance, and quickly adapt to new process requirements.<\/p>\r\n            <\/div>\r\n            <h4 class=\"pp\">Requirements<\/h4>\r\n            <div class=\"p\">\r\n                <p>1.Educational Background: Master's degree or above in Mechanical Engineering, Chemical Engineering or Materials Science.<\/p>\r\n                <p>2.Professional Skills: Familiar with the structural design of multiple processes (such as fixed bed, fluidized bed, reactor); proficient in CAD software (SolidWorks, AutoCAD, etc.), master structural optimization tools such as topology optimization algorithms; understand AI-aided design (generative design tools) and material selection knowledge (such as corrosion-resistant alloys), and be familiar with ISO drawing standards.<\/p>\r\n                <p>3.Experience Preference: 1-3 years of structural design experience, with more than 2 years of background in new energy\/new material devices preferred; fluent in English, able to read international patents and literature; with cross-team collaboration experience.<\/p>\r\n            <\/div>\r\n\r\n            <div class=\"p\">\r\n                <p><strong>Join Carbonology<\/strong><\/p>\r\n                <p>Here, your ambition and learning speed become your greatest strengths.Every project brings us closer to our vision: \u201cCarbon is the new oil.\u201d\r\n                If you want to build, grow, and lead in a high-impact frontier field \u2014 we want you on our team.<\/p>\r\n            <\/div>\r\n        <\/div>\r\n    <\/div>\r\n<\/li>\r\n\r\n<li>\r\n    <div class=\"jbox\">\r\n        <div class=\"h3\"><h4>Cross-Process Simulation Expert<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n        <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in March 2026<\/span><\/div>\r\n        <div class=\"desc\">Conduct fine-grained multiphysics simulation across the entire process chain (including DAC, electrolysis, plasma, Fischer-Tropsch processes), covering core dimensions such as thermodynamics (heat transfer), pressure\/flow rate (CFD), and chemical reactions (multiphase flow).<\/div>\r\n        <div class=\"content\">\r\n            <h4 class=\"pp\">Job Responsibilities<\/h4>\r\n            <div class=\"p\">\r\n                <p>1.Conduct fine-grained multiphysics simulation across the entire process chain (including DAC, electrolysis, plasma, Fischer-Tropsch processes), covering core dimensions such as thermodynamics (heat transfer), pressure\/flow rate (CFD), and chemical reactions (multiphase flow).<\/p>\r\n                <p>2.Build simulation models to simulate the impact of variables (such as flow rate) on reaction uniformity, accurately predict performance bottlenecks, and provide data support for structural optimization.<\/p>\r\n                <p>3.Collaborate with structural design experts to verify design schemes, integrate manufacturing constraints with process experts, and generate professional reports including quantitative indicators (such as efficiency improvement percentage) and visual results.<\/p>\r\n                <p>4.Introduce AI\/ML technologies (such as TensorFlow for parameter optimization) to build surrogate models, reduce computing time, and accelerate simulation iteration efficiency.<\/p>\r\n            <\/div>\r\n            <h4 class=\"pp\">Requirements<\/h4>\r\n            <div class=\"p\">\r\n                <p>1.Educational Background: Master's degree or above in Computational Engineering, Chemical Engineering or Physics.<\/p>\r\n                <p>2.Professional Skills: Proficient in multiphysics simulation; master simulation software such as ANSYS Fluent, COMSOL Multiphysics, OpenFOAM; have Python programming ability to script simulation processes; have high-performance computing experience, understand AI integration and data analysis\/visualization (MATLAB, Paraview), and master verification methods such as grid convergence testing.<\/p>\r\n                <p>3.Experience Preference: 1-3 years of simulation experience, with priority given to those with reactor\/fluid device simulation background.<\/p>\r\n            <\/div>\r\n\r\n            <div class=\"p\">\r\n                <p><strong>Join Carbonology<\/strong><\/p>\r\n                <p>Here, your ambition and learning speed become your greatest strengths.Every project brings us closer to our vision: \u201cCarbon is the new oil.\u201d\r\n                If you want to build, grow, and lead in a high-impact frontier field \u2014 we want you on our team.<\/p>\r\n            <\/div>\r\n        <\/div>\r\n    <\/div>\r\n<\/li>\r\n\r\n\r\n<li>\r\n    <div class=\"jbox\">\r\n        <div class=\"h3\"><h4>Cross-Process Process Engineering Expert<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n        <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in March 2026<\/span><\/div>\r\n        <div class=\"desc\">Quickly learn and understand various processing technologies, such as etching\/CNC machining\/laser welding\/resistance welding\/vacuum spraying\/electrospinning, and apply them to the manufacturing of multi-process stage devices.<\/div>\r\n        <div class=\"content\">\r\n            <h4 class=\"pp\">Job Responsibilities<\/h4>\r\n            <div class=\"p\">\r\n                <p>1.Quickly learn and understand various processing technologies, such as etching\/CNC machining\/laser welding\/resistance welding\/vacuum spraying\/electrospinning, and apply them to the manufacturing of multi-process stage devices.<\/p>\r\n                <p>2.Evaluate the manufacturability of structural designs, optimize key process parameters such as welding strength and coating uniformity, and solve manufacturing problems such as channel processing accuracy and consistency.<\/p>\r\n                <p>3.Coordinate with contract manufacturers to supervise the entire process of prototype production and testing to ensure products meet design standards.<\/p>\r\n                <p>4.Track emerging process trends, introduce innovative processes across borders, train the team, and promote the continuous upgrading of process technology.<\/p>\r\n            <\/div>\r\n            <h4 class=\"pp\">Requirements<\/h4>\r\n            <div class=\"p\">\r\n                <p>1.Educational Background: Bachelor's degree or above in Manufacturing Engineering, Materials Engineering or Chemical Engineering.<\/p>\r\n                <p>2.Professional Skills: Have practical experience in various processing technologies; proficient in processing simulation tools such as DEFORM (for welding), master process parameter optimization methods such as DOE experimental design and SPC process statistics; understand AI data-driven process prediction, and be familiar with manufacturing standards such as ASME and GMP; have supply chain coordination capabilities.<\/p>\r\n                <p>3.Experience Preference: 1-3 years of processing experience, covering at least 3 types of processes; have quality management certifications such as Six Sigma; willing to travel for supplier audits.<\/p>\r\n            <\/div>\r\n\r\n            <div class=\"p\">\r\n                <p><strong>Join Carbonology<\/strong><\/p>\r\n                <p>Here, your ambition and learning speed become your greatest strengths.Every project brings us closer to our vision: \u201cCarbon is the new oil.\u201d\r\n                If you want to build, grow, and lead in a high-impact frontier field \u2014 we want you on our team.<\/p>\r\n            <\/div>\r\n        <\/div>\r\n    <\/div>\r\n<\/li>\r\n\r\n<li>\r\n    <div class=\"jbox\">\r\n        <div class=\"h3\"><h4>R&D Project Manager<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n        <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in March 2026<\/span><\/div>\r\n        <div class=\"desc\">Define R&D objectives and product content, covering comprehensive planning from strategic requirements to specific technical specifications.Integrate industry comparison and analysis of similar products and technologies to drive practical technological innovation and product iteration.<\/div>\r\n        <div class=\"content\">\r\n            <h4 class=\"pp\">Job Responsibilities<\/h4>\r\n            <div class=\"p\">\r\n                <p>1. Define R&D objectives and product content, covering comprehensive planning from strategic requirements to specific technical specifications.<\/p>\r\n                <p>2. Integrate industry comparison and analysis of similar products and technologies to drive practical technological innovation and product iteration.<\/p>\r\n                <p>3. Manage the entire life cycle of R&D engineering projects, controlling project progress, quality and cost.<\/p>\r\n                <p>4. Organize phase review meetings for the project to ensure that R&D work meets established technical standards and business objectives.<\/p>\r\n                <p>5. Coordinate vertical process experts and horizontal experts in design, simulation, manufacturing and other fields to efficiently solve cross-link and cross-domain project problems.<\/p>\r\n                <p>6. Monitor key performance indicators (KPI) of the project, regularly generate project progress reports, and provide data support for management decision-making.<\/p>\r\n            <\/div>\r\n            <h4 class=\"pp\">Requirements<\/h4>\r\n            <div class=\"p\">\r\n                <p>1. Educational Background: Master's degree in Project Management or Engineering-related majors.<\/p>\r\n                <p>2. Professional Requirements: Familiar with IPD, Agile, Lean Startup or similar project management systems.<\/p>\r\n                <p>3. Professional Skills: Proficient in project management tools such as Jira and MS Project; capable of KPI analysis with data processing using Excel and Python; master technical maturity assessment and risk management (FMEA) methods, and possess excellent team leadership skills.<\/p>\r\n                <p>4. Experience Requirements: 3-5 years of project management experience, with more than 2 years of R&D experience in the new energy industry; background in green energy field is preferred.<\/p>\r\n            <\/div>\r\n\r\n            <div class=\"p\">\r\n                <p><strong>Join Carbonology<\/strong><\/p>\r\n                <p>Here, your ambition and learning speed become your greatest strengths.Every project brings us closer to our vision: \u201cCarbon is the new oil.\u201d\r\n                If you want to build, grow, and lead in a high-impact frontier field \u2014 we want you on our team.<\/p>\r\n            <\/div>\r\n        <\/div>\r\n    <\/div>\r\n<\/li>\r\n\r\n<li>\r\n    <div class=\"jbox\">\r\n        <div class=\"h3\"><h4>Plasma Reduction Process Expert<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n        <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in March 2026<\/span><\/div>\r\n        <div class=\"desc\">Responsible for the structural design of plasma reactor chambers, including plasma torch type selection and chamber matching design, to ensure structural rationality and performance adaptability.<\/div>\r\n        <div class=\"content\">\r\n            <h4 class=\"pp\">Job Responsibilities<\/h4>\r\n            <div class=\"p\">\r\n                <p>1. Responsible for the structural design of plasma reactor chambers, including plasma torch type selection and chamber matching design, to ensure structural rationality and performance adaptability.<\/p>\r\n\r\n                <p>2. Carry out the design and simulation of plasma field and gas flow environment, optimize reduction efficiency and improve process stability.<\/p>\r\n\r\n                <p>3. Be responsible for the R&D of laboratory plasma devices, including the procurement, processing and full-process testing of plasma torches and chambers.<\/p>\r\n\r\n                <p>4. Participate in thermal management, safety testing and production integration during the scaling-up of plasma devices to ensure the smooth implementation of the scaling-up process.