Recently, the Southeast University, Braunschweig University of Technology, which used Trina Solar's smart energy solutions, won the third place in the 2018 China International Solar Decathlon Competition and the third prize in architectural design. The results prove once again the outstanding technological innovation ability of Trina Solar.
On August 17, the 2018 China International Solar Decathlon Competition was successfully held in the solar town of Dezhou, Shandong. This competition invited 19 teams from 34 universities around the world to 'build design, market competitiveness, engineering design, Communication display ability, purchasing power, thermal comfort, household appliance energy consumption, living energy consumption, household charging car, energy balance, etc. 10 individual items are selected one by one.
Trina Solar is the photovoltaic smart energy solution provider of Southeast University and the Brunswick University of Technology team from Germany. It is the entry of the university team - 'Sunshine Ark 2.0 - C-house' (referred to as 'Cube House' provides photovoltaic power system solutions, and its core innovations have become the ultimate support for this entry.
Professor Zhang Hong from Southeast University said: 'Tianhe Solar's solution is excellent, and technical support response is timely!'
One of the highlights of Trina Solar's solutions is the perfect combination of photovoltaic power generation systems, lithium batteries and ice storage energy storage technology. In addition to meeting all the energy and energy storage needs of the 'Cube House', Incorporate excess power into the grid; its photovoltaic power generation balance system cuts the power generation into the valley and effectively increases the energy self-sufficiency rate.
Another innovative highlight of Trina Solar's solution is the integration of integrated thin-film solar cell facades and crystalline silicon solar cell roofs to achieve integration of solar and building skins. The roof of the 'Cube House' is installed with 57 300 pieces.瓦天合光能High-efficiency monocrystalline silicon double-sided double-glass solar modules. Compared with traditional single-sided components, these high-efficiency components can increase power generation by up to 30%, maximizing the conversion of solar energy into indoor energy, and Maintains the structure of the building is simple, beautiful, unified facade features.
Trina Solar hopes that through the innovative design concept provided by this competition, it can show that photovoltaic energy can be combined with different industries and scenarios, and applied to people's pursuit of healthy living.