Research Article

Energy Conversion and Transmission Characteristics Analysis of Ice Storage Air Conditioning System Driven by Distributed Photovoltaic Energy System

Table 4

Calculated results of total energy and total exergy of each component of the system in energy conversion and transmission process.

ā€‰Accepted energy/WAccepted exergy/WUseful power/WUseful exergy/W/%/%

PV module100007.5112560.515889.7995910.3915.8985.21
Controller15889.7995910.3915254.295894.5596.0099.98
Batteries15254.295894.5515162.4995887.9499.4099.99
Inverter19772.1795887.9416222.195621.282.0599.72
Distributed photovoltaic energy system12.4484.95
Compressor156936.595621.2151397.887286.1496.4791.28
Condenser151397.887286.14Air5145086445.1790.8899.04
Refrigeration86136.41
Throttle valve86136.4186445.1786136.4185784.7210099.24
Evaporator86136.4185784.72Output140714.479810.7433693.04
Absorbing54578
Ice5457879810.749484.2276271.0617.3895.57
Ice maker system51.2079.77
Air conditioning system94842.2276271.0681009.6475747.4585.4299.31
ISACS driven by DPES5.4467.30