<\/p>\r\n            <h4 class=\"pp\">Requirements<\/h4>\r\n            <div class=\"p\">\r\n                <p>1. Educational Background: Major in Physics or Chemical Engineering is preferred.<\/p>\r\n                <p>2. Professional Requirements: Familiar with the theories and applications of plasma physics.<\/p>\r\n                <p>3. Professional Skills: Proficient in plasma simulation tools such as PLASIMO; master spectral analysis technologies (OES, LIBS); possess AI-driven optimization capabilities (such as simulating reaction paths using genetic algorithms); have skills in high-voltage equipment operation and maintenance.<\/p>\r\n                <p>4. Experience Requirements: 1-3 years of R&D experience in plasma technology, with experience in warm ion torch R&D preferred.<\/p>\r\n            <\/div>\r\n\r\n            <div class=\"p\">\r\n                <p><strong>Join Carbonology<\/strong><\/p>\r\n                <p>Here, your ambition and learning speed become your greatest strengths.Every project brings us closer to our vision: \u201cCarbon is the new oil.\u201d\r\n                If you want to build, grow, and lead in a high-impact frontier field \u2014 we want you on our team.<\/p>\r\n            <\/div>\r\n        <\/div>\r\n    <\/div>\r\n<\/li>\r\n\r\n<li>\r\n    <div class=\"jbox\">\r\n        <div class=\"h3\"><h4>Electrolytic Reduction Process Expert<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n        <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in March 2026<\/span><\/div>\r\n        <div class=\"desc\">Design the electrolyzer structure for gas-liquid-solid three-phase interface reactions, including the selection and design of electrodes and membrane materials, as well as the optimization of inlet and outlet flow channels and structural fields.<\/div>\r\n        <div class=\"content\">\r\n            <h4 class=\"pp\">Job Responsibilities<\/h4>\r\n            <div class=\"p\">\r\n                <p>1. Responsible for the structural design of plasma reactor chambers, including plasma torch type selection and chamber matching design, to ensure structural rationality and performance adaptability.<\/p>\r\n\r\n                <p>2. Carry out the design and simulation of plasma field and gas flow environment, optimize reduction efficiency and improve process stability.<\/p>\r\n\r\n                <p>3. Be responsible for the R&D of laboratory plasma devices, including the procurement, processing and full-process testing of plasma torches and chambers.<\/p>\r\n\r\n                <p>4. Participate in thermal management, safety testing and production integration during the scaling-up of plasma devices to ensure the smooth implementation of the scaling-up process.<\/p>\r\n            <h4 class=\"pp\">Requirements<\/h4>\r\n            <div class=\"p\">\r\n                <p>1. Educational Background: Major in Physics or Chemical Engineering is preferred.<\/p>\r\n                <p>2. Professional Requirements: Familiar with the theories and applications of plasma physics.<\/p>\r\n                <p>3. Professional Skills: Proficient in plasma simulation tools such as PLASIMO; master spectral analysis technologies (OES, LIBS); possess AI-driven optimization capabilities (such as simulating reaction paths using genetic algorithms); have skills in high-voltage equipment operation and maintenance.<\/p>\r\n                <p>4. Experience Requirements: 1-3 years of R&D experience in plasma technology, with experience in warm ion torch R&D preferred.<\/p>\r\n            <\/div>\r\n\r\n            <div class=\"p\">\r\n                <p><strong>Join Carbonology<\/strong><\/p>\r\n                <p>Here, your ambition and learning speed become your greatest strengths.Every project brings us closer to our vision: \u201cCarbon is the new oil.\u201d\r\n                If you want to build, grow, and lead in a high-impact frontier field \u2014 we want you on our team.<\/p>\r\n            <\/div>\r\n        <\/div>\r\n    <\/div>\r\n<\/li>\r\n\r\n\r\n<li>\r\n    <div class=\"jbox\">\r\n        <div class=\"h3\"><h4>Microchannel Reactor Process Expert<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n        <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in March 2026<\/span><\/div>\r\n        <div class=\"desc\">Design microchannel structures and optimize process parameters to improve single-pass reaction conversion rate, selectivity, and production efficiency per unit time and unit volume.<\/div>\r\n        <div class=\"content\">\r\n            <h4 class=\"pp\">Job Responsibilities<\/h4>\r\n            <div class=\"p\">\r\n                <p>1. Design microchannel structures and optimize process parameters to improve single-pass reaction conversion rate, selectivity, and production efficiency per unit time and unit volume.<\/p>\r\n                <p>2. Carry out fluid mechanics simulation to simulate multiphase reaction processes and provide theoretical support for the optimization of microchannel structure design.<\/p>\r\n                <p>3. Be responsible for the construction, catalyst loading and full-process performance testing of laboratory microchannel reactors.<\/p>\r\n                <p>4. Participate in the design and automated testing of microchannel reactors scaled up from laboratory scale to continuous production devices, promoting industrialization.<\/p>\r\n            <h4 class=\"pp\">Requirements<\/h4>\r\n            <div class=\"p\">\r\n                <p>1. Educational Background: Bachelor's degree or above in Chemical Engineering or Mechanical Engineering.<\/p>\r\n                <p>2. Professional Requirements: Understand reaction mechanisms such as Fischer-Tropsch synthesis catalysis and RWGS (Reverse Water-Gas Shift); have a background in the manufacturing field.<\/p>\r\n                <p>3. Professional Skills: Master multiphase flow simulation technology (such as using OpenFOAM); familiar with metal microfabrication technologies (etching, high-precision rolling, stamping, bonding, etc.); possess the ability to use AI for reaction data analysis; master process control technology (such as MPC).<\/p>\r\n                <p>4. Experience Requirements: 1-3 years of microchannel reactor design experience, with experience in the design of multi-layer microstructures such as PCBA and PCHE preferred.<\/p>\r\n            <\/div>\r\n\r\n            <div class=\"p\">\r\n                <p><strong>Join Carbonology<\/strong><\/p>\r\n                <p>Here, your ambition and learning speed become your greatest strengths.Every project brings us closer to our vision: \u201cCarbon is the new oil.\u201d\r\n                If you want to build, grow, and lead in a high-impact frontier field \u2014 we want you on our team.<\/p>\r\n            <\/div>\r\n        <\/div>\r\n    <\/div>\r\n<\/li>\r\n\r\n\r\n\r\n<li>\r\n    <div class=\"jbox\">\r\n        <div class=\"h3\"><h4>Power Engineer (Green Power Direct Connection)<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n        <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in February 2026<\/span><\/div>\r\n        <div class=\"desc\">We\u2019re building a one-of-a-kind power architecture that integrates renewable energy with chemical processing.Centered around grid-forming wind-solar-storage systems, we push cutting-edge boundaries including direct DC coupling.<\/div>\r\n        <div class=\"content\">\r\n            <h4 class=\"pp\">At Carbonology, we\u2019re looking for pioneers to redefine green power.<\/h4>\r\n            <div class=\"p\">\r\n                <p>We\u2019re building a one-of-a-kind power architecture that integrates renewable energy with chemical processing.Centered around grid-forming wind-solar-storage systems, we push cutting-edge boundaries including direct DC coupling.<\/p>\r\n                <p>You will not be a typical power engineer \u2014 you will be a builder.With a strong foundation in power systems, you will own the end-to-end development and delivery of the power-side infrastructure for green power direct connection, enabling islanded operation and high-efficiency integration to power next-generation green chemistry.<\/p>\r\n                <p>As an early innovator in this space, we empower ambitious, fast-learning talent to shape the future.<\/p>\r\n            <\/div>\r\n            <h4 class=\"pp\">What We Offer<\/h4>\r\n            <div class=\"p\">\r\n                <p>This is more than a job \u2014 it\u2019s a launchpad for your career.<\/p>\r\n                <p>Cutting-edge technical experience: Work directly with grid-forming PV, wind, energy storage, and DC direct connection. Participate in full-cycle, from-zero-to-one projects.<\/p>\r\n                <p>Clear ownership & growth: Lead power system planning, design, and delivery. Grow into microgrid control, renewable-load optimization, and cross-functional leadership.<\/p>\r\n                <p>Top-tier collaboration: Partner with leading design institutes, equipment suppliers, and process engineering teams.<\/p>\r\n                <p>Competitive compensation: Salary commensurate with ability and potential, not just years of experience. Full benefits including insurance, housing fund, and paid leave.<\/p>\r\n                <p>On-site growth: 30\u201340% travel to pilot facilities, production bases, and renewable plants for site planning, integration, and commissioning.<\/p>\r\n            <\/div>\r\n            <h4 class=\"pp\">What You\u2019ll Do<\/h4>\r\n            <div class=\"p\">\r\n                <p>Own the full power-side lifecycle for green power direct connection projects: system planning, engineering design, implementation, and acceptance.<\/p>\r\n                <p>Define architecture for grid-forming wind-solar-storage systems, power integration schemes, and equipment selection.<\/p>\r\n                <p>Coordinate with engineering design institutes and equipment vendors to drive delivery, quality, and technical alignment.<\/p>\r\n                <p>Bridge renewable power systems and production load systems, designing data and control logic for real-time power-load matching.<\/p>\r\n                <p>Research and implement advanced technologies including DC direct coupling and modern grid-forming control, building scalable internal standards and best practices.<\/p>\r\n            <\/div>\r\n            <h4 class=\"pp\">What We\u2019re Looking For<\/h4>\r\n            <div class=\"p\">\r\n                <strong>Technical Skills<\/strong>\r\n                <p>Strong foundation in power systems, grid interconnection, and grid-forming operation.<\/p>\r\n                <p>Familiarity with power system drawings, design workflows, and technical documentation.<\/p>\r\n                <p>Understanding of grid-forming wind-solar-storage systems and their behavior.<\/p>\r\n                <p>Ability to learn new technologies quickly and apply them to real-world systems.<\/p>\r\n                <strong>Mindset & Abilities<\/strong>\r\n                <p>Passion for renewable-industrial integration. Comfortable working on-site at power and process facilities.<\/p>\r\n                <p>Able to travel 30\u201340% for site work, vendor alignment, and commissioning.<\/p>\r\n                <p>Excellent cross-team communication; able to translate technical concepts for non-technical stakeholders.<\/p>\r\n                <p>Pioneering, adaptable, and comfortable with early-stage, from-zero-to-one challenges.<\/p>\r\n                <strong>Basic Qualifications<\/strong>\r\n                <p>Bachelor\u2019s or higher degree in Power Engineering, Electrical Engineering, Renewable Energy, Power System Automation, or related fields.<\/p>\r\n                <p>0\u20133 years of experience or strong internship exposure in power systems or renewables.<\/p>\r\n                <p>Proficient with CAD, PowerWorld, or equivalent power system tools. Data literacy is a plus.