The brisk money related change far and wide and restrictive ways of life force a steadily expanding interest for vitality. As a prime customer of the world's material and vitality resources of building and development improvement, the industry has a high potential in becoming newly capable, environmentally and condition well-disposed materials to limit the vitality usages in structures. The Thermal Energy Storage System (TES) with Phase change material (PCM) offers an engaging strategy for improving the warm mass and the warm solace inside a building. PCMs are the Latent Heat Thermal Storage (LHTS) materials with high vitality stockpiling thickness stood out from standard sensible warmth stockpiling materials. An assortment of substances like water, warmth exchange, oils and certain inorganic liquid salts, and solids like rocks, stones, and headstrong are utilized as the PCM and furthermore the decision of the substances to be utilized as a part of a specific material to a great extent relies on the temperature level of the application. The material solid which joins PCM in it upgrades the thermal mass of the building which diminishes the space molding vitality utilization and incredible temperature varieties inside the building. The warmth limit and high thickness of solid, when joined with dormant warmth stockpiling of PCM, gives a novel vitality sparing ideas for the supportable manufactured condition. Microencapsulation is the most recent and impelled advancement for the fuse of PCM into strong (solid) which makes finely scattered PCMs with the high surface territory for more noticeable and more noteworthy measure of warmth trade. This paper reviews open composition on Phase change materials in strong and its application. There is a necessity for sweeping exploratory and logical examinations on PCM applications with cementitious materials as the most extensively utilized development materials in structures.