At Bloom Energy, our vision for a world powered by clean, reliable, and affordable energy is more than just a dream—we’re making it reality. For over two decades, we’ve been at the forefront of the global energy transition, pioneering solutions that empower critical industries to thrive in a rapidly digitizing, energy-intensive world. From revolutionizing power for AI-driven data centers to ensuring resilience for hospitals, electric grids, manufacturing facilities, and utilities, our solid oxide fuel cell (SOFC) and solid oxide electrolyzer (SOEC) technologies are redefining what’s possible by delivering energy abundance for all. With more than 30,000 fuel cell modules deployed worldwide, we are the trusted partner for Fortune 100 companies and innovators alike. Our cutting-edge solutions enable unparalleled “time-to-power” capabilities, reliability, and sustainability, ensuring our customers remain ahead in a world where soaring energy demand and intensifying energy scarcity are rapidly becoming the new norm. At Bloom, we thrive on collaboration, bold thinking, and relentless innovation. We believe that, together, we can create a brighter, more sustainable future while tackling the most pressing challenges of the 21st century. We are looking for a Principal Process Technology Engineer to join our team in one of today’s most exciting technologies. This role will report to Sr. Director, Process Engineering and is based in San Jose, CA. This is a fully on-site, in office role 5 days a week. Role Summary As part of the Process Technology & Systems Integration team, you will play a key role in defining, developing, and integrating core process technologies that enable gigawatt-scale deployment of Bloom’s Energy Server platform. The team is focused on front-end engineering, including functional design, system integration, and support during FEED and project execution to ensure performance and design compliance. The successful candidate will play a central role in detailed process and systems engineering, driving functional design development and advancing system integration while shaping project definition and execution to enable cost-effective, scalable deployment across multiple product platforms and applications, including decarbonized power solutions for gigawatt-scale data centers. Impact This role will be instrumental in establishing Bloom Energy’s internal capability to own and scale critical technologies, enabling cost reduction, improved performance, and accelerating deployment of next-generation energy systems. Key Responsibilities Process Technology Concept Development & Functional Design Lead and/or support the development of functional designs for key process systems. Translate high-level system requirements into well-defined process architecture, design bases, and performance specifications. Develop and own Design Basis Memoranda, process descriptions, mass and energy balances, and interface definitions across process subsystems. Support project development efforts, including early-stage concept definition, feasibility assessments, and techno-economic evaluations. Drive technology down-selection and concept maturation, ensuring robust integration across subsystem interfaces while balancing performance, cost, operability, and scalability. Serve as the integration lead for complex, multi-system projects, ensuring that all process subsystems function as a cohesive, optimized plant-level system. FEED, Project Development, & External Interfacing Serve as a technical lead or key contributor during FEED activities. Develop and/or support FEED scopes of work, engineering deliverables, and execution strategies. Ensure completeness, technical rigor, and consistency of FEED deliverables, including alignment with downstream execution, operability, and performance requirements. Interface with internal technology, engineering, EH&S, and project execution teams to define requirements, manage subsystem interfaces, and ensure alignment across design and execution. Act as the primary technical interface with third-party technology providers, licensors, EPC firms, and Owner’s Engineer organizations, providing technical oversight and ensuring delivery of high-quality, fit-for-purpose solutions aligned with Bloom’s system architecture, requirements, and standards. Make high-quality engineering decisions under uncertainty, balancing incomplete data, competing project constraints, and evolving requirements. Act as the technical owner for assigned projects, accountable for the integrity, integration, and performance of the process design. Technology Commercialization & Standardization Support the integration and deployment of process technologies into commercial projects, ensuring performance, reliability, and cost targets are met. Drive standardization and modularization of process system designs to enable repeatable, scalable deployment. Ensure cross-disciplinary integration and manage critical interfaces, technical risks, and design gaps across systems and stakeholders. Capture lessons learned from project execution and translate them into continuous improvement of process and system designs. Qualifications & Experience Required Bachelor’s or advanced degree in Chemical Engineering (or a closely related field). 