<\/p>\r\n                <p>Strong drive, professionalism, and commitment to building a sustainable energy future.<\/p>\r\n            <\/div>\r\n\r\n            <div class=\"p\">\r\n                <p><strong>Join Carbonology<\/strong><\/p>\r\n                <p>Here, your ambition and learning speed become your greatest strengths.Every project brings us closer to our vision: \u201cCarbon is the new oil.\u201d\r\n                If you want to build, grow, and lead in a high-impact frontier field \u2014 we want you on our team.<\/p>\r\n            <\/div>\r\n        <\/div>\r\n    <\/div>\r\n<\/li>\r\n    <li>\r\n    <div class=\"jbox\">\r\n        <div class=\"h3\"><h4>Procurement Director<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n        <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in February 2026<\/span><\/div>\r\n        <div class=\"desc\">Procurement System Design & Governance: Lead the development of an end-to-end management system for the company\u2019s engineering equipment procurement. Continuously iterate and optimize the system based on industry characteristics and corporate development needs to ensure it is rigorous, standardized and highly adaptable, providing systematic support for the orderly execution of procurement activities.<\/div>\r\n        <div class=\"content\">\r\n            <h4 class=\"pp\">Job Responsibilities<\/h4>\r\n            <div class=\"p\">\r\n                <p>1.Procurement System Design & Governance: Lead the development of an end-to-end management system for the company\u2019s engineering equipment procurement. Continuously iterate and optimize the system based on industry characteristics and corporate development needs to ensure it is rigorous, standardized and highly adaptable, providing systematic support for the orderly execution of procurement activities.<\/p>\r\n                <p>2.Supplier Lifecycle Management: Oversee the development, screening, evaluation and maintenance of engineering equipment suppliers, and build a high-quality and stable supplier resource pool. Lead commercial negotiations, strictly control procurement quality and costs, optimize procurement cost-effectiveness, and ensure delivery timelines align with project schedules.<\/p>\r\n                <p>3.Project Procurement End-to-End Follow-Up: Work under a semi-project-based model, travel to project sites nationwide for procurement coordination, and oversee the entire procurement process including planning, order placement, delivery inspection and after-sales follow-up. Timely resolve all issues arising during procurement to ensure the smooth delivery of project procurement milestones.<\/p>\r\n                <p>4.Team Building & Compliance Governance: Build the procurement team in line with the company\u2019s development needs, define job responsibilities, and provide on-the-job training and capability empowerment to improve the overall efficiency and professionalism of the team. Ensure full compliance throughout the procurement process, collaborate with internal control and audit functions, and establish a robust procurement risk prevention and control mechanism to eliminate all procurement-related risks.<\/p>\r\n                <p>5.Industry Alignment & Procurement Optimization: Leverage professional background in the chemical industry to accurately grasp engineering equipment industry standards, technical parameters and market trends. Continuously optimize procurement plans to drive cost reduction and efficiency improvement, and ensure procurement activities align with the company\u2019s business development and industry evolution.<\/p>\r\n            <\/div>\r\n            <h4 class=\"pp\">Job Requirements<\/h4>\r\n            <div class=\"p\">\r\n                <p>1.Work Experience: Minimum 5 years of relevant procurement experience, with a proven track record in large enterprises\/organizations a must. Experience in procurement team management is preferred. Candidates must be familiar with the logic and end-to-end process of engineering equipment procurement and able to quickly onboard the role.<\/p>\r\n                <p>2.Industry & Professional Background: Background in the chemical industry is preferred. Deep expertise in engineering equipment procurement, with a solid understanding of equipment specifications, technical standards and supply chain operation logic.<\/p>\r\n                <p>3.Professional Competencies: Ability to independently design and build a procurement management system; proficient in supplier development, commercial negotiation, cost control and risk prevention. Familiar with full-cycle procurement compliance requirements, capable of independently leading project-based procurement, and effectively resolving all unexpected issues during the procurement process.<\/p>\r\n                <p>4.Core Competencies: Strong team management, communication coordination and commercial negotiation skills. Excellent logical thinking, decisive and rigorous in execution, strong sense of responsibility, and outstanding ability to work under pressure with a results-driven mindset.<\/p>\r\n                <p>5.Work Adaptability: Open to a semi-project-based work model and national business trips as per project needs. Based in Shanghai for daily work, able to quickly adapt to the efficient and fast-paced environment of a startup, with a proactive and accountable work attitude.<\/p>\r\n                <p>6.Preferred Qualifications: Existing high-quality engineering equipment supplier resources; holding professional procurement certifications is a strong plus.<\/p>\r\n            <\/div>\r\n            <h4 class=\"pp\">Salary and Benefits<\/h4>\r\n            <div class=\"p\">\r\n                <p>1.Compensation: Negotiable salary, tailored to individual work experience and professional capabilities, with a competitive compensation package in the industry.<\/p>\r\n                <p>2.Career Development: Core management position with a clear promotion path. Deeply participate in the design and optimization of the company\u2019s procurement system from scratch, hold core business decision-making power, rapidly accumulate industry resources and management experience, with broad career development opportunities.<\/p>\r\n                <p>3.Basic Social Security: Full social insurance and housing fund coverage, including paid annual leave, statutory holidays, festival benefits and annual physical examinations, providing comprehensive employee welfare protection.<\/p>\r\n                <p>4.Subsidies: Meal allowance, transportation allowance and business trip allowance to reduce daily and work-related travel expenses.<\/p>\r\n                <p>5.Work Culture: Regular team building activities, fostering an efficient, pragmatic and non-involution work environment. Gather like-minded outstanding professionals to achieve mutual growth between employees and the company.<\/p>\r\n            <\/div>\r\n        <\/div>\r\n    <\/div>\r\n<\/li>\r\n<li>\r\n    <div class=\"jbox\">\r\n        <div class=\"h3\"><h4>Internal Control and Internal Audit Specialist<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n        <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in February 2026<\/span><\/div>\r\n        <div class=\"desc\">Procurement System Design & Governance: Lead the development of an end-to-end management system for the company\u2019s engineering equipment procurement. Continuously iterate and optimize the system based on industry characteristics and corporate development needs to ensure it is rigorous, standardized and highly adaptable, providing systematic support for the orderly execution of procurement activities.<\/div>\r\n        <div class=\"content\">\r\n            <h4 class=\"pp\">Job Responsibilities<\/h4>\r\n            <div class=\"p\">\r\n                <p>Primarily responsible for the establishment and implementation of the company\u2019s internal control system, as well as the end-to-end internal audit work. Incorporate the business characteristics of the chemical and new energy industries to ensure the company\u2019s operations are compliant and risks are controllable. Specific responsibilities include:<\/p>\r\n                <p><strong>(1) Internal Control Related<\/strong><\/p>\r\n                <p>Participate in the establishment and continuous optimization of the company\u2019s internal control systems and processes, covering core links such as finance, procurement, production, sales and R&D, to adapt to the business characteristics of the new chemical and new energy industries;<\/p>\r\n                <p>Conduct regular walk-through tests and compliance tests of internal control processes, identify internal control deficiencies, propose rectification suggestions, track the closure of rectification, and prepare internal control inspection reports;<\/p>\r\n                <p>Assist in promoting the construction of the company\u2019s internal control culture, conduct internal control knowledge publicity and training for all departments, and enhance the compliance awareness of all employees;<\/p>\r\n                <p>Cooperate with external auditors (e.g., annual report audit, special audit) in the inspection of the company\u2019s internal control system, provide relevant materials and answer inquiries.<\/p>\r\n                <p><strong>(2) Internal Audit Related<\/strong><\/p>\r\n                <p>Independently or assist in conducting internal audit projects of the company, including financial audit, cost audit, procurement audit, project audit (e.g., new energy projects, chemical production line projects), etc., and prepare audit plans and audit programs;<\/p>\r\n                <p>Be responsible for on-site audit verification, evidence collection, data analysis, preparation of audit working papers and audit reports, clearly disclose problems, analyze root causes and put forward actionable improvement suggestions;<\/p>\r\n                <p>Track the implementation of audit rectification items, supervise relevant departments to complete rectification on schedule, conduct review of rectification effects, and ensure the implementation of audit results;<\/p>\r\n                <p>Conduct special audits (e.g., compliance audit, special risk investigation) according to the company\u2019s development needs to support the company\u2019s business decision-making.<\/p>\r\n                <p><strong>(3) Other Work<\/strong><\/p>\r\n                <p>Accept regular business trip arrangements from the company to complete internal control inspections and audit work at off-site branches (e.g., production bases, project sites);<\/p>\r\n                <p>Assist in completing other ad-hoc work related to risk control and compliance, and adapt to the flexible and efficient work rhythm of the startup company.<\/p>\r\n            <\/div>\r\n            <h4 class=\"pp\">Job Requirements<\/h4>\r\n            <div class=\"p\">\r\n                <p>Age Requirement: Under 35 years old (to adapt to the work intensity of the startup company);<\/p>\r\n                <p>Education Requirement: Bachelor\u2019s degree or above, major in Finance, Auditing, Accounting, Risk Control, Chemical Engineering\/New Energy is preferred (to align with industry attributes);<\/p>\r\n                <p>Work Experience: 3-5 years of relevant work experience in internal control and internal audit; experience in the new chemical, new energy or manufacturing industry is preferred; familiarity with industry regulatory policies and business processes is a plus;<\/p>\r\n                <p>Professional Competencies: Familiar with relevant regulations such as the Basic Norms for Internal Control of Enterprises and the Specific Standards for Internal Auditing; master internal control establishment, audit processes and methods, and have the ability to independently carry out audit projects; proficient in using tools such as Excel, audit software and ERP systems; holding relevant certificates such as CPA, CIA or Intermediate Accountant is preferred;<\/p>\r\n                <p>Personal Qualities: Possess good logical thinking, data analysis and writing skills, and be able to clearly output inspection reports and audit conclusions; rigorous and detail-oriented in work, strong sense of responsibility, good communication and coordination skills, and problem-solving abilities; able to work under certain pressure;<\/p>\r\n                <p>Other Requirements: No gender restriction; permanent residence or household registration in Shanghai is preferred (to facilitate business trip scheduling and daily work connection); able to accept regular business trips (frequency adjusted according to business needs, subject to company project arrangements).