Solar Energy(photovoltaic) Inverter
As the core of the photovoltaic powerstation, the inverter's life affects the normaloperation of the entire power station, and the heat dissipation performance of the inverter is crucial to the life of the device.The components in the inverter have arated operating temperature. When the inverter continues to work, the heat of thecomponents keeps gathering inside the cavity,and the temperature will become higher and higher.Aluminum heat sink will solve this problem perfectly.
1-SolarEdge 77 MW Taiwan Large-Scale Solar- Ruiqifeng Solar Inverter Heatsinks Solution
2-SolarEdge 77 MW Taiwan Large-Scale Solar- Ruiqifeng Solar Inverter Heatsinks Solution
3-SolarEdge 77 MW Taiwan Large-Scale Solar- Ruiqifeng Solar Inverter Heatsinks Solution
1-SolarEdge 770 MW De Krim Resort on Texel Island in the Netherlands-Scale Solar- Ruiqifeng Solar Inverter Heatsinks Solution
2-SolarEdge 770 MW De Krim Resort on Texel Island in the Netherlands-Scale Solar- Ruiqifeng Solar Inverter Heatsinks Solution
3-SolarEdge 770 MW De Krim Resort on Texel Island in the Netherlands-Scale Solar- Ruiqifeng Solar Inverter Heatsinks Solution
Energy Storage System
From a global perspective, with the development of carbon neutrality, new energy sources will gradually emerge and replace traditional energy sources. Energy storage, through the storage of excess energy, makes the rigidity of the power system into a kind of flexibility, ensures the stability of the power grid and solves the problem of wind energy and photovoltaic solar energy consumption. As a key factor in the development of new energy, it will inevitably Receive more and more attention and investment.
Energy storage works by storing or emitting electrochemical energy in the form of direct current (DC), while electrical networks typically operate on alternating current (AC). Therefore, an additional inverter is required to connect the battery storage power plant to the high-voltage network, which will bring a higher requirement for heat dissipation performance, so heatsinks are often used to solve the problem
KCE TX 12 is a 100 MW standalone battery storage development in Travis County, Texas
Texas Waves II, a 30MW30MWh battery energy storage project in Scary County, Texas
The Minety BESS in Minety, Wiltshire, United Kingdom
New Energy Vehicle Charging Station
As the low-carbon economy has become the main direction of future development, new energy vehicles have also emerged as the times require.New energy vehicles have many advantages,such as energy saving, emission reduction,and environmental protection.How to quickly replenish electric energy for new energy vehicles in a relatively short period of time has very high requirements for charging stations.The charging demand is of course as fast as possible. However,as the charging speed increases, the current and voltage will increase linearly,which will lead to an increase in the power of the inductance module of the charging pile,which will easily cause safety accidents.Therefore, it is very important to use aradiator to dissipate heat.
Heat Sinks Project-New energy vehicle Charging Station-1
Heat Sinks Project-New energy vehicle Charging Station-2
Heat Sinks Project-New energy vehicle Charging Station-3
5G Base Station
China has built over 500,000 5G base stations during the 13th Five-Year Plan period (2016-2020), as the country continues the rapid construction of its 5G network.
With the number of 5G users on the rise, the number of connected devices on the network has exceeded 100 million, according to the Ministry of Industry and Information Technology (MIIT).
For the 5G network infrastructure construction pattern to transform to the intensive, miniaturization, intelligent, traditional large base stations have been difficult to meet the demand of the construction of the 5G base station. Base station heat sink must keep cool in the operation process, and multiple fever semiconductor components such as CPU, and chips must be closely together to achieve the best electrical properties, but also to cooling under this compact configuration. The high-capacity 5G base station market favors low cost and high heat dissipation requirements, requiring the use of heat sinks, cooling devices, heat pipes, or thermal interface materials(TIM), rather than using liquids that require electricity or forced liquids.
Reliability design is an important design link in communication system design, and the heat dissipation effect of equipment, especially the heat dissipation design of high-power equipment, has a crucial influence on the reliability of equipment.
Ruiqifeng is able to dissipate these high heat fluxes using heat pipes with high thermal conductivity, providing a safe operating environment.