Please enter search keywords!
Hy-NEXUSDC3
300kW Natural Gas Reforming Fuel Cell Data Center Power Supply System
Engineered for maximum versatility, Hy-NEXUSDC utilizes a modular "building-block" approach for natural gas and hydrogen power generation. By leveraging the standardized 300kW base module, the system can be arrayed to reach multi-megawatt scales with seamless integration. There is no technical ceiling to the maximum deployment size, making it an ideal choice for utility-scale power projects. Hy-NEXUSDC delivers a robust, highly adaptable solution that bridges the gap between decentralized modules and massive industrial energy hubs.

Downloads

Hy-NEXUSDC3

Principle

Product Principle

The core principle of Hy-NEXUSDC is based on a topological architecture of "atomic units" and "clustered matrices," designed to create a highly scalable industrial-grade hydrogen-to-power hub. The system utilizes high-power 300kW fuel cell modules as foundational energy units, which are rapidly paralleled via standardized physical and electrical interfaces to form a scale-adjustable power cluster.

The essence of its operational logic lies in multi-level parallel dispatching: in large-scale power applications, the central control system dynamically adjusts the number of operating modules based on load fluctuations, ensuring the system consistently operates within its optimal efficiency range. This "modular paralleling" principle breaks the rigid constraints of traditional large-scale power equipment, enabling the installed capacity to technically expand infinitely to the multi-megawatt (MW) level. Through this flexible deployment method, Hy-NEXUSDC provides users with a highly redundant and robust energy foundation, offering scale-adjustable, zero-emission clean power for both baseload and peak compensation requirements.

作为一套完全独立的“能源微网”,CarNeu-Prex 利用预制化集装箱作为载体,将复杂的氢电工程简化为即插即用的模块。其工作原理确保了在完全脱离公共电网的环境下,依然能为科研、教学或野外工程提供连续、静默且零排放的高质量电力保障。


Advantages

Product Advantages
  • Atomized Unit Matrix Architecture
    Atomized Unit Matrix Architecture
  • MW-Scale Unlimited Capacity Expansion
    MW-Scale Unlimited Capacity Expansion
  • Multi-Stage Parallel Optimal Efficiency Dispatching
    Multi-Stage Parallel Optimal Efficiency Dispatching
  • Industrial-Grade Robustness and Redundancy
    Industrial-Grade Robustness and Redundancy
  • Dynamic Regulation with Scalable Power Output
    Dynamic Regulation with Scalable Power Output

Application

Application
Data Center Power Supply Applications
To address diverse architectural requirements, we deploy two distinct technical frameworks designed to enhance mission-critical reliability:

Learn More

Data Center Power Supply Applications

Specifications

Product Specifications
Technical Type
Hydrogen Production from Natural Gas Natural gas steam reforming + PAS
Fuel Cell Power Generation PEM
Output
Net Power Output (AC) 300 kW
Electrical Connection 13.5 kW, 3-phase, 50/60 HZ
Input
Natural Gas 81 Nm3/h
Water 0.15 t/h 
Physical Dimensions
System Floor Area N/a
Reforming Module Dimensions N/a
PSA Module Dimensions N/a
Utility Support Module Dimensions N/a
FC Generator Module Dimensions N/a
Operating Conditions
Ambient Temperature -25℃ ~ 45℃
Ambient Humidity 0%  ~ 100%
Installation Method Outdoor
Running Time ≥8400h (per year)
Reforming Module Parameters
Hydrogen Output 200 Nm3/h
Hydrogen Outlet Pressure 1.5 MPa G
Hydrogen Production Rate 2.35
Natural Gas Inlet Pressure 2.5 MPa
FC Generator Module Parameters
Fuel Cell Type PEM
Rated System Output 300 kW
Rated Voltage 13.5 kV 3-Phase 50/60 HZ
Number of Fuel Cell Modules 3
Rated Output Power of Single Module 107.2 kW
Fuel Cell  Power Generation Efficiency 50 %
Hydrogen Consumption 200 Nm3/h
Implementation Standard
Hydrogen Quality Standard ISO14687
Pressure Vessel ASM "Boiler and Pressure Vessel Code"
Electrical System The design and installation comply with NFPA 70 / NEC standards, covering the division of explosion-proof areas and requirements for equipment selection.
The classification of explosion-proof areas in hydrogen environments is implemented in accordance with NFPA 497.
All electrical products have obtained UL certification.
Piping System  The design and construction of process pipelines shall comply with ASME B31.3;
The hydrogen pipeline specific project shall comply with the ASME B31.12 standard.
Safety Protection护 Implement the relevant safety regulations in NFPA 2 "Hydrogen Technologies Code".
Fuel Cell Implementation standard: IEC 62282-3-100 Stationary Fuel Cell Power Generation - Safety

Online

Online message
Name: *
Your Role *
Product of Interest *
Phone/Whatsapp: *
Email: *
Country/Address:
Company Name:*
Message Details

Copyright © 2026 Jiangsu HuaDe Hydrogen Energy Technology Co., Ltd. All Rights Reserved. Powered by Bomin

Sitemap | Legal Statement | Privacy Policy |