Iraq is located in the Middle East with an area that reaches 437,072 km2 and a population of about 36 million. This country is suffering from severe electricity shortage problems which are expected to increase with time. In this research, an attempt is made to minimize this problem by combining the borehole thermal energy storage (BTES) with a heat pump, the indoor temperature of a residential building or other facility may be increased or reduced beyond the temperature interval of the heat carrier fluid. Due to the relatively high ground temperature in Middle Eastern countries, the seasonal thermal energy storages (STES) and ground source heat pump (GSHP) systems have a remarkable potential, partly because the reduced thermal losses from the underground storage and the expected high COP (ratio of thermal energy gain to required driving energy (electricity)) of a heat pump, partly because of the potential for using STES directly for heating and cooling. In this research, groundwater conditions of Babylon city in Iraq were investigated to evaluate the possibility of using GSHP to reduce energy consumption. It is believed that such system will reduce consumed energy by about 60%.
[1]
B. Nordell,et al.
First thermal response test in Syria
,
2009
.
[2]
Mohamad Kharseh,et al.
Reduction of prime energy consumption by ground source heat pumps in a warmer world
,
2011
.
[3]
Bo Nordell,et al.
Large-scale utilisation of renewable energy requires energy storage
,
2007
.
[4]
M. Kadhim,et al.
Measurement of Lead Pollution in the Air of Babylon Governorate/Iraq during Year 2010
,
2012
.
[5]
Bo Nordell,et al.
Borehole heat store design optimization
,
1994
.
[6]
Bo Nordell.
Borehole heat store design optimization : the SmartStore model
,
1994
.
[7]
S. Gehlin.
Thermal response test : method development and evaluation
,
2002
.
[8]
Bo Nordell,et al.
The use of aquifers as thermal energy storage (TES) systems
,
2015
.