<\/p>\r\n            <\/div>\r\n            <h4 class=\"pp\">Salary and Benefits<\/h4>\r\n            <div class=\"p\">\r\n                <p>Compensation: Negotiable (matched according to individual ability and experience, providing competitive salary in the industry for outstanding talents);<\/p>\r\n                <p>Career Development: Core position in a startup company with a clear promotion path; have the opportunity to deeply participate in the establishment of the company\u2019s internal control and audit system from scratch and gain rapid growth;<\/p>\r\n                <p>Basic Benefits: Full social insurance and housing fund coverage, paid annual leave, statutory holidays, festival benefits and annual physical examinations;<\/p>\r\n                <p>Additional Benefits: Meal allowance, transportation allowance, business trip allowance, team building activities, and a flexible work atmosphere.<\/p>\r\n            <\/div>\r\n        <\/div>\r\n    <\/div>\r\n<\/li>\r\n    <li>\r\n        <div class=\"jbox\">\r\n            <div class=\"h3\"><h4>Senior R&D Expert of Electrolyzer (Hydrogen Production \/ CO\u2082 Electroreduction)<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n            <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in January 2026<\/span><\/div>\r\n            <div class=\"desc\">Carbonology is a company dedicated to the full-chain technology integration, development and commercialization of Direct Air Carbon Capture and Utilization (DAC-CCUS). We focus on direct air carbon capture powered by green electricity, CO\u2082 conversion via electrochemical methods, and fuel production through Fischer-Tropsch synthesis. We are seeking a senior R&D expert with both depth and breadth of expertise in electrolyzer technologies for hydrogen production and CO\u2082 electroreduction. <\/div>\r\n            <div class=\"content\">\r\n                <h4 class=\"pp\">Job Overview<\/h4>\r\n                <div class=\"p\">\r\n                    <p>Carbonology is a company dedicated to the full-chain technology integration, development and commercialization of Direct Air Carbon Capture and Utilization (DAC-CCUS). We focus on direct air carbon capture powered by green electricity, CO\u2082 conversion via electrochemical methods, and fuel production through Fischer-Tropsch synthesis. We are seeking a senior R&D expert with both depth and breadth of expertise in electrolyzer technologies for hydrogen production and CO\u2082 electroreduction. As a core technical leader, you will be responsible for the full-chain R&D work ranging from key materials and core components to electrolyzer system integration, driving the transformation of laboratory innovations into industrial applications. This is a position with critical influence on achieving the \"dual carbon\" goals, and we look forward to your professional expertise leading technological breakthroughs.<\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Key Responsibilities<\/h4>\r\n                <div class=\"p\">\r\n                    <p>Core Technology Development and Mechanism Research<\/p>\r\n                    <p>Responsible for the development, optimization and preparation process research of key materials such as high-performance, low-cost catalysts, electrodes and membrane electrode assemblies (MEAs) for water electrolysis hydrogen production and CO\u2082 electroreduction.<\/p>\r\n                    <p>Utilize electrochemical testing and in-situ characterization technologies to deeply explore reaction mechanisms and degradation mechanisms, providing theoretical guidance for material and structural design.<\/p>\r\n                    <p>Electrolyzer Design and Engineering<\/p>\r\n                    <p>Lead or participate in the structural design, simulation and prototyping of electrolyzers (single cell, stack), addressing engineering issues such as mass transfer, electrical conductivity, sealing and durability.\r\n                    <p>Responsible for establishing the electrolyzer performance testing system, including the evaluation and optimization of key indicators such as activity, efficiency, stability and energy consumption.<\/p>\r\n                    <p>System Integration and Process Scaling-up<\/p>\r\n                    <p>Cooperate with system engineers to conduct integration and commissioning of electrolyzers with subsystems such as gas supply, liquid management and power control.<\/p>\r\n                    <p>Explore and formulate technical routes and process specifications for scaling up from laboratory to pilot scale, solving technical challenges during the scaling-up process.<\/p>\r\n                    <p>Technical Leadership and Interdisciplinary Collaboration<\/p>\r\n                    <p>Lead or guide the R&D team, formulate technical solutions and drive the achievement of project milestones.<\/p>\r\n                    <p>Collaborate closely with teams in materials, chemistry, machinery, electrical engineering and automation to ensure alignment between R&D objectives and product requirements.<\/p>\r\n                    <p>Compose high-quality technical reports, patents and scientific papers, building the company's technical intellectual property barrier.<\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Essential Qualifications<\/h4>\r\n                <h4 class=\"pp\">Educational Background<\/h4>\r\n                <div class=\"p\">\r\n                    <p>Doctoral degree in related disciplines such as electrochemistry, materials science and engineering, chemical engineering, applied chemistry; or master's degree with more than 3 years of R&D experience in equivalent positions.<\/p>\r\n                    <p>Professional Knowledge<\/p>\r\n                    <p>Possess solid fundamental knowledge of electrochemistry and master electrode process kinetics. Have substantial experience in at least one of the following fields:<\/p>\r\n                    <p>(1) Hydrogen Production: In-depth understanding of key materials, components and system knowledge in alkaline\/PEM\/high-temperature solid oxide water electrolysis technologies.<\/p>\r\n                    <p>(2) CO\u2082 Reduction: Familiar with CO generation pathways, proficient in catalyst design, membrane electrode construction and product separation and analysis technologies.<\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Skills and Experience<\/h4>\r\n                <div class=\"p\">\r\n                    <p>(1) Proficient in electrolytic cell\/electrolyzer assembly, testing and performance evaluation methods.<\/p>\r\n                    <p>(2) Master testing technologies such as electrochemical workstation and impedance spectroscopy, and able to analyze products using gas\/liquid chromatography.<\/p>\r\n                    <p>(3) Possess strong data analysis and problem-solving abilities, capable of independently designing experiments and analyzing complex data.<\/p>\r\n                    <p>(4) Excellent reading and writing skills in Chinese and English academic literature, as well as strong technical communication and presentation capabilities.<\/p>\r\n                <\/div>\r\n\r\n\r\n                <h4 class=\"pp\">Preferred Qualifications<\/h4>\r\n                <div class=\"p\">\r\n                    <p>Possess R&D or industrialization project experience related to electrolyzers at pilot scale or above in well-known enterprises or laboratories.<\/p>\r\n                    <p>Have R&D experience in both hydrogen production and CO\u2082 reduction fields; or have in-depth research in one field with strong willingness to learn and apply knowledge in the other field.<\/p>\r\n                    <p>Have published high-level research papers in top academic journals, or hold authorized invention patents as the primary inventor.<\/p>\r\n                    <p>Possess certain project management and team collaboration experience, capable of leading small technical teams to tackle key problems.<\/p>\r\n                <\/div>\r\n\r\n                <h4 class=\"pp\">Salary and Benefits<\/h4>\r\n                <div class=\"p\">\r\n                    <p>Salary Range: Negotiable<\/p>\r\n                    <p>Benefits: Five social insurances and housing fund, statutory annual leave + company annual leave, housing subsidy, vehicle subsidy, and other benefits.<\/p>\r\n                <\/div>\r\n            <\/div>\r\n        <\/div>\r\n    <\/li>\r\n\r\n\r\n    <li>\r\n        <div class=\"jbox\">\r\n            <div class=\"h3\"><h4>Chemical Process Engineer (Fischer-Tropsch Synthesis)<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n            <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in January 2026<\/span><\/div>\r\n            <div class=\"desc\">Design and Construction of Pilot Plant for Fischer-Tropsch Jet Fuel Production,Lead the design of kiloton-scale Fischer-Tropsch pilot plant, review Piping and Instrumentation Diagrams (P&ID), selection of key equipment (e.g., reactors, separation towers) and configuration of safety interlock systems (HAZOP analysis).<\/div>\r\n            <div class=\"content\">\r\n                <h4 class=\"pp\">Key Responsibilities<\/h4>\r\n                <div class=\"p\">\r\n                    <p>Design and Construction of Pilot Plant for Fischer-Tropsch Jet Fuel Production<\/p>\r\n                    <p>Lead the design of kiloton-scale Fischer-Tropsch pilot plant, review Piping and Instrumentation Diagrams (P&ID), selection of key equipment (e.g., reactors, separation towers) and configuration of safety interlock systems (HAZOP analysis).<\/p>\r\n                    <p>Operation and Evaluation of Pilot Plant for Fischer-Tropsch Jet Fuel Production<\/p>\r\n                    <p>Lead the operation, evaluation and system integration optimization of the pilot plant.<\/p>\r\n                    <p>Techno-Economic Evaluation of Fischer-Tropsch Jet Fuel Production<\/p>\r\n                    <p>Develop CAPEX\/OPEX models for ten-thousand-ton-scale plants and output investment feasibility reports; provide quantitative decision-making basis for technology selection of ten-thousand-ton-scale plants.<\/p>\r\n                    <p>Cross-Department Collaboration<\/p>\r\n                    <p>Cooperate with the procurement team to optimize the equipment supply chain, and coordinate with the commercial team to formulate product strategies.<\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Job Requirements<\/h4>\r\n                <div class=\"p\">\r\n                    <p>Education and Major<\/p>\r\n                    <p>Master's degree or above in related disciplines such as chemical engineering, catalysis, chemical machinery, chemical reaction engineering.<\/p>\r\n                    <p>Knowledge System<\/p>\r\n                    <p>Master the technical principles of Fischer-Tropsch synthesis and fuel hydrogenation; familiar with chemical thermodynamics, reaction engineering and process design specifications.<\/p>\r\n                    <p>Analytical Ability<\/p>\r\n                    <p>Possess capabilities in technical feasibility assessment, Life Cycle Assessment (LCA) and economic modeling; demonstrate rigorous logic and the ability to propose feasible technical decisions based on data.