A finite element program has been written to solve the three-dimensional Fourier equation for the periodic annual temperature field in the ground surrounding an earth tube connected to the heated basement of a residence situated in a northern community. The results indicate that the presence of the earth tube has a marginal influence on the heat losses from the basement to the ground. They also show that the continuous operation of the earth tube throughout the year is not recommended for the climatological conditions under consideration. An appropriate control strategy is therefore formulated. Correlations for the heat gain during winter operation and heat rejection during summer operation are presented in terms of the relevant design characteristics.

Issue Section:
Research Papers
Topics:
Design, Finite element analysis, Heat, Heat exchangers, Heat losses, Temperature, Thermal analysis
1.
Abrams, D. W., Benton, C. C., and Ackridge, J. M., 1980, “Simulated and Measured Performance of Earth Cooling Tubes,” Proceedings 5th Nat. Passive Solar Conf., Am. Solar Energy Soc., pp. 737–741.
2.
Climatology Division, Dept. of Transport, Government of Canada, 1968, “Hourly Data Summaries, No. 55, Mont-Joli Airport.”
3.
Duffie, J. A., and Beckman, W. A., 1991, Solar Engineering of Thermal Processes, 2nd ed., John Wiley and Sons, New York, 918 pp.
4.
Fritz, M., 1983, “New Interest in Going Underground,” Hog Farm Management, pp. 10–14.
5.
Gueymard, C., Detuncq, B., and Galanis, N., 1982, “Donne´es de Base Pour le Design Simplifie´ des Syste´mes a` E´nergie Solaire au Que´bec,” Rapport technique MEC.82.2, Ge´nie me´canique, Univ. de Sherbrooke, Sherbrooke, Quebec.
6.
Incropcra, F. P., and DeWitt, D. P., 1985, Fundamentals of Heat and Mass Transfer, 2nd ed., John Wiley and Sons, New York, 802 pp.
7.
Ishikawa, Y., Nagatomo, M., Yohino, H., and Kimura, S., 1992, “Computational Analysis of Thermal Performance of Earth Tube,” ASME/JSES/KSES Int. Solar Energy Conference, ASME, New York, pp. 195–200.
8.
Ledieu
J.
,
Gaspar
S.
, and
Sine
L.
,
1979
, “
E´tude the´orique de la propagation de la Chaleur Autour de Tuyaux Enterre´s
,”
Bull. Rech. Agron. Gembloux
, Vol.
14
, pp.
164
176
.
9.
Millette, J., 1993, “E´tude Nume´rique d’un E´changeur Thermique Souterrain,” Me´moire M.Sc.A., Univ. de Sherbrooke, Sherbrooke, Quebec.
10.
Millette, J., and Galanis, N., 1993, “Yearly Performance of a Residential Earth Tube Heat Exchanger in a 5300 Degree-Day (C-Day) Climate,” Proceedings, Intern. Conf. Modelling-Simulation, IASTED Anaheim, CA, pp. 422–425.
11.
Puri
V. M.
,
1986
, “
Feasibility and Performance Curves for Intermittent Earth Tube Heat Exchangers
,”
Am. Soc. Agric. Eng.
, Vol.
29
, No.
2
, pp.
526
532
.
12.
Smit, I. M., 1982, Programming the Finite Element Method with Applications to Geomechanics, John Wiley and Sons, New York, 351 pp.
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