Recently, BorgWarner (BorgWarner) is currently building a new plant in the Lanheses industrial area of ​​Vianado Castelo, about 31 miles (50 kilometers) from its rental facility in Valença. ). The project broke ground in August 2013 and is expected to be completed in 2014. The state-of-the-art, large-scale new plant built by BorgWarner includes a 160,000-square-foot (15,000-square-meter) manufacturing area, and its adjacent area has more room for future expansion. With capacity expansion, BorgWarner will be more effective in providing customers with several environmental technologies such as exhaust gas recirculation (EGR) coolers and exhaust gas recirculation (EGR) piping and glow plug control modules. All the key technologies of modern engines aim to reduce emissions. BorgWarner predicts that the global market for exhaust gas recirculation (EGR) systems will increase from 21.2 million units in 2013 to 33.3 million units in 2018.
"Our investment in Portugal will strengthen BorgWarner's market leadership in European exhaust gas recirculation (EGR) technology and meet the growing demand for several exhaust gas recirculation (EGR) products for passenger cars and commercial diesel vehicles . Brady Ericson, president and general manager of BorgWarnerBERUSystems and BorgWarnerEmissionsSystems, said, "The need for advanced cold start technology in diesel engines will further drive our business," said BradyEricson, president and general manager of BorgWarnerBERUSystems and BorgWarnerEmissionsSystems. Development, especially in Europe, where Euro VI emission regulations will take effect in 2014."
The new plant construction project of BorgWarner in Portugal is part of its development strategy. Its strategic goal is to expand the production of its cold start technology for diesel engines, while at the same time meeting the current recirculation of exhaust gases produced in Valença. (EGR) technology's increasing demand. The company plans to gradually relocate its current production base to Vianado Castelo and complete it in early 2015.
According to the regulations of the State Grid, the proportion of distributed generation such as photovoltaics and wind power cannot exceed 10% of the grid, and the energy storage system must be added if it exceeds. Since photovoltaic systems and wind power systems do not use energy storage systems when they are connected to the grid for power generation, it will bring some adverse effects to the power grid. These effects become impossible to ignore. Through the analysis of the characteristics of photovoltaic power generation, it can be seen that the influence of photovoltaic power generation system on the power grid is mainly caused by the instability of photovoltaic power supply. The demand for energy storage systems has increased over the years.
The stable operation of the energy storage system is related to the safety and stability of the power grid, so the major energy storage system manufacturers attach great importance to its quality, and among the factors affecting the stability of the energy storage system, the heat dissipation performance is undoubtedly the most important. Trumony focuses on high-power heat dissipation and has rich experience in the R&D and manufacturing of heat sinks for energy storage systems. Trumony`s thermal management engineers can provide heat dissipation solutions from the beginning of the design of the energy storage system, and can also provide cooling solutions for energy storage systems. The system is optimized for thermal performance. By accumulating rich thermal design data, Trumony can provide accurate thermal simulation and thermal management test data.
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