On May 24th, the grand event of the photovoltaic industry - the 16th (2023) International Solar Photovoltaics and Smart Energy (Shanghai) Conference and Exhibition (hereinafter referred to as "SNEC2023") was grandly opened at the Shanghai New International Expo Center. As one of the most influential international, professional, and large-scale photovoltaic events in China, Asia, and even the world, SNEC2023 brings together photovoltaic industry leaders and professional institutions from both domestic and international sources to discuss photovoltaic technology, industry development, and future trends. As a leader in green energy, Jiangsu Tianhe Yuan Hydrogen Technology Co., Ltd. (hereinafter referred to as Tianhe Yuan Hydrogen) participated in the exhibition with the Tianqing series.

Climate change is a major global challenge facing humanity today. Against the backdrop of the country's vigorous development of a low-carbon and green economy, photovoltaic technology has entered a new stage of development in terms of technology, cost, and business models, and the trend of cross-border integration of the photovoltaic industry is becoming increasingly evident. As a carrier of zero carbon energy and clean energy storage, "photovoltaic+hydrogen" is a typical path for cross-border integration of photovoltaic, creating new application scenarios and broad market demand for the photovoltaic industry.

In the upstream of the hydrogen energy industry chain, the efficient production of green hydrogen has always been of great concern. The Tianqing series exhibited by Tianhe Yuanhydrogen this time covers alkaline electrolytic water hydrogen production equipment, transformers, rectifier cabinets, low-voltage distribution systems, electrolytic gas-liquid processors, hydrogen purification devices, and other auxiliary equipment, which are characterized by high efficiency, green, and environmental protection. By comprehensively optimizing product performance, increasing hydrogen energy output, and reducing unit hydrogen production cost (LCOH).

Tianqing Series Alkaline Electrolytic Water Hydrogen Production System

The electrolytic cell has applied a new type of cathode and anode material coating, which is a year-on-year decrease of 0.3 kWh/m compared to the past without increasing material costs ³ Hydrogen, while redesigning the internal flow field, resulting in a year-on-year decrease of 0.1kWh/m in energy consumption ³ Hydrogen can effectively meet the needs of project condition regulation and enhance the value of energy conservation and emission reduction. A wide load range of 25-120% can better adapt to the volatility of renewable energy such as photovoltaic, further improve the efficiency and stability of hydrogen production, and carry out large-scale hydrogen production. Maintain consistency in product quality through standardized production, ensuring a service life of up to 20 years.

Tianhe Yuan Hydrogen has deeply considered the medium characteristics of water electrolysis hydrogen production and the convenience of customer later use and maintenance. With high-level professional knowledge and experience, it provides comprehensive design, equipment selection, manufacturing, supply, and after-sales service to ensure the excellent quality, safety, reliability, and service life of the equipment, and ensure the long-term stable and normal operation of the system. The Tianqing series adopts a decentralized control system (DCS), safety instrument system (SIS), and combustible gas detection and alarm system (GDS), which can achieve real-time monitoring and automated control of the production process, setting a safe and efficient production benchmark model for the entire industry, and has significant technological innovation and industry value.

SNEC2023 further consolidates China's clean energy innovation forces and jointly explores the future of the clean energy industry through industrial integration. Industry insiders point out that in the context of global energy structure transformation and dual carbon strategy goals, the entire energy structure system is shifting towards a deep coupling direction of electricity and hydrogen. Renewable electricity and green hydrogen complement and promote each other. The advancement of renewable energy technology and the reduction of electricity costs are necessary prerequisites for the development of green hydrogen. The large-scale development of hydrogen energy is also a very important means to promote the installation and consumption of renewable energy. The two complement and promote each other, and renewable electricity and green hydrogen will achieve deep coupling in the future. At present, the technology of photovoltaic hydrogen production has made breakthroughs, using renewable energy such as photovoltaic to directly produce hydrogen, and its cost continues to decrease.

This time, Tianhe Yuanhydrogen can showcase its technology and solutions, engage in in-depth exchanges and cooperation with peers, experts, scholars, and industry associations, popularize hydrogen related knowledge, share experiences, showcase achievements, and seek more cooperation opportunities and technological innovation. This will help empower clean energy enterprises, stimulate innovative vitality in photovoltaic and hydrogen cooperation, and achieve flexible conversion between photovoltaic "green electricity" and "green hydrogen", It effectively solves the problem of randomness and strong seasonal fluctuations in photovoltaic power generation, providing broad space for the production of green hydrogen by combining photovoltaic green electricity, and injecting strong impetus into the ecological prosperity of the clean energy industry.

As a leading technology enterprise, Tianhe Yuanhydrogen will be committed to promoting green energy transformation and sustainable development, and continue to increase research and development investment in the hydrogen energy field. Further optimize the design of alkaline electrolysis cells, improve hydrogen production efficiency and energy utilization, explore innovative combinations of hydrogen energy and photovoltaic, promote the widespread application of hydrogen energy technology in transportation, energy storage, and industrial production, and make important contributions to building a low-carbon and environmentally friendly future energy system.