中文 日本語

Jinergy Took Advantage of HJT Technology to Promote High-quality Development of Energy Industry

On January 16, the Photovoltaic Top Runner Bases and Grid Parity (Low Price) Project Development Seminar organized by China Photovoltaic Industry Association was held in Beijing. Gaofei LI, technology director of Jinergy, attended the seminar and made a speech themed by The Application of High Efficiency and Super High Efficiency Modules in TopRunner Bases.

2018 is the first year for PV industry restructuring. After experiencing turbulence, domestic photovoltaic market turns to stable development. In this context, the Top Runner Program has become an important driving force for development and application of new technologies in photovoltaic industry, and the introduction of the technological top runners has set a higher threshold for the requirements of modules. The top runners support technological upgrading of the photovoltaic industry and provide external driving force for the continuous technological innovation of enterprises.

In this case, only enterprises with core competitive advantages can survive in the fierce market competition.Jinergy, which has the capacity of high efficiency poly crystalline modules, high efficiency PERC mono crystalline modules and super high efficiency HJT modules, has “stood out” in the toprunner base projects, and has successively provided high efficiency PERC mono and high efficiency poly modules for many top runner projects, such as the projects in Datong, Ruicheng and Xintai.

On January 9, the National Energy Administration issued the Notice on Actively Promoting Non-subsidy Grid Parity of Wind Power and Photovoltaic Power Generation, which pointed out the direction for “Grid Parity”. The policy has confirmed high-quality development of the photovoltaic industry and guided the photovoltaic enterprises to promote industrial upgrading with advanced technologies.

Gaofei LI said, “The implementation of the Top Runner Program providesfair competition for all enterprises. The iterative upgrading of high efficiency technologies represented by PERC has provided a huge boost for photovoltaic industry to enter the era of high efficiency and intelligence.”The Notice on Actively Promoting Non-subsidy Grid Parity of Wind Power and Photovoltaic Power Generation gives comprehensive and multi-dimension support to the gird parity and low-price photovoltaic power generation projects from the aspects of non-technical cost, project income, market-oriented transactions and financial support, etc.In the next two years, grid parity and low-price projects are worth looking forward to, which is expected to promote the application of cost-effective products, improve product efficiency and reduce the technical cost through technological innovation.

HJT modules have many advantages, such as simple technological process, no light degradation, no potential attenuation and low temperature coefficient, etc. Jinergy believes that HJT technology is an effective transition for future photovoltaic industry to the 25% efficiency level. Jinergy’s HJT modules adopt heterojunction bifacialcells and owns many advantages, such as excellent weak light response, ultra-low temperature coefficient, ultra-low attenuation and bifacial power generation, so that the overall power generation is 44% higher than regular modules. At present, the maximum mass production efficiency of Jinergy’s super high efficiency HJT cell has reached 24.04%, and the maximum power output of 60-piece bifacial modules has reached 370W.The specialized cost reduction of Jinergy’s HJT products has achieved initial results. Gaofei LI also revealed that, according to the market demand, production line compatibility and  product reliability, Jinergy will upgrade all products from MBB, bifacialdesign and other aspects in 2019, so that the power output of modules will be greatly improved. Jinergy will continue to follow technology iteration, provide customers and partners with quality-reliable and cost-effective products, and jointly reduce LCOEand realizegrid parity.