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Industry In industry, heat production consumes significant shares of the energy used, creating a great need for decarbonisation. TES can already be used to store low-temperature heat generated either through electrically powered heat pumps or by on-site solar thermal plants. Decoupling heat use from generation would permit flexibility and smart energy use, and would allow continuous demand to be met by intermittent renewable generation. There is a nascent, but growing, use of water tank thermal energy storage (WTTES or TTES) in conjunction with solar thermal plants for low-temperature heat generation and storage, predominantly in the mining, food and textile sub-sectors (Figure 8). The key markets are Austria, China, France, Germany, India, Mexico and Spain (Weiss and Spork-Dur, 2019). By 2030 sensible technology costs, which include TTES, are expected to drop by almost 30% from USD 35/kWh to USD 25/kWh. In conjunction with enhancements to integration, management and control of existing TTES, this could encourage greater deployment of solar thermal generation for processes that require low-temperature process heat. In the coming decade solid-state technologies could offer a low-cost form of storage to provide both electricity and heat to industrial processes in a similar fashion to co-generation plants today. By 2030 high energy density PCMs and salt hydration storage solutions could help to reduce the spatial footprint of TES systems, potentially expanding their range of applications. In the longer term further research is needed to understand the potential for chemical looping and other thermochemical storage systems integrated into manufacturing processes to help meet higher-temperature process heat requirements. Water tanks are coming into wider use for low-temperature heat generation and storage in conjunction with solar thermal plants. 24 INNOVATION OUTLOOKPDF Image | THERMAL ENERGY STORAGE Outlook
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