10+ years of experience in process engineering, project engineering, or technology development, ideally within: Chemical manufacturing Oil & gas / energy Industrial gases Power generation or related sectors Hands-on experience developing functional design documentation, including FEED and/or equipment RFPs Experience developing, reviewing, and approving key engineering deliverables, including: Process Flow Diagrams (PFDs) Piping & Instrumentation Diagrams (P&IDs) Equipment specifications and datasheets System integration documentation (e.g., battery limits, interface definitions) Control narratives and system philosophies Electrical one-line diagrams (as required for system integration) Experience with process safety analyses (e.g., HAZOP, PHA); experience leading HAZOPs/PHAs is a plus. Supported or led FEED activities. Experience working with third-party engineering firms and/or EPC contractors, including: During FEED and/or detailed design In a client, partner, or Owner’s Engineer role Strong understanding of process safety, environmental, and regulatory requirements. Preferred Direct experience with CO₂ capture technologies Familiarity with industrial utility systems such as cooling water, condensate, and gas processing Experience working in project development environments, including early-stage concept definition and techno-economic evaluation Exposure to the full lifecycle of chemical process projects, from concept development through commissioning and startup Experience leading or contributing to securing air and construction permits for greenfield or brownfield projects Proficiency with process simulation tools such as Aspen Plus or UniSim. Strong ability to navigate ambiguity and drive clarity in complex, evolving project environments Proven capability to coordinate across internal teams and external partners to deliver multi-disciplinary projects Excellent communication and stakeholder management skills, with the ability to engage both technical and non-technical audiences Bloom Energy is an equal opportunity employer and makes employment decisions on the basis of merit. We are committed to compliance with all applicable laws providing equal employment opportunities. All qualified applicants, will receive consideration for employment without regard to race, sex, color, religion, national origin, protected veteran status, or on the basis of disability. Bloom Energy makes reasonable accommodations, consistent with applicable laws, for the known physical or mental limitations of an otherwise qualified applicant or employee with a disability, who can perform the essential job functions, unless undue hardship would result. Bloom Energy is committed to fair and equitable compensation practices. The total compensation for this position includes standard company benefits and is based on various factors including, but not limited to, relevant skills and experience. #LI-BC1 Salary Ranges: $176,300.00 - $253,700.00 We are aware there are instances where individuals are receiving job offers that fraudulently allege to be from Bloom Energy or one of our business units. This type of fraud can be carried out through false websites, or through fake e-mails claiming to be from the company or social media. We never ask for personal information such as your bank account, Social Security numbers or National ID’s, via social media or chat-based applications, nor do we send or request payments for the purchase of business related equipment. If you suspect fraud, please report it to your local authorities immediately. Bloom Energy's mission is to make clean, reliable energy affordable for everyone in the world. With roots in NASA’s Mars Program, the company’s founder, chairman, and Chief Executive Officer, Dr. K.R. Sridhar, developed an innovative fuel cell technology that is shifting the energy paradigm and redefining the electric power market. The Bloom Energy Server is a distributed electric power solution built for the digital age and capable of delivering highly reliable, uninterrupted, 24x7 constant power that is also clean and sustainable. Bloom’s unique on-site power generation systems are among the most efficient on the planet, providing significantly reduced operating costs and producing dramatically lower greenhouse gas emissions. By generating power where it is consumed, Bloom Energy offers increased electrical reliability and improved energy security, providing a clear path to energy independence. Some of the largest companies in the world trust Bloom Energy to provide their businesses with clean, reliable and resilient energy. Bloom’s customers include many Fortune 100 companies and leaders in manufacturing, data centers, healthcare, retail, higher education, utilities, and other industries. The company, headquartered in San Jose, California, is growing quickly and looking to add to its dynamic team. Stay up to date with Bloom Energy through our social channels.
