Renewable Energy
Thermal Performance for Power Conversion and Clean Energy Infrastructure
As renewable energy technologies such as solar, wind, and battery storage continue to advance, the demands on the power electronics and computing systems that convert, regulate, and manage this energy also increase. High heat generated by inverters, insulated-gate bipolar transistor (IGBT) modules, concentrator photovoltaic (CPV) receivers, and electric vehicle charging stations poses challenges to the efficiency, reliability, and overall lifespan of clean energy assets.
Mikros Technologies offers high-performance liquid cooling solutions designed to stabilize thermal performance, enhance conversion efficiency, and extend the operational lifespan of critical energy systems, from generation to storage and grid integration.
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Liquid cooling is vital to advancing renewable energy, significantly improving the efficiency and sustainability of power electronics, energy storage systems (ESS), and the data centers that underpin renewable infrastructure. By effectively maintaining optimal temperatures, Mikros Technologies’ liquid cooling solutions not only extend the lifespan of inverters, batteries, and other power conversion hardware but also enhance their performance and may reduce the number of components needed. This leads to lower energy losses and enables the development of smaller, more space-efficient designs. The improved reliability and lower energy consumption contribute to the overall goal of a renewable energy future by minimizing both capital and operational costs and lowering a system’s environmental impact.
#1
Thermal StabilityAs renewable energy systems, power inverters, and related data-processing technologies, such as AI, become more powerful and energy-intensive, liquid cooling becomes essential to manage the increasing heat loads they generate. Our optimized cold plate solutions offer enhanced thermal stability across a wide range of power loads and ambient temperatures. Whether in full sun, subjected to rapid charge cycles, or converting high voltage power, our liquid cooling solutions help lower component operating temperatures under demanding power draw, thereby improving uptime and system reliability.
#2
Compact DesignsMikros Technologies offers liquid cooling solutions that require less space and infrastructure than competing designs, enabling more compact, efficient layouts. This is particularly important for the increasing demand for energy storage, where space is often limited, as well as for renewable energy infrastructure that needs to be scaled effectively. Our liquid cooling solutions can usually be designed for easy integration into inverter housings, concentrating photovoltaic (CPV) receivers, and charging modules. This approach provides compact, scalable cooling without the need for expensive redesigns of the enclosures.
#3
Increased EfficiencyOur liquid cooling solutions provide greater thermal management capability for power conversion systems, including IGBTs, rectifiers, and DC/AC converters. By reducing component temperatures due to switching losses, our advanced liquid cooling can improve overall system lifetime and performance. Since liquids are significantly more effective at transferring heat than air, our advanced heat transfer technology can lower the additional energy used to cool system components. This results in enhanced overall performance and greater overall efficiency.
#4
Low MaintenanceLiquid cooling technology offers low-maintenance solutions for remote renewable energy assets. Designed for long-term deployments in unconditioned, field-based environments, our solutions ensure reliable performance, reduce service needs, and extend the lifespan of your renewable energy systems.
#5
Extended LifespanBatteries and components need to operate within specific temperature ranges, as extreme temperatures can significantly affect their lifespan. Mikros Technologies offers liquid cooling solutions that effectively regulate temperature and prevent overheating in individual battery cells, inverters, generators, and power electronics. By maintaining optimal temperature, these solutions create ideal conditions that extend equipment lifespan.
#1
Thermal StabilityAs renewable energy systems, power inverters, and related data-processing technologies, such as AI, become more powerful and energy-intensive, liquid cooling becomes essential to manage the increasing heat loads they generate. Our optimized cold plate solutions offer enhanced thermal stability across a wide range of power loads and ambient temperatures. Whether in full sun, subjected to rapid charge cycles, or converting high voltage power, our liquid cooling solutions help lower component operating temperatures under demanding power draw, thereby improving uptime and system reliability.
#2
Compact DesignsMikros Technologies offers liquid cooling solutions that require less space and infrastructure than competing designs, enabling more compact, efficient layouts. This is particularly important for the increasing demand for energy storage, where space is often limited, as well as for renewable energy infrastructure that needs to be scaled effectively. Our liquid cooling solutions can usually be designed for easy integration into inverter housings, concentrating photovoltaic (CPV) receivers, and charging modules. This approach provides compact, scalable cooling without the need for expensive redesigns of the enclosures.
#3
Increased EfficiencyOur liquid cooling solutions provide greater thermal management capability for power conversion systems, including IGBTs, rectifiers, and DC/AC converters. By reducing component temperatures due to switching losses, our advanced liquid cooling can improve overall system lifetime and performance. Since liquids are significantly more effective at transferring heat than air, our advanced heat transfer technology can lower the additional energy used to cool system components. This results in enhanced overall performance and greater overall efficiency.
#4
Low MaintenanceLiquid cooling technology offers low-maintenance solutions for remote renewable energy assets. Designed for long-term deployments in unconditioned, field-based environments, our solutions ensure reliable performance, reduce service needs, and extend the lifespan of your renewable energy systems.
#5
Extended LifespanBatteries and components need to operate within specific temperature ranges, as extreme temperatures can significantly affect their lifespan. Mikros Technologies offers liquid cooling solutions that effectively regulate temperature and prevent overheating in individual battery cells, inverters, generators, and power electronics. By maintaining optimal temperature, these solutions create ideal conditions that extend equipment lifespan.
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