“…Molenda et al [100,101] have studied calcium chloride for high temperature industrial waste heat storage. The authors considered basically the reaction range from CaCl 2 $2H 2 O to CaCl 2 in the required temperature range of 80e200 C because CaCl 2 $2H 2 O is the hydrate of calcium chloride that could be used in pure form without systematic melting issues for an application requiring a discharging temperature above 45 C (domestic hot water production for instance) [101,142]. In a lab-scale reactor containing 0.55 kg of CaCl 2 , two different storage modes have been tested.…”
Section: The Use Of Cacl 2 For Thermochemical Energy Storagementioning
“…Molenda et al [100,101] have studied calcium chloride for high temperature industrial waste heat storage. The authors considered basically the reaction range from CaCl 2 $2H 2 O to CaCl 2 in the required temperature range of 80e200 C because CaCl 2 $2H 2 O is the hydrate of calcium chloride that could be used in pure form without systematic melting issues for an application requiring a discharging temperature above 45 C (domestic hot water production for instance) [101,142]. In a lab-scale reactor containing 0.55 kg of CaCl 2 , two different storage modes have been tested.…”
Section: The Use Of Cacl 2 For Thermochemical Energy Storagementioning
“…Gas supply 9 To supply the reaction bed with the reaction gas water vapor a second tube bundle heat 10 exchanger is used ((2) in Fig. 1).…”
Section: 3mentioning
confidence: 99%
“…3). The in-and the outlet temperature of the thermal oil in the reactor as well as the water 9 temperature in the condenser/evaporator is determined by thermocouples, too. 10…”
Section: 4mentioning
confidence: 99%
“…As the first reaction cycle might significantly differ from the following [9], only the second 11 cycles are analyzed in this publication. 12 Thermal charging 18 The dehydration reaction of calcium chloride dihydrate was performed at 150 °C.…”
Please cite this article as: M. Richter, M. Bouché, M. Linder, Heat transformation based on CaCl 2 /H 2 O -Part A: closed operation principle, Applied Thermal Engineering (2016), doi: http://dx.
“…Considerable amounts of low-temperature heat are wasted to ambient air in industrial processes or automotive uses. Latent heat storage systems have been studied using metal, organic material or salt, [1][2][3][4] and those using chemical reactions or adsorption process apply metal hydroxides, 5-7 metal salt hydrates 8,9 or adsorbents. [10][11][12][13][14] These systems have good heat capacity and a wide applicable temperature range.…”
A heat storage system that is used to generate steam directly by exploiting the dissolution phenomenon between CaBr 2 and water was studied. The performance of the system in terms of the coefficient of performance (COP) or volumetric heat capacity (VHC) yielded maximal values for the amount of water supplied. The COP was 0.072 to 0.115 for steam pressures of 20-50 kPa at x ¼ 7.5. VHC values recorded were 177.2 to 250.1 kJ/l for steam pressures of 20-50 kPa at x ¼ 7.5. This calculation was validated by comparing the calculated value with the experimental result. The pressure settled at the equilibrium state for a very short duration at the heat release step, proving that the dissolution phenomenon involved a high mass transfer rate and was able to transform the heat of dissolution into enthalpy of steam. The amount of steam generated in the experiment conformed very well to the calculations, thus validating the calculation method. V C 2014 AIP Publishing LLC.
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