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Introduction to thermal energy storage (TES) systems 19 30°C 60% RH 3000 Nm3/h Ambient air TCS Cold recovery Humidifier Supply air Exhaust air 24°C 50% RH 3000 Nm3/h H/E IEC TCS Thermochemical storage H/E Heat exchanger Figure 1.15 Additional components in the system in Munich to include air conditioning [14]. system including the cold recovery device and the supply air humidifier. The air stream exiting the zeolite bed has to be cooled down (cold recovery device) before entering the supply air humidifier. The cold recovery device consists of an exhaust air humidifier with an integrated heat exchanger and the supply air heat exchanger, which are connected by a fluid circuit. The first can be described as an indirect evaporative cooler. The cold recovery device is able to transport 83% of the maximum possible enthalpy difference from the exhaust air to the supply air. 1.4 Environmental impact and energy savings produced A study on the potential energy savings and climate change mitigation through a decrease in CO2 emissions of TES has been carried out for Spain, Germany and Europe as a whole. A ten-year TES scenario was considered, assuming moderate implementation rates. The results are grouped according to application type, utilizing different parameters and obtaining the approximate annual quantity of saved energy. For the industrial sector the considered cases are combined heat and power (CHP, also called cogeneration), industry (heating and cooling systems), power stations and transport, and concentrated solar power plants. In order to determine the TES potential, the required parameters are related to energy and CO2 emissions. Within the energy field, two quantities show the potential to be determined: the derived thermal load reduction and thermal/electrical energy savings. The thermal load reduction refers to the reduction of capacity from that which would have been consumed under the same working conditions without employing IEC Indirect evaporative cooler BuildingPDF Image | Introduction to thermal energy storage TES systems
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