Shuntian Equipment: The 4th Hydrogen Energy and Fuel Cell Industry Exhibition Awaits Your Visit

To actively and steadily advance carbon peaking and carbon neutrality, cultivate emerging and future industries, accelerate the formation of new productive forces, enhance new momentum for green development, support the planning and construction of a new energy system, and establish an international exhibition platform for the hydrogen energy industry, the 4th Hydrogen Energy & Fuel Cells Expo China (abbreviated as “Hydrogen Expo China”) is jointly organized by the China Hydrogen Energy Alliance and the China Electricity Council, The 4th Hydrogen Energy & Fuel Cells Expo China (CHEE), co-hosted by the Construction Industry Branch of the China Council for the Promotion of International Trade and organized by Beijing Taiger Exhibition Co., Ltd., will be held at the China National Convention Center in Beijing from March 26 to 28, 2025.

Under the theme “Innovate for Green, Co-create for Win-Win,” the exhibition will showcase the entire hydrogen energy industry chain—covering production, storage, transmission, transportation, refueling, and application. Over 400 enterprises are expected to present more than 1,000 new technologies, products, and application scenarios at the event.

Guangzhou Shuntian Equipment Introduction

Shuntian Equipment was established on December 27, 2019, with its headquarters located at No. 59 Dongpeng Avenue, Huangpu District, Guangzhou. The company operates a manufacturing base in Dalian and maintains subsidiaries in Beijing, Shanghai, and Xi'an.

The company specializes in the R&D, production, and sales of new energy equipment such as hydrogen fuel cell production lines, PEM water electrolysis hydrogen production lines, and vanadium flow battery production lines, as well as the manufacturing of high-end equipment including diffusion welding equipment, hot forming machines, and superplastic forming machines.

As global emphasis on clean energy and sustainable development intensifies, the new energy industry faces unprecedented growth opportunities. As a leader in new energy and intelligent manufacturing equipment, Shuntian Equipment will continue to uphold its philosophy of innovation, pragmatism, and efficiency. The company will consistently deliver high-quality, high-performance products and services, providing comprehensive and professional solutions for global clients. Concurrently, Shuntian Equipment will strengthen collaboration and exchange with renowned domestic and international enterprises and research institutions to jointly advance the development and progress of the new energy industry.

Servo-Controlled Hot/Cold Press Forming Machine

Applications: Suitable for hot pressing and cold forming processes of CCM membrane electrodes, MEA membrane electrodes, DGR gas diffusion layers, CCS aerogels, automotive membranes, flow battery bipolar plates, and composite materials.

Stack Assembly Servo Press

Application: Designed for pressing metal or graphite bipolar plate stacks, utilizing inclined stacking with center-of-gravity positioning for uniform stacking. Features selectable pressure or height modes, records pressing parameters, outputs pressure curves, and enables programmable control of the pressing process. Equipped with a barcode scanner for intelligent, information-driven production.

The semi-automatic stacking machine performs stack assembly, pressing, and leak testing for electrolytic cells and flow batteries. It serves as a large-scale, high-tonnage semi-automatic pressing solution. Material loading/unloading and stacking of stack end plates, current collector plates, and bipolar plates are manually completed. A high-precision servo-hydraulic press ensures accurate pressing force. Manual locking bolts are employed, and external leakage and series leakage tests are conducted using the differential pressure method. It supports two control modes for stack assembly, pressing, and online leak testing of electrolytic cells and flow battery stacks: pressure mode as primary, position mode as auxiliary, working in tandem to ensure product safety. The servo-hydraulic closed-loop control system precisely regulates system pressure, stores historical data, and enables parameter traceability.

Servo Hot Pressing Machine

Applications: CCM membrane electrode assembly thermal lamination, MEA membrane electrode assembly thermal lamination, DGR gas diffusion layer hot pressing, CCS aerogel thermal lamination, automotive membrane thermal lamination, flow battery bipolar plate thermal lamination, composite material hot pressing molding, carbon fiber, glass fiber, modified epoxy sheet/ABS/PP/PA thermoplastic composite molding, VR/AR smart hardware and wearable devices.

Seven-in-One Membrane Electrode Assembly Packaging Line

Application Areas: Cutting materials for hydrogen fuel cells including 3CCM, frames, GDL, and 7CCM; initial screening, cutting, and sheet separation of carbon felt for flow batteries; thickness and weight inspection. Membrane cutting and inspection equipment performs roll-to-roll membrane straightening, feeding, cutting, and air permeability testing. Production data is recorded with traceable information.

Stack Assembly Servo-Hydraulic Press

Application: Designed for pressing metal bipolar plate or graphite bipolar plate stacks. Features inclined stacking, center-of-gravity positioning, and uniform stack alignment. Offers selectable pressure or height control modes, records pressing parameters, outputs pressure curves, and enables programmable process control. Equipped with a barcode scanner for smart, information-driven production.

The semi-automatic stacking machine performs stack assembly, pressing, and leak testing for electrolytic cells and flow batteries. It serves as a large-scale, high-tonnage semi-automatic pressing solution. Material loading/unloading and stacking of stack end plates, current collector plates, and bipolar plates are manually completed. A high-precision servo hydraulic press ensures accurate pressing force. Manual locking bolts are employed, and external leakage and series leakage tests are conducted using the differential pressure method. It supports two control modes for stack assembly, pressing, and online leak testing of electrolytic cells and flow battery stacks: pressure mode as primary, position mode as auxiliary, working in tandem to ensure product safety. The servo-hydraulic closed-loop control system precisely regulates system pressure, stores historical data, and enables parameter traceability.