Recently, Trina Green Hydrogen and Spain's leading engineering company PROES (Amper Group) signed a strategic cooperation agreement in Madrid. Both sides will complement each other's strengths, accelerate the research and development of green hydrogen technology and project implementation, and jointly promote the global strategic layout in renewable energy projects. This is a milestone collaboration that reflects the commitment of the two companies to sustainable development and makes a positive contribution to achieving global energy transformation.

In recent years, with the mature development of hydrogen utilization technology and the increasing pressure to cope with climate change, hydrogen energy has attracted worldwide attention. Hydrogen energy has been included in China's energy strategy and has become a strategic choice for optimizing energy consumption structure and ensuring national energy supply security. Meanwhile, with the continuous innovation of technology and the continuous improvement of the hydrogen energy industry chain, excellent enterprises in the industry have provided strong support for cost reduction and efficiency improvement. Tianhe Yuan Hydrogen's business covers four major areas: hydrogen production equipment, hydrogen production systems, mobile hydrogen production stations, and industry solutions, providing customers with comprehensive hydrogen solutions.

According to the agreement,  Trina Green Hydrogenand PROES will collaborate closely in multiple key areas to promote the application of green hydrogen projects. These fields include technology development, transportation, and industry, and the specific cooperation content is as follows:

1. Technical development: Both parties will jointly develop targeted electrolysis water hydrogen production equipment and system solutions based on renewable energy electrolysis water. Covering scenarios of seawater hydrogen production, distributed and large-scale off grid hydrogen production.

2. Optimizing transportation systems: The cooperation between Trina Green Hydrogen and PROES will also expand to public and private transportation systems, and both parties will work together to promote the development of green hydrogen energy projects, especially in the field of sustainable transportation, implementing solutions that use hydrogen as a clean energy source, and exploring the potential application of hydrogen energy in aviation and shipping.

3. Changing industrial production: Both sides will focus on improving energy efficiency and reducing carbon emissions in the industrial sector. By introducing and implementing clean energy solutions, both parties will jointly explore how to optimize energy use, reduce dependence on fossil fuels, integrate hydrogen technology into manufacturing processes and power generation, and promote the green transformation of industrial production.

Luo Wenlong, General Manager of Trina Green Hydrogen International, stated that the cooperation between Tianhe Hydrogen and PROES has a broader international perspective and strategic planning. By exploring cooperation opportunities in Europe and South America, particularly in countries such as the UK, Spain, Colombia, Peru, Bolivia, and Brazil, both sides aim to further expand the application scope and market influence of hydrogen energy technology. The professional knowledge and rich experience of PROES in the design and optimization of renewable energy facilities, as well as the successful development of multiple green hydrogen projects worldwide, provide a solid foundation for cooperation between the two parties in the aforementioned countries.

Ignacio Sanchidrian Vidal, General Manager of PROES, said, "Through this collaboration, PROES and Trina Solar Hydrogen will be able to combine their respective strengths to jointly solve technical and management challenges that may be encountered when carrying out projects in different countries and regions, jointly promote the progress and application of renewable energy hydrogen production technology, and better adapt to and meet the needs of different markets."

The successful signing of this cooperation signifies that the cooperation between Trina Green Hydrogen and PROES is an important step towards a more sustainable and cleaner future, bringing new development opportunities to both companies. Hydrogen, as a clean energy source, will play a crucial role in promoting transportation transformation and achieving greener and more efficient energy use. This cooperation will not only help promote the development and application of hydrogen energy technology, but also make important contributions to achieving a low-carbon economy and environmental protection. This cooperation is a positive exploration of the future energy and transportation sectors, heralding a greener and more sustainable future.

Amper Group: a Spanish conglomerate with over 60 years of history, holds an important position internationally and is a leader in technology, strategic industry, and engineering capabilities in defense and security, energy and sustainable development, and telecommunications markets. PROES, as its subsidiary, is one of the major consulting firms in the civil engineering, civil engineering, transportation, and energy engineering markets. Its headquarters are located in Madrid and it has branches and/or subsidiaries in the United Kingdom, Colombia, Peru, Bolivia, the United States, and Brazil. Provide engineering services for the three major business lines of the Amper Group (defense&security, Energy&Sustainability, Telecommunications), particularly those related to energy and sustainable development.

Trina Green Hydrogen: Committed to becoming a leading global provider of hydrogen production equipment and smart energy system solutions, the Tianqing series alkaline electrolysis water products have a specification of~2000Nm ³/h; It can achieve safe and reliable operation within the load range of 30% to 110%, and relying on independently developed optical hydrogen storage system solutions, it can meet the project requirements of high proportion coupling hydrogen production from renewable energy.