Water pumps in areas without electricity are generally driven by fuel engine. The problem arises while the fuel is getting scarce and expensive. This research aims to create a model of thermal energy water pump and examine petroleum ether and diethyl ether characteristics as working fluid of thermal energy water pump. Parameter variations are done on type of fluid, mass of the working fluid and pumping head. Measurements are conducted on temperature of the working fluid, pumping discharge, time, working fluid pressure and pump pressure. A cycle time of petroleum ether is 158 minutes which is 6 times longer than diethyl ether (24.3 minutes).  The discharges of diethyl ether are 0.9, 0.7  and 1.3 liters/min in average, minimum and maximum respectively. They are greater than petroleum ether (0.3, 0.1 and 1.1 liters/min). Diethyl ether generated evaporator pressure greater than petroleum ether (0.7 vs. 0.55 bar). Amount of air in the pressured air tube and in the system affects the volume and discharge. There is optimal mass of working fluid for specific head and amount of air in the pressured air tube. There is also optimal head for specific amount of working fluid mass and air in the pressured air tube.

Mahkamov, K., Djumanov, D. 2003. Thermal water pumps on the basis of fluid piston solar stirling engine. 1st International Energy Conversion Engineering Conference, 17-21 August 2003, Portsmouth, Virginia.

Menteri Energi dan Sumber Daya Mineral. 2003. Kebijakan pengembangan energi terbarukan dan konservasi energi (energi hijau). Jakarta: Departemen Energi dan Sumber Daya Mineral.

Menteri Negara Riset dan Teknologi. 2006. Indonesia 2005-2025 buku putih penelitian, pengembangan dan penerapan ilmu pengetahuan dan teknologi. Jakarta: Kementerian Negara Riset dan Teknologi Republik Indonesia.

Natthaphon Roonprasang, N.; Namprakai, P.; Pratinthong, N. 2007. Experimental studies of a new solar water heater system using a solar water pump, Journal Energy.

Oppen, M.V.; Chandwalker, K. 2001. Solar power for irrigation the small solar thermal pump, An Indian Development, Re Focus Publications, New Delhi, Mei 2001.

Smith, T.C.B. 2005. Asymmetric heat transfer in vapour cycle liquid-piston engines, Proceedings of the 2nd IECEC, August 2005.

Wong, Y.W., Sumathy, K. 2001. Thermodynamic analysis and optimization of a solar thermal water pump, Applied Thermal Engineering, Vol. 21, Issue 5, 613-627.

Wong, Y.W., Sumathy, K. 2001. Performance of a solar water pump with ethyl ether as working Fluid, Renewable Energy, Vol. 22, 389-394.