<\/p>\r\n                    <p>Industry Experience<\/p>\r\n                    <p>More than 3 years of experience in Fischer-Tropsch synthesis R&D, pilot or commercial project operation, or Fischer-Tropsch synthesis engineering design.<\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Salary and Benefits<\/h4>\r\n                <div class=\"p\">\r\n                    <p>Salary Range: Negotiable<\/p>\r\n                    <p>Benefits: Five social insurances and housing fund, statutory annual leave + company annual leave, housing subsidy, vehicle subsidy, and other benefits.<\/p>\r\n                <\/div>\r\n\r\n            <\/div>\r\n        <\/div>\r\n    <\/li>\r\n                \r\n    <li>\r\n        <div class=\"jbox\">\r\n            <div class=\"h3\"><h4>Carbon Capture Technology Analyst<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n            <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in December 2025<\/span><\/div>\r\n            <div class=\"desc\">Technical evaluation and route analysis: Systematically evaluate the efficiency, cost, and applicable scenarios of different carbon capture and utilization (CCS) technology routes, providing a basis for project selection; Technical and Economic Modeling: Participate in the construction of the Carbon Capture Full Process Cost Model (CAPEX\/OPEX) to quantify energy consumption, material loss, and economic benefits; Innovation technology tracking: Monitor international cutting-edge CCS technologies (such as new carbon capture absorbents, efficient adsorption materials, carbon capture utilization integrated technologies, etc.), analyze their commercialization potential and intellectual property layout; Policy and Market Research: Interpreting domestic and international carbon neutrality policies, evaluating the impact of policies on technology route selection;<\/div>\r\n            <div class=\"content\">\r\n                <h4 class=\"pp\">Job Responsibilities<\/h4>\r\n                <div class=\"p\">\r\n                    <p>1\u3001 Technical evaluation and route analysis: Systematically evaluate the efficiency, cost, and applicable scenarios of different carbon capture and utilization (CCS) technology routes to provide a basis for project selection. <\/p>\r\n                    <p>2\u3001 Technical and Economic Modeling: Participate in the construction of the Carbon Capture Full Process Cost Model (CAPEX\/OPEX) to quantify energy consumption, material loss, and economic benefits. <\/p>\r\n                    <p>3\u3001 Innovation technology tracking: Monitor international cutting-edge CCS technologies (such as new carbon capture absorbents, efficient adsorption materials, carbon capture utilization integrated technologies, etc.), analyze their commercialization potential and intellectual property layout. <\/p>\r\n                    <p>4\u3001 Policy and Market Research: Interpreting Domestic and Foreign Carbon Neutrality Policies, Evaluating the Impact of Policies on Technological Route Selection. <\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Job Requirements<\/h4>\r\n                <div class=\"p\">\r\n                    <p>1\u3001 Education major: Master's degree or above, major in Chemical Engineering, Environmental Engineering, Materials Science or related fields, PhD preferred. <\/p>\r\n                    <p>2\u3001 Knowledge system: Proficient in the principles of carbon capture technology; Familiar with chemical thermodynamics, reaction engineering, and process design specifications. <\/p>\r\n                    <p>3\u3001 Analytical skills: Possess technical feasibility assessment, life cycle analysis (LCA), and economic modeling abilities; Rigorous logic, able to propose practical technical decisions based on data. <\/p>\r\n                    <p>4\u3001 Industry experience: Over 3 years of experience in carbon capture technology research and development, engineering design, or consulting analysis. <\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Salary and Benefits<\/h4>\r\n                <div class=\"p\">\r\n                    <p>Salary and Benefits<\/p>\r\n                    <p>Welfare: Five insurances and one fund, national and corporate annual leave, rental subsidies, vehicle subsidies, other benefits, etc.<\/p>\r\n                <\/div>\r\n\r\n            <\/div>\r\n        <\/div>\r\n    <\/li>\r\n\r\n    <li>\r\n        <div class=\"jbox\">\r\n            <div class=\"h3\"><h4>Fischer Tropsch, Hydrogenation Testing and Analysis Engineer<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n            <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in December 2025<\/span><\/div>\r\n            <div class=\"desc\">Operation of the Fischer Tropsch synthesis experimental apparatus; Catalyst performance evaluation, using advanced instrument analysis technology to accurately analyze reaction products, providing core data support for catalyst optimization and process development;<\/div>\r\n            <div class=\"content\">\r\n                <h4 class=\"pp\">Job Responsibilities<\/h4>\r\n                <div class=\"p\">\r\n                    <p>1\u3001 Fischer Tropsch synthesis test operation and evaluation: responsible for the opening, daily operation, process monitoring, parking, and maintenance of small-scale or pilot scale Fischer Tropsch synthesis test devices. Strictly implement the experimental plan, conduct experiments on catalyst loading, reduction, activation, reaction performance evaluation, and deactivation regeneration. Accurately control and record key process parameters such as reaction temperature, pressure, feed flow rate (synthesis gas), and exhaust emissions to ensure safe, stable, and long-term operation of the experiment. Systematically investigate and analyze the effects of different process conditions on catalyst activity, selectivity, and stability, including conversion rate, product distribution (CH \u2084, CO \u2082, light hydrocarbons, oil products, heavy wax, etc.), and lifespan. <\/p>\r\n                    <p>2\u3001 Sample collection and instrument analysis: Responsible for the standardized and timely collection and pretreatment of gases, liquids (oil, water), and solid wax products during the Fischer Tropsch synthesis reaction process. Independently operate and maintain various analytical instruments to perform qualitative and quantitative analysis of products, including online and offline gas chromatography: analyze the composition of H \u2082, CO, CO \u2082, CH \u2084, and C1 to C5 light hydrocarbons in exhaust gas. Gas chromatography-mass spectrometry: used for detailed analysis of complex organic compounds (olefins, alkanes, oxygen-containing compounds, etc.) in oil and water phases. Simulated Distillation Gas Chromatography: Rapid Determination of Distillation Range Distribution of Liquid Products. Other related analyses: such as using total sulfur\/total nitrogen analyzer, Karl Fischer moisture analyzer, etc. to analyze impurities in raw materials and products. Ensure the accuracy, reliability, and traceability of the analyzed data. <\/p>\r\n                    <p>3\u3001 Data processing and report writing: Summarize, calculate, verify, and statistically analyze the raw experimental data and instrument analysis results, calculate key performance indicators (such as CO conversion rate, hydrocarbon selectivity, ASF distribution, etc.). Write clear and detailed daily experiment records, test reports, and periodic technical summaries. Utilize data analysis results to assist R&D engineers in analyzing experimental phenomena, revealing reaction patterns, and providing suggestions for the next experimental direction. <\/p>\r\n                    <p>4\u3001 Safety and laboratory management: Strictly comply with laboratory safety regulations for high pressure, high temperature, hydrogen and toxic and harmful gases, participate in hazard identification and risk assessment. Responsible for the daily calibration, troubleshooting, and maintenance of the analytical instruments used, maintaining the cleanliness and orderliness of the experimental area and analysis room. Manage experimental samples, chemical reagents, and analytical consumables. <\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Job Requirements<\/h4>\r\n                <div class=\"p\">\r\n                    <p>1\u3001 Essential requirements: Major in Chemical Engineering, Industrial Catalysis, Analytical Chemistry, Applied Chemistry, or related fields, with a bachelor's degree or above. Excellent candidates can be extended to associate degrees. <\/p>\r\n                    <p>2\u3001 Work experience: Possess experience in independently or mainly participating in the operation of Fischer Tropsch synthesis or similar multiphase catalytic reaction (such as methanol to gasoline, methane reforming, etc.) experimental equipment in the laboratory or pilot scale. <\/p>\r\n                    <p>3\u3001 Proficient in instrument operation: able to independently operate GC or GC-MS and possess solid spectral analysis skills. Familiarity with other analytical instruments is preferred. <\/p>\r\n                    <p>4\u3001 Data analysis skills: Possess good data sensitivity and analytical abilities, proficient in using data processing and plotting software such as Excel and Origin. <\/p>\r\n                    <p>5\u3001 Work meticulously and rigorously, with a strong sense of responsibility and teamwork spirit, possessing excellent communication skills. Strong safety awareness and strict adherence to laboratory operating procedures. <\/p>\r\n                    <p>6\u3001 Priority consideration criteria: those with specific project experience in evaluating Fischer Tropsch synthesis catalysts or analyzing products. Experience in testing or data analysis for conventional characterization of catalysts, such as BET, XRD, TPR\/TPD. I have experience using Laboratory Information Management Systems (LIMS). Those with experience in building or modifying experimental equipment. <\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Salary and Benefits<\/h4>\r\n                <div class=\"p\">\r\n                    <p>Salary and Benefits<\/p>\r\n                    <p>Welfare: Five insurances and one fund, national and corporate annual leave, rental subsidies, vehicle subsidies, other benefits, etc.