Core Technologies

Core Technologies

Electrolyzer Stack
and System Integration
Technologies for Diverse Hydrogen Applications

U-Hydrogen builds its hydrogen applications on PEM/AEM electrolysis, PEM stack design, modular integration, gas-liquid management, control systems, high-purity hydrogen output, and testing validation capabilities.

Technology Positioning

U-Hydrogen’s core value lies in integrated stack, module, and system design

The stability of hydrogen products does not depend on a single component alone. It depends on the integration of electrolyzer stacks, MEAs, flow paths, water supply, gas-liquid separation, thermal management, control logic, and real application conditions.

This technology page explains how U-Hydrogen connects materials, PEM stack modules, control systems, testing platforms, and customer-side applications into practical hydrogen products and solutions.

Technology Modules

Six technology modules supporting products and solutions

The following modules support hydrogen wellness products, industrial on-site hydrogen systems, R&D testing platforms, and OEM/ODM cooperation. Certification documents, test reports, and technical documents can be added later as supporting evidence.

01 / Electrolysis

PEM / AEM
Electrolysis

Technology evaluation for hydrogen generation through water electrolysis, including operating conditions, material selection, and application requirements.

  • PEM electrolysis applications
  • AEM development and testing
  • Performance evaluation under different conditions
02 / PEM Stack

PEM Stack
Design

Stack and module design support for hydrogen wellness products, OEM/ODM modules, and small to mid-scale hydrogen generation systems.

  • Stack structure and flow path design
  • MEA and component integration
  • Modular configuration and production adoption
03 / Purity

High-Purity
Hydrogen Output

System planning for high-purity hydrogen output, gas-liquid separation, drying, and post-treatment conditions based on the application requirement.

  • High-purity hydrogen applications
  • Gas-liquid separation and drying
  • Purity and stability validation support
04 / Gas-Liquid

Gas-Liquid
and Water Management

Water electrolysis systems require reliable water supply, drainage, gas-liquid separation, and safety configuration for stable operation.

  • Water supply and drainage design
  • Gas-liquid separation and backflow prevention
  • System safety condition confirmation
05 / Control

Control System
and Protection Logic

Monitoring voltage, current, temperature, pressure, water level, and operating state helps maintain controlled and safe system operation.

  • Operating condition monitoring
  • Abnormal protection and shutdown logic
  • Product-side and system-side integration
06 / Validation

Testing Validation
and Application Adoption

Testing support for materials, stacks, modules, and systems helps R&D teams and customers verify performance, stability, and adoption conditions.

  • Performance curve and stability testing
  • Customized testing platform planning
  • Preparation for third-party validation
Integration Capability

From a single stack to complete product and system integration

Customer needs may range from PEM stack modules and hydrogen wellness products to industrial on-site hydrogen systems and R&D testing platforms. U-Hydrogen’s technology platform translates stack technologies into usable, verifiable, and customizable hydrogen solutions.

This integration capability helps brand customers, industrial users, and R&D teams shorten the product development and adoption process.

PEM Stack AEM Development Gas-Liquid Management System Control Testing Platform OEM / ODM
CORE
TECHNOLOGIES
Application Support

Core technologies supporting four product and cooperation scenarios

The purpose of the technology page is not just to display R&D capability, but to show how these technologies are converted into products, systems, and cooperation models.

Hydrogen Wellness Products

Support for hydrogen inhalation, hydrogen water systems, dual-use products, and brand customization.

Industrial On-Site Hydrogen

System configuration based on flow rate, purity, pressure, space, water supply, and power conditions.

R&D Testing Platform

Testing support for PEM/AEM stacks, materials, MEAs, modules, and system-level validation.

OEM/ODM Cooperation

Support for joint product development, module supply, customized integration, and production adoption.

Technology Flow

Evaluation flow from technical conditions to product adoption

Before technical cooperation, it is important to confirm application scenarios, target output, operating conditions, size limitations, validation needs, and cooperation depth.

Step 01 Application Review Confirm product or system purpose, hydrogen demand, usage environment, and target market.
Step 02 Technical Evaluation Evaluate PEM stack configuration, control, water path, gas-liquid management, and system architecture.
Step 03 Testing & Validation Confirm performance, stability, purity, or customized conditions according to the project needs.
Step 04 Adoption & Cooperation Proceed to samples, system integration, product development, or OEM/ODM cooperation.

Want to understand U-Hydrogen’s electrolyzer stack and system integration capabilities?

Share your product needs, technical conditions, testing goals, or cooperation direction. We can help evaluate a suitable technology adoption model.

Discuss Technical Cooperation