Indian Journal of Science and Technology

Open Access Open Access  Restricted Access Subscription Access

Solar Driven Air Conditioning System Integrated with Latent Heat Thermal Energy Storage


Affiliations
1 AMET University,Chennai, India
2 VOLTAS India Ltd, Chennai, India
 

This work is to investigate and validate of solar thermal storage system integrated with phase change material (PCM). The existing system is suggested to setup a Storage tank with phase change material (PCM), between the Solar concentrate dishes and Vapour absorption machine (VAM). The storage tank was used instead of an Electrical AC compressor, by which the renewable energy can be utilized to its full extent. Numerical Simulation is done and the Total Heat output, Temperature distribution along the bed, Pressure, charging time, discharging time, Mass flow rate are calculated. The storage system contains Erythritol as PCM in HDPE spherical capsule, having the storage capacity 345,121 KJ/hr (for the storage tank capacity) considering the latent heat and sensible heat of the Heat transfer fluid.

Keywords

Vapour Absorption Machine (VAM), Phase Change Materials (PCM), Erithritol, Storage Tank, Numerical Simulation.
User

Abstract Views: 433

PDF Views: 0




  • Solar Driven Air Conditioning System Integrated with Latent Heat Thermal Energy Storage

Abstract Views: 433  |  PDF Views: 0

Authors

A. Ponshanmugakumar
AMET University,Chennai, India
M. Sivashanmugam
AMET University,Chennai, India
S. Stephen Jayakumar
VOLTAS India Ltd, Chennai, India

Abstract


This work is to investigate and validate of solar thermal storage system integrated with phase change material (PCM). The existing system is suggested to setup a Storage tank with phase change material (PCM), between the Solar concentrate dishes and Vapour absorption machine (VAM). The storage tank was used instead of an Electrical AC compressor, by which the renewable energy can be utilized to its full extent. Numerical Simulation is done and the Total Heat output, Temperature distribution along the bed, Pressure, charging time, discharging time, Mass flow rate are calculated. The storage system contains Erythritol as PCM in HDPE spherical capsule, having the storage capacity 345,121 KJ/hr (for the storage tank capacity) considering the latent heat and sensible heat of the Heat transfer fluid.

Keywords


Vapour Absorption Machine (VAM), Phase Change Materials (PCM), Erithritol, Storage Tank, Numerical Simulation.



DOI: https://doi.org/10.17485/ijst%2F2014%2Fv7i11%2F59403