Hydrogen Production Skid
Project Overview
Engineering Design Services developed a skid-mounted hydrogen production system utilizing Polymer Electrolyte Membrane (PEM) electrolysis technology. The project included turnkey support throughout the design, engineering, and construction phases to deliver a fully integrated hydrogen generation solution. The completed system required only city water and electricity to produce ultra-pure hydrogen, providing a compact and flexible solution for renewable energy and industrial applications.
Result & Impact
• Successfully completed the project with zero change orders over the course of one year
• Delivered a compact and scalable hydrogen production solution
• Enabled simplified transportation, installation, and integration across multiple environments
• Produced ultra-pure hydrogen using only water and electricity inputs
• Demonstrated the flexibility of modular hydrogen systems for diverse industrial applications
• Supported renewable energy and emerging hydrogen infrastructure initiatives
Engineering Tools & Technologies
• Polymer Electrolyte Membrane (PEM) electrolysis technology
• Skid-mounted modular system design
• Hydrogen generation and purification systems
• Industrial process engineering
• Electrical and utility integration
• Mechanical system design and equipment integration
• Industrial fabrication and construction coordination
Scope
• Design and engineering of a skid-mounted hydrogen production system
• Integration of PEM electrolysis technology
• Turnkey project support from concept through construction
• System layout, equipment integration, and utility coordination
• Modular skid design for transport and installation efficiency
• Coordination of fabrication and construction activities
• Development of a fully operational hydrogen generation solution
Solution
Engineering Design Services delivered a modular hydrogen production skid designed for efficient hydrogen generation using PEM electrolysis. The system was engineered as a compact, self-contained unit capable of being transported and integrated into multiple operating environments with minimal onsite requirements. EDS provided end-to-end engineering and project support, ensuring the final system achieved operational performance, scalability, and ease of deployment while supporting the growing demand for renewable energy technologies.
