A comprehensive review on mobilized thermal energy storage

Abstract

ABSTRACT Industrial applications consume about one–third of global demand and account for nearly fifty percent of unutilized waste heat. Industrial waste heat recovery is a suitable solution. The tapping of waste heat from industrial activities has become inevitable energy conservation technology to reduce energy consumption and minimize the usage of fossil fuels to reduce carbon dioxide emissions. The conventional waste heat recovery installed on-site to meet local energy demand is a well-established technology. However, the topological mismatch between energy recovery and its demand remains a hurdle, especially for off-site heat demand located far away from sources. The Mobilized Thermal Energy Storage (MTES) alligates this issue. The economic and environmental study of MTES revealed that the standard energy cost (€/MWh) is proportional to transport distance. The energy cost (€/MWh) ranges from 40 to 80 with latent heat storage capacities latent heat storage capacity between 1.4 and 2.5 MWh and transport distance of 2 to 50 Km between source and end-users. The use of MTES reduces carbon emission up to 90% in comparison with conventional heating. Therefore, the transportation of waste utilizing thermal energy storage has become a trusted area of research.