___

• 1. Reay, D., Kew, P., 2006, “Heat Pipes Theory, Design and Applications”, 367p, Oxford.
• 2. Faghri A., 1995. Heat Pipe Science and Technology. Taylor and Francis, 874p, London.
• 3. Fu, J., 1993, “The Elbow Thermosyphon: An Experimental Investigation of its Evaporative Behavior”, The University of Alberta, Master of Science Thesis, 110s, Canada.
• 4. Peterson, G., 1994, “An Introduction to Heat Pipes Modeling, Testing And Applications”, A Wiley- Interscience Publication, 356, Canada.
• 5. Joudi, K., Witvit, A., 1993, “Improvements of Gravity Assisted Wickless Heat Pipes” Energy Conversion and Management, 41, 2041–2061.
• 6. Özsoy, A., 2005, “Isıtma Sistemlerinden Isı Geri Kazanımında Isı Boruların Uygulanabilirliği, Ekserji ve Ekonomik Analizi”, SDÜ Fen Bilimleri Enstitüsü, Doktora tezi, 109s, Isparta.
• 7. Şimşak, O., 2009, “Isı Geri Kazanım Amaçlı Isı Borusu Performansının Deneysel Olarak