<\/p>\r\n                <\/div>\r\n\r\n            <\/div>\r\n        <\/div>\r\n    <\/li>\r\n\r\n    <li>\r\n        <div class=\"jbox\">\r\n            <div class=\"h3\"><h4>Industrial AI Engineer (Data Algorithm)<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n            <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in December 2025<\/span><\/div>\r\n            <div class=\"desc\">Implementation of process optimization algorithms: In response to the core requirements of \"reducing energy consumption, improving yield, and enhancing quality\" in high-energy consumption, zero carbon green chemical industry, design end-to-end algorithm solutions, including but not limited to: collection and organization of industrial data and establishment of feature engineering, process data correlation analysis, production constraint boundary analysis, yield and yield prediction, rolling process parameter optimization, closed-loop enhanced control, etc<\/div>\r\n            <div class=\"content\">\r\n                <h4 class=\"pp\">Job Responsibilities<\/h4>\r\n                <div class=\"p\">\r\n                    <p>1\u3001 Implementation of process optimization algorithms: In response to the core requirements of high energy consumption, zero carbon green chemical industry to reduce energy consumption, improve yield, and enhance quality, an end-to-end algorithm solution is designed, including but not limited to: collection and organization of industrial data and establishment of feature engineering, process data correlation analysis, production constraint boundary analysis, yield and yield prediction, rolling process parameter optimization, closed-loop enhanced control, etc. <\/p>\r\n                    <p>2\u3001 Bridge between data and business: Deeply communicate and collaborate with process and production operation teams to transform business goals such as \"reducing energy consumption by 5%\" and \"increasing yield by 2%\" into algorithm implementable problems (such as feature definition and objective function design); At the same time, use language that other experts within the team can understand to interpret the algorithm results - for example, through SHAP value analysis, clarify that \"temperature fluctuations\" are the key factor affecting desorption rate, promote the optimization of equipment process parameters, and form a closed loop of \"algorithm output \u2192 process improvement \u2192 value implementation\". <\/p>\r\n                    <p>3\u3001 Algorithm iteration and engineering: tracking the performance of the model in actual field - if \"model drift\" is caused by changes in raw materials or deterioration of catalyst performance, continuously retrain and optimize with updated data; Improve the engineering performance of algorithms to meet the real-time adjustment needs of production lines. <\/p>\r\n                    <p>4\u3001 Cross team collaboration and internal value contribution: Externally, collaborate with equipment, materials, automation system vendors, and on-site teams to extend and integrate from the data-driven chain; Internally, integrating the algorithms and programs accumulated from practical experience into the company's internal platform system not only enables quick reuse of subsequent projects, but more importantly, forms the company's most core digital value asset. <\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Job Requirements<\/h4>\r\n                <div class=\"p\">\r\n                    <p><strong>1\u3001 Basic conditions:<\/strong><\/p>\r\n                    <p>(1) Master's degree or above, major in computer science, automation, data science, applied mathematics or related fields, with at least 1 year of algorithm implementation experience (those with industrial scene experience are preferred, while those without experience but able to independently complete industrial data algorithm cases are also acceptable); <\/p>\r\n                    <p>(2) Proficient in Python programming, proficient in time-series and relational databases, able to handle 100000 level time-series data; <\/p>\r\n                    <p>(3) No adverse occupational record. <\/p>\r\n                    <p><strong>2\u3001 Fundamentals of Algorithm Technology:<\/strong><\/p>\r\n                    <p>(1) Proficient in at least one mainstream machine learning\/deep learning framework (TensorFlow\/PyTorch), able to independently build time-series prediction (such as LSTM, Transformer, etc.), regression classification (such as XGBoost, LightGBM), and intelligent optimization (such as genetic algorithm, particle swarm optimization) models; <\/p>\r\n                    <p>(2) Understanding the characteristics of industrial (especially chemical industry) data (multi noise, large time delay, multi variable coupling) can solve data quality problems through feature engineering (sliding window, time-domain\/frequency-domain feature extraction, outlier processing), rather than just running models with \"standard datasets\". <\/p>\r\n                    <p><strong>3\u3001 Industrial scene adaptation and on-site capabilities:<\/strong><\/p>\r\n                    <p>(1) To have a passion for industry, one must be able to go deep into the production line, understand the real production process, understand the systematic knowledge and fragmented experience descriptions of process and production experts, and transform them into data and algorithm models that can be characterized and analyzed; <\/p>\r\n                    <p>(2) Accepting 30% of business trips, the company will establish testing and production lines in different regions in the future, which can adapt to the impact of factory site environment and surrounding environment.\r\n                    <p><strong>4\u3001 Practical thinking and communication skills:<\/strong><\/p>\r\n                    <p>(1) Not pursuing \"complex algorithm skills\", but focusing on \"solving practical problems\" - if the data volume of the pilot line is small, one can give up deep learning models that require a large amount of data and quickly implement them using traditional statistical learning+process rules methods, and first see the initial value; <\/p>\r\n                    <p>(2) Being able to communicate with team members with non professional AI technology backgrounds in a value oriented manner, using the pragmatic statement 'this algorithm model can help reduce 2.3% of electrolysis efficiency fluctuations, equivalent to earning X million more' instead of the technical term 'we used Transformer self attention mechanism'. <\/p>\r\n                    <p><strong>5\u3001 Internal Contribution Awareness:<\/strong><\/p>\r\n                    <p>Having the mindset of \"sedimentation and reuse\", after completing a specific project and business goal, being able to actively sort out reusable algorithm modules, tools, or experience documents, integrate them into the company's internal platform, save development time for the team's subsequent projects, and promote the large-scale output of the company's algorithm capabilities. <\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Salary and Benefits<\/h4>\r\n                <div class=\"p\">\r\n                    <p>Salary and Benefits<\/p>\r\n                    <p>Welfare: Five insurances and one fund, national and corporate annual leave, rental subsidies, vehicle subsidies, other benefits, etc.<\/p>\r\n                <\/div>\r\n\r\n            <\/div>\r\n        <\/div>\r\n    <\/li>\r\n\r\n\r\n    <li>\r\n        <div class=\"jbox\">\r\n            <div class=\"h3\"><h4>Industrial AI Intern (Data Algorithm Direction)<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n            <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in December 2025<\/span><\/div>\r\n            <div class=\"desc\">Auxiliary Industrial Data Processing and Feature Engineering: Follow engineers to organize production data for green chemistry (such as temperature, pressure, energy consumption, yield data), assist in data cleaning (handling missing values, outliers), temporal data slicing (such as extracting sliding window features by production batch), assist in annotating \"process anomaly data\", and provide clean \"input raw materials\" for algorithm models<\/div>\r\n            <div class=\"content\">\r\n                <h4 class=\"pp\">Job Responsibilities<\/h4>\r\n                <div class=\"p\">\r\n                    <p>1\u3001 Auxiliary industrial data processing and feature engineering: Follow engineers to organize production data of green chemistry (such as temperature, pressure, energy consumption, yield data), assist in data cleaning (processing missing values, outliers), temporal data slicing (such as extracting sliding window features by production batch), assist in labeling \"process anomaly data\", and provide clean \"input materials\" for algorithm models. <\/p>\r\n                    <p>2\u3001 Writing and debugging of algorithm models: Under the guidance of engineers, train models - such as using XGBoost to assist in verifying the correlation between temperature fluctuations and desorption rates, or using LSTM to assist in testing the predictive performance of time-series data; Record the parameter changes and results during the debugging process, and help engineers organize the \"Model Optimization Log\". <\/p>\r\n                    <p>3\u3001 Cooperate with process communication and document accumulation: Follow engineers to participate in communication meetings with process and production teams, record \"experience from process experts\", and assist in transforming them into \"feature descriptions understandable by algorithms\"; At the same time, assist in organizing reusable tool documents (such as \"Industrial Time Series Data Cleaning Steps\" and \"Basic Methods for Feature Filtering\") to lay the foundation for the sedimentation of the company's internal platform. <\/p>\r\n                    <p>4\u3001 Participate in on-site research and data validation: Follow the team to the production line, observe the actual operational logic of the production line (such as the workflow of the electrolytic cell and the rhythm of raw material delivery), assist in recording the \"differences between on-site data and system data\", and avoid \"disconnection between office data and actual production\". <\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Job Requirements<\/h4>\r\n                <div class=\"p\">\r\n                    <p><strong>1\u3001 Basic technical skills:<\/strong><\/p>\r\n                    <p>(1) Bachelor's degree or above (with priority given to first year graduate studies), major in computer science, automation, data science, applied mathematics, or chemical engineering (with a basic understanding of chemical engineering preferred); <\/p>\r\n                    <p>(2) Proficient in programming with Python, familiar with basic data processing libraries (Pandas, NumPy), and knowledgeable in at least one machine learning framework (TensorFlow\/PyTorch added points); <\/p>\r\n                    <p>(3) Understand technical concepts such as \"temporal data\" and \"feature engineering\", and be able to understand \"why industrial data needs to handle large time delay problems\". <\/p>\r\n                    <p><strong>2\u3001 Learning attitude and industrial sentiment:<\/strong><\/p>\r\n                    <p>(1) I am curious about \"industrial production+AI\" and willing to follow on-site (without excluding workshop environment and chemical production standards). I can patiently listen to process experts explain production logic; <\/p>\r\n                    <p>(2) Not pursuing \"showing off skills with complex algorithms\", able to understand \"solving small problems first (such as assisting in improving 0.1% yield), and then discussing big breakthroughs\", willing to start with basic data analysis and document organization. <\/p>\r\n                    <p><strong>3\u3001 Communication and collaboration skills:<\/strong><\/p>\r\n                    <p>(1) Be able to provide clear feedback to engineers on \"problems encountered in data processing\" (such as \"how to handle a batch of data that is missing too much\"), rather than blindly doing it; <\/p>\r\n                    <p>(2) Can organize the 'model debugging results' in simple language (such as' after adjusting the window size, the prediction error decreased by 5%'), making it easier for the team to quickly understand. <\/p>\r\n                    <p><strong>4\u3001 Time requirement:<\/strong><\/p>\r\n                    <p>Be able to work for 4 days or more per week and intern for at least 3 months (priority given to those who can intern for 6 months). <\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Salary and Benefits<\/h4>\r\n                <div class=\"p\">\r\n                    <p>Internship salary: 220 yuan\/day for undergraduate students, 260 yuan\/day for master's students, and 300 yuan\/day for doctoral students in first tier cities.<\/p>\r\n                <\/div>\r\n\r\n            <\/div>\r\n        <\/div>\r\n    <\/li>\r\n\r\n\r\n    <li>\r\n        <div class=\"jbox\">\r\n            <div class=\"h3\"><h4>Industrial AI Engineer (Green Power+Green Chemical)<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n            <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in December 2025<\/span><\/div>\r\n            <div class=\"desc\">Construction of a direct connection algorithm system for green power energy storage chemical industry: Design feasible AI solutions for the intermittency and volatility of photovoltaic\/wind power, including short\/medium\/long-term prediction of green power (integrating meteorological data and power generation characteristics), and modeling of adjustable loads for chemical production lines (such as flexible load interval definition for electrolytic cells and various reactors); Develop source load collaborative optimization algorithms (multi-objective optimization, balancing green power consumption, production line yield, and production stability) and closed-loop control algorithms for direct connected systems (adjusting production line parameters in response to green power fluctuations in seconds).<\/div>\r\n            <div class=\"content\">\r\n                <h4 class=\"pp\">Job Responsibilities<\/h4>\r\n                <div class=\"p\">\r\n                    <p><strong>1\u3001 Construction of Green Electricity Energy Storage Chemical Direct Connection Algorithm System:<\/strong><\/p>\r\n                    <p>(1) Design feasible AI solutions for the intermittency and volatility of photovoltaic\/wind power, including short\/medium\/long-term prediction of green power (integrating meteorological data and power generation characteristics), and modeling of adjustable loads for chemical production lines (such as flexible load interval definition for electrolytic cells and various reactors); <\/p>\r\n                    <p>(2) Develop source load collaborative optimization algorithms (multi-objective optimization, balancing green power consumption, production line yield, and production stability) and closed-loop control algorithms for direct connected systems (adjusting production line parameters in response to green power fluctuations in seconds). <\/p>\r\n                    <p><strong>2\u3001 Cross system data integration and feature engineering:<\/strong><\/p>\r\n                    <p>(1) Lead the construction of data links between the green power side (inverter, SCADA system), energy storage side (BMS, PCS), and chemical side (DCS system), and process multi-source heterogeneous data (meteorological time-series data, real-time power generation data, energy storage status, production line process data); <\/p>\r\n                    <p>(2) Design exclusive feature engineering for the time delay and coupling of \"green power fluctuation production line response\", such as green power fluctuation slope, production line load elasticity coefficient, voltage frequency deviation characteristics, etc. <\/p>\r\n                    <p><strong>3\u3001 Stability and Engineering Implementation of Direct Connection Systems:<\/strong><\/p>\r\n                    <p>(1) Track the operational status of the green power chemical direct connection site and solve the problem of \"model drift\" (such as sudden changes in wind power, delayed response of energy storage PCS, catalyst activity affecting production line load, etc.); <\/p>\r\n                    <p>(2) Optimize the real-time performance (ms) of the algorithm, adapt to the interface requirements of industrial control systems (such as DCS and PLC), and ensure the stable implementation of the solution from the test line to the production line. <\/p>\r\n                    <p><strong>4\u3001 Cross team collaboration and technical accumulation:<\/strong><\/p>\r\n                    <p>(1) Deeply communicate with photovoltaic\/wind power equipment manufacturers, energy storage system teams, and chemical process teams to transform business goals such as \"improving green power consumption rate\" and \"controlling production line fluctuations\" into algorithm implementable problems; <\/p>\r\n                    <p>(2) Accumulate reusable algorithm modules (such as the General Model for Green Power Forecasting and the Flexible Load Control Toolkit), integrate them into the company's internal platform, and promote the large-scale replication of green power chemical direct connection technology. <\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Job Requirements<\/h4>\r\n                <div class=\"p\">\r\n                    <p><strong>1\u3001 Basic conditions:<\/strong><\/p>\r\n                    <p>(1) Education: Master's degree or above, major in computer science, automation, data science, electrical engineering, energy and power, etc; <\/p>\r\n                    <p>(2) Experience: More than 1 year of experience in implementing algorithms related to green power (photovoltaic\/wind power) (such as power forecasting, load scheduling) or energy optimization in chemical production lines is preferred; Inexperienced individuals who can independently complete algorithm cases related to \"green power load linkage\" are also welcome; <\/p>\r\n                    <p>(3) Tools: Proficient in Python programming, proficient in time-series databases and relational databases, able to handle millions of time-series data (green electricity+chemical dual end concurrent data); <\/p>\r\n                    <p>(4) Other: No adverse occupational record.\r\n                    <p><strong>2\u3001 Core Technical Capability:<\/strong><\/p>\r\n                    <p>(1) Proficient in at least one mainstream machine learning\/deep learning framework (TensorFlow\/PyTorch), proficient in time-series prediction models (such as Transformer, LSTM+meteorological factor fusion model), multi-objective optimization algorithms (such as NSGA-III, improved particle swarm optimization), closed-loop control algorithms (such as model predictive control MPC), experience in green power prediction or industrial load regulation is preferred; <\/p>\r\n                    <p>(2) Understand the characteristics of green electricity (output curves, fluctuation patterns, and influencing factors of photovoltaic\/wind power), the control logic of large-scale energy storage PCS\/SOC\/BMS, and the load characteristics of chemical production lines (rigid\/flexible load differentiation, key equipment start stop constraints, process parameter adjustment boundaries), and be able to handle the fusion problem of multi-source heterogeneous data; <\/p>\r\n                    <p>(3) Familiar with at least one industrial communication protocol (such as OPC UA, Modbus TCP, IEC 61850), able to interface with SCADA systems on the green power side and DCS systems on the chemical side, with experience in building industrial data links or microgrid control, will earn extra points. <\/p>\r\n                    <p><strong>3\u3001 On site and landing capabilities:<\/strong><\/p>\r\n                    <p>(1) Have a passion for industry, able to go deep into green power plants and chemical production lines, understand the operating logic of photovoltaic panels\/fans, the response mechanism of energy storage PCS, and the load adjustment limits of chemical equipment, and avoid \"brainstorming solutions in the office\"; <\/p>\r\n                    <p>(2) Accepting 30% -40% business trips (for on-site debugging, data collection, and effect verification of green electricity chemical direct connection), able to adapt to the on-site environment of power plants and factories. <\/p>\r\n                    <p>Communication and practical thinking:<\/p>\r\n                    <p>(3) Not pursuing \"complex algorithm skills\", focusing on \"solving practical problems\" - for example, when green power data is scarce, it can combine mechanisms (such as photovoltaic irradiance power relationship) and a small amount of data to quickly build usable models; When there is severe fluctuation in green electricity, a multi-level scheme of \"prediction+buffering+regulation\" can be designed; <\/p>\r\n                    <p>(4) Ability to communicate efficiently with teams with non AI backgrounds, using pragmatic language to replace purely technical jargon. <\/p>\r\n                    <p><strong>4\u3001 Internal Contribution Awareness:<\/strong><\/p>\r\n                    <p>Having the mindset of \"precipitation reuse\", actively sorting out the parameter library of green power prediction models, production line load regulation rules, direct connection system interface specifications, etc. after the project is completed, saving development time for the team's subsequent projects. <\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Salary and Benefits<\/h4>\r\n                <div class=\"p\">\r\n                    <p>Salary and Benefits<\/p>\r\n                    <p>Welfare: Five insurances and one fund, national and corporate annual leave, rental subsidies, vehicle subsidies, other benefits, etc.<\/p>\r\n                <\/div>\r\n\r\n            <\/div>\r\n        <\/div>\r\n    <\/li>\r\n\r\n\r\n    <li>\r\n        <div class=\"jbox\">\r\n            <div class=\"h3\"><h4>Industrial AI Intern (Green Power+Green Chemical)<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n            <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in December 2025<\/span><\/div>\r\n            <div class=\"desc\">Green Power Chemical Dual End Data Processing and Feature Engineering: Follow engineers to organize photovoltaic\/wind power data (irradiance, wind speed, power generation, voltage frequency) and chemical production line data (load, temperature, pressure, yield); Assist in completing data cleaning (processing outliers caused by green electricity fluctuations, timing alignment of dual end data), feature extraction (such as green electricity fluctuation amplitude, production line load elasticity, response delay features, etc.), and provide clean \"input materials\" for source load coordination algorithms<\/div>\r\n            <div class=\"content\">\r\n                <h4 class=\"pp\">Job Responsibilities<\/h4>\r\n                <div class=\"p\">\r\n                    <p><strong>1\u3001 Green electricity chemical dual end data processing and feature engineering:<\/strong><\/p>\r\n                    <p>(1) Follow engineers to organize photovoltaic\/wind power data (irradiance, wind speed, power generation, voltage frequency) and chemical production line data (load, temperature, pressure, yield); <\/p>\r\n                    <p>(2) Assist in completing data cleaning (processing outliers caused by green electricity fluctuations, timing alignment of dual end data), feature extraction (such as green electricity fluctuation amplitude, production line load elasticity, response delay features, etc.), and provide clean \"input materials\" for source load coordination algorithms. <\/p>\r\n                    <p><strong>2\u3001 Assisted development and validation of direct connection related algorithms:<\/strong><\/p>\r\n                    <p>(1) Under the guidance of engineers, assist in building a short-term prediction model for green power and verifying the flexible range of production line loads (such as the relationship between reactor load regulation range and energy consumption); <\/p>\r\n                    <p>(2) Record parameter adjustments and model performance (such as \"reducing prediction error by X% after adding XX features\"), and organize the \"Model Optimization Log\". <\/p>\r\n                    <p><strong>3\u3001 Cross team communication and document accumulation:<\/strong><\/p>\r\n                    <p>(1) Follow engineers to attend communication meetings with green power equipment manufacturers and chemical process teams, record key information such as \"green power generation constraints\" and \"production line load adjustment boundaries\", and assist in transforming them into algorithmic understandable demand descriptions; <\/p>\r\n                    <p>(2) Assist in organizing reusable tool documents (such as \"Green Electricity Chemical Data Time Series Alignment Steps\" and \"Power Prediction Feature Selection Methods\") to lay the foundation for the company's internal platform. <\/p>\r\n                    <p><strong>4\u3001 On site research and data verification:<\/strong><\/p>\r\n                    <p>(1) Follow the team to the green power station and chemical production line, observe the operation status of green power equipment and the load adjustment logic of the chemical production line; <\/p>\r\n                    <p>(2) Assist in recording the differences between green power side data and chemical side data, as well as the deviations between on-site fluctuations and system monitoring data, to avoid the disconnection between office data and actual linkage. <\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Job Requirements<\/h4>\r\n                <div class=\"p\">\r\n                    <p><strong>1\u3001 Basic technical skills:<\/strong><\/p>\r\n                    <p>(1) Education: Bachelor's degree or above (with a preference for first year or above), major in computer science, automation, data science, applied mathematics, power engineering, electrical engineering, energy and power, chemical engineering or related fields (with a basic understanding of green electricity or power systems preferred); <\/p>\r\n                    <p>(2) Programming: Proficient in Python programming, familiar with basic data processing libraries (Pandas, NumPy), and knowledgeable in at least one machine learning framework (TensorFlow\/PyTorch is an added bonus); <\/p>\r\n                    <p>(3) Cognition: Understand basic concepts such as \"time series data\", \"green wave dynamics\", and \"production line load\", and be able to understand \"why green wave fluctuations affect the stability of chemical production lines\". <\/p>\r\n                    <p><strong>2\u3001 Learning attitude and cross-border sentiment:<\/strong><\/p>\r\n                    <p>(1) I am curious about \"green power+chemical+AI\" and willing to follow to green power plants and chemical workshops (not excluding industrial environments and complying with production standards); <\/p>\r\n                    <p>(2) Can patiently listen to green power experts explain the logic of power generation and process experts explain the rules of energy consumption, not limited to \"sitting in the office adjusting models\"; <\/p>\r\n                    <p>(3) Not pursuing \"complex algorithm skills\", able to understand \"solving small problems first (such as assisting in improving green electricity prediction accuracy), and then discussing big breakthroughs\", willing to start from basic data analysis and document organization. <\/p>\r\n                    <p><strong>3\u3001 Communication and collaboration skills:<\/strong><\/p>\r\n                    <p>(1) Can provide clear feedback to engineers on \"problems encountered in data processing\" (such as \"how to align the timing of green power data and production line data\"), instead of blindly doing it; <\/p>\r\n                    <p>(2) Can organize the 'model debugging results' in simple language for the team to quickly understand. <\/p>\r\n                    <p><strong>4\u3001 Time requirement:<\/strong><\/p>\r\n                    <p>Be able to work for 4 days or more per week and intern for at least 3 months (those who can intern for 6 months are preferred, and can deeply participate in on-site projects of green electricity chemical direct connection). <\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Salary and Benefits<\/h4>\r\n                <div class=\"p\">\r\n                    <p>Internship salary: 220 yuan\/day for undergraduate students, 260 yuan\/day for master's students, and 300 yuan\/day for doctoral students in first tier cities.<\/p>\r\n                <\/div>\r\n\r\n            <\/div>\r\n        <\/div>\r\n    <\/li>\r\n\r\n\r\n    <li>\r\n        <div class=\"jbox\">\r\n            <div class=\"h3\"><h4>Advanced R&D expert in electrolytic cells (hydrogen production\/CO \u2082 electroreduction direction)<\/h4><a href=\"javascript:;\">Job Details<i class=\"fas fa-caret-down\"><\/i><\/a><\/div>\r\n            <div class=\"dates\"><span><i class=\"flaticon flaticon-map\"><\/i>Shanghai Lingang<\/span><span class=\"dateym\">Published in December 2025<\/span><\/div>\r\n            <div class=\"desc\">Carbon Life is a company dedicated to the integration, development, and commercialization of Direct Air Carbon Capture and Utilization (DAC-CCUS) full chain technology, focusing on green electricity direct connection for direct air carbon capture, electrochemical methods for CO2 conversion, and Fischer Tropsch synthesis for oil production. We are looking for a senior R&D expert with both depth and breadth in the field of hydrogen production and CO \u2082 electroreduction electrolytic cell technology. You will serve as the core technology leader, responsible for the full chain research and development work from key materials, core components to electrolytic cell system integration, promoting laboratory innovation towards industrial applications. This is a position that has a crucial impact on achieving the 'dual carbon' goal, and we look forward to you leading technological breakthroughs with your professional knowledge.<\/div>\r\n            <div class=\"content\">\r\n                <h4 class=\"pp\">Job Responsibilities<\/h4>\r\n                <div class=\"p\">\r\n                    <p>1\u3001 Core technology development and mechanism research<\/p>\r\n                    <p>Responsible for the development, optimization, and preparation process research of key materials such as high-performance and low-cost electrolytic water hydrogen production and CO \u2082 electroreduction catalysts, electrodes, membrane electrodes, etc. <\/p>\r\n                    <p>By utilizing electrochemical testing and in-situ characterization techniques, we aim to delve into the reaction and decay mechanisms, providing theoretical guidance for material and structural design. <\/p>\r\n                    <p>2\u3001 Electrolytic Cell Design and Engineering<\/p>\r\n                    <p>Lead or participate in the structural design, simulation, and prototype manufacturing of electrolytic cells (single cells, stacks), with a focus on engineering issues such as mass transfer, conductivity, sealing, and durability. <\/p>\r\n                    <p>Responsible for establishing a performance testing system for electrolytic cells, including evaluation and optimization of key indicators such as activity, efficiency, stability, and energy consumption. <\/p>\r\n                    <p>3\u3001 System integration and process amplification<\/p>\r\n                    <p>Coordinate with system engineers to integrate and debug the electrolytic cell with subsystems such as gas supply, liquid management, and power control. <\/p>\r\n                    <p>Explore and develop technical paths and process specifications from laboratory to pilot scale, and solve technical difficulties in the scaling process. <\/p>\r\n                    <p>4\u3001 Technical leadership and interdisciplinary collaboration<\/p>\r\n                    <p>Lead or guide the R&D team to develop technical solutions and drive project milestones. <\/p>\r\n                    <p>Work closely with material, chemical, mechanical, electrical, and automation teams to ensure consistency between research and development goals and product requirements. <\/p>\r\n                    <p>Write high-quality technical reports, patents, and research papers to build the company's technological intellectual property barriers. <\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Qualifications for Employment (Required)<\/h4>\r\n                <div class=\"p\">\r\n                    <p><strong>1\u3001 Educational background:<\/strong><\/p>\r\n                    <p>Having a doctoral degree in electrochemistry, materials science and engineering, chemical engineering, applied chemistry, or a master's degree with at least 3 years of research and development experience in equivalent positions. <\/p>\r\n                    <p><strong>2\u3001 Professional knowledge: Possess a strong foundation in electrochemistry and proficient in electrode process kinetics. Have solid experience in at least one of the fields:<\/strong><\/p>\r\n                    <p>(1) Hydrogen production direction: Deeply understand the key materials, components, and system knowledge in alkaline\/PEM\/high-temperature solid oxide electrolysis water technology. <\/p>\r\n                    <p>(2) CO \u2082 reduction direction: Familiar with CO generation pathways, proficient in catalyst design, membrane electrode construction, and product separation analysis techniques. <\/p>\r\n                    <p><strong>3\u3001 Skills and experience:<\/strong><\/p>\r\n                    <p>(1) Proficient in the assembly, testing, and performance evaluation methods of electrolytic cells. <\/p>\r\n                    <p>(2) Proficient in electrochemical workstations, impedance spectroscopy, and other testing techniques, and able to analyze products using gas\/liquid chromatography. <\/p>\r\n                    <p>(3) Having excellent data analysis and problem-solving skills, able to independently design experiments and analyze complex data. <\/p>\r\n                    <p>(4) Having excellent reading and writing skills in both Chinese and English literature, as well as technical communication and expression abilities. <\/p>\r\n                    <p><strong>III. Priority consideration criteria<\/strong><\/p>\r\n                    <p>1\u3001 Experience in R&D or industrialization projects related to electrolytic cells with pilot scale or above in well-known enterprises or laboratories. <\/p>\r\n                    <p>2\u3001 Having research and development experience in both hydrogen production and CO \u2082 reduction fields, or having a deep understanding of one of them, and a strong desire to learn and apply in the other field. <\/p>\r\n                    <p>3\u3001 Publish high-level research papers in top academic journals, or hold relevant authorized invention patents as the main inventor. <\/p>\r\n                    <p>4\u3001 Having certain project management and team collaboration experience, able to lead small technical teams to overcome challenges. <\/p>\r\n                <\/div>\r\n                <h4 class=\"pp\">Salary and Benefits<\/h4>\r\n                <div class=\"p\">\r\n                    <p>Salary and Benefits<\/p>\r\n                    <p>Welfare: Five insurances and one fund, national and corporate annual leave, rental subsidies, vehicle subsidies, other benefits, etc.<\/p>\r\n                <\/div>\r\n\r\n            <\/div>\r\n        <\/div>\r\n    <\/li>\r\n\r\n\r\n<\/ul>\r\n<style>\r\n\r\n<\/style>\r\n<script type=\"text\/javascript\" src=\"https:\/\/en.carbonology.com\/wp-includes\/js\/jquery\/jquery.min.js?ver=3.7.1\" id=\"jquery-core-js\"><\/script>\r\n<script>\r\n    jQuery(document).ready(function($) {\r\n        $(\".joinlist .h3 a\").click(function(){\r\n        if($(this).parent().parent().find(\".content\").is(\":hidden\")){\r\n            $(this).parent().parent().find(\".content\").show();\r\n            $(this).parent().parent().find(\".desc\").hide();\r\n            $(this).find(\".fas\").removeClass(\"fa-caret-down\").addClass(\"fa-caret-up\");\r\n            \r\n        }else{\r\n            $(this).parent().parent().find(\".content\").hide();\r\n            $(this).parent().parent().find(\".desc\").show();\r\n            $(this).find(\".fas\").addClass(\"fa-caret-down\").removeClass(\"fa-caret-up\");\r\n        }\r\n        \r\n    })\r\n    })\r\n    \r\n<\/script>\r\n\t\t\t\t<\/div>\n\t\t\t\t<div class=\"elementor-element elementor-element-aa8f0db elementor-widget elementor-widget-html\" data-id=\"aa8f0db\" data-element_type=\"widget\" data-widget_type=\"html.default\">\n\t\t\t\t\t<div class=\"contactbtn\">\n    <a id=\"contactform\" href=\"javascript:;\">Submit a resume<\/a>\n<\/div>\n\n<div class=\"fixedform\"><\/div>\n\n<style>\n    .contactbtn{text-align:center}\n    .contactbtn a{display:inline-block;border-radius:100px; 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