Accelerate Your Cleantech Product Development
I help US-based fuel cell companies and research labs design manufacturing-ready SOFC systems—reducing prototype iterations by 40-60% and delivering publication-grade models in 7-14 days.
Specialized in: Solid Oxide Fuel Cells | Hybrid Energy Systems | Automotive Assemblies | MATLAB Simulation | DFM Analysis
Aerospace Research Program — Structural analysis-ready CAD model that enabled 30% faster iteration cycles and first-pass manufacturing approval.
Patent-ready drafting with GD&T-compliant tolerancing—delivered manufacturing documentation that passed legal and production review without revision.
Manufacturing-aware interface design with tolerance stack analysis—optimized for CNC production and assembly without costly iterations.
System-level CAD with kinematic validation—supported rapid prototyping timeline with production-ready assembly structure and BOM.
CFD-validated flow model supporting grant-funded fuel cell efficiency research—publication-ready deliverables meeting NSF technical requirements.
Specialized fuel cell and automotive design support for US cleantech startups and research labs—from SOFC system modeling to manufacturing-ready documentation.
SOFC specialist | MATLAB integration | Research-grade deliverables
Deliverables: 3D CAD models, MATLAB simulation files, performance analysis reports, technical documentation
Starting at $1,800 | 10-14 business days
Manufacturing-ready assemblies | DFM optimization
Deliverables: STEP files, 2D drawings (ASME/ISO), BOM, assembly documentation
Starting at $1,200 | 7-10 business days
3D design | Assembly modeling | System-level layout
Deliverables: STEP, native CAD files, assembly structure, BOM, PDF drawings
Starting at $800 | 5-7 business days
Optimization | Reverse engineering | Design validation
Deliverables: Optimized CAD models, comparison reports, STEP/STL files, IP-safe drawings
Starting at $1,500 | 7-12 business days
Monthly retainers available: $2,000/month (20 hours) or $3,500/month (40 hours) for ongoing cleantech product development support.
Every project follows a structured approach ensuring predictable timelines and manufacturing-ready deliverables.
Technical requirements gathering, performance parameter definition, and DFM feasibility assessment.
Parametric CAD development, MATLAB simulation integration, and iterative design optimization.
Manufacturing documentation, quality review and validation, file handoff with technical support.
I am a Fuel Cell and Automotive CAD Specialist providing remote engineering design support to US-based cleantech startups and research labs. With 6+ years of industry experience across automotive and aerospace programs, I help early-stage and growth-stage companies translate concepts into manufacturing-ready designs with speed and technical rigor.
Since 2023, I've specialized in supporting US-based cleantech startups, fuel cell companies, and university research labs. My work focuses on SOFC system modeling, automotive component design, and research-grade technical deliverables for DOE/NSF-funded programs. I combine academic research rigor with manufacturing awareness to deliver designs that support both investor presentations and production planning.
My technical focus areas include 3D CAD part and assembly design, SOFC stack modeling, MATLAB-integrated performance simulation, production-ready 2D drawings, GD&T application, and Design for Manufacturing (DFM). I approach each project with a strong emphasis on tolerance control, functional intent, and downstream manufacturability, ensuring designs are ready for CNC machining and assembly without costly iteration.
Having worked in structured engineering environments within both automotive (RNTBCI) and aerospace (SpaceZone Aerospace Pvt Ltd), I bring a disciplined, standards-driven approach while remaining flexible to the fast pace of startup development. This combination allows me to support rapid prototyping, design refinement, and transition to production with minimal friction.
My clients include Series A-C cleantech startups developing hydrogen/fuel cell technology, university research labs with DOE/NSF-funded programs, automotive suppliers requiring overflow design support, and aerospace contractors needing manufacturing-ready documentation. My engagement style prioritizes clear scope definition, predictable timelines, and direct communication, enabling teams to move quickly and confidently.
I work best with startups that value engineering clarity, precision, and accountability, and I am available for project-based engagements, short-term design support, and ongoing retainers.
Yes, 100% of my current work is remote with US cleantech startups and research labs. I work US Eastern/Pacific hours for real-time collaboration and maintain predictable communication schedules.
STEP, IGES, native Fusion 360 files, PDF drawings (ASME/ISO compliant), MATLAB .m files, and technical documentation in Word/PDF format. All deliverables are production-ready and compatible with standard manufacturing workflows.
Absolutely. I've supported DOE/NSF-funded programs and understand grant deliverable requirements, publication timelines, and technical documentation standards required for peer-reviewed research.
7-14 business days for most packages depending on complexity. Rush delivery available for urgent investor deadlines or grant submission timelines.
Yes, standard practice for all client engagements. IP ownership transfers upon full payment, and all project files remain confidential.
For US Cleantech Startups & Research Labs
Book a free 15-minute technical consultation to discuss your SOFC modeling or automotive CAD project requirements.
First 3 US clients receive $500 off Fuel Cell Component Design Package
Regular: $1,800 → Introductory: $1,300
Offer expires: June 30, 2026
(Calendly link coming soon)
Typical response time: within 24 hours.