Tracking Green Hydrogen Projects: Eps Energy Wins Bid for Integrated EPC Project of European Hydrogen Corridor | 4 Major Technological Highlights and 1 Key Period

Recently, Yipusi Energy successfully won the bid for the EPC turnkey project of the wind and solar power–hydrogen production–ESS integrated system at a key period of the European Hydrogen Corridor. This showcases the company's strength in systems engineering in the European hydrogen market and highlights the engineering competitiveness of Chinese enterprises in this field.

Located at the core of the European Hydrogen Corridor and targeting real-world application scenarios, the project imposes extremely high requirements on system stability, technological synergy, and engineering executability. It represents a comprehensive energy systems engineering practice with industry-wide significance and serves as an all-around test of the enterprise's project delivery capabilities.

Highlight 1: From "Single-Point Equipment" to "Systems Engineering"

Departing from the single-technology approach of traditional new energy projects, this project centers on "system synergy" to achieve multi-link coordination: coordinated configuration of wind and solar power on the renewable energy side, parallel operation of multiple electrolysis water hydrogen production systems on the conversion side, multi-form storage of electrical and hydrogen energy on the energy storage side, and unified dispatch optimization via the EMS on the management and control side. In the complex scenario of the European Hydrogen Corridor, system stability and controllability take precedence over individual performance indicators.

Highlight 2: Anchoring Key Periods, Facing HighStandardsand Challenges

The positioning as a "key period in the European Hydrogen Corridor" requires the project to adapt to cross-regional hydrogen networks, accommodate both grid-connected and off-grid operations, and handle load fluctuations, placing extreme demands on system redundancy, response speed, and reliability. The core value of the project lies in validating the operability of technology combinations under real operating conditions, providing a reference for the large-scale construction of the European Hydrogen Corridor.

Highlight 3: Parallel Multi-Technology Pathways, Screeningfor the Optimal Solution

The project adopts a parallel multi-path strategy in hydrogen production and storage, avoiding premature commitment to a single technology. On the hydrogen production side, AEM and PEM electrolysis systems are deployed; on the hydrogen storage side, high-pressure gaseous and organic liquid storage technologies are combined. Long-term operational data will be used to compare the performance of different pathways, accumulating engineering evidence for large-scale application.

Highlight 4: Delving into the Essence of EPC, Solving Delivery Challenges

As the EPC turnkey contractor, Yipusi Energy is not only responsible for equipment integration but also undertakes core tasks such as system architecture design, multi-energy coupling, operational strategy formulation, and risk control. This demonstrates its core EPC capability to "ensure efficient system synergy and long-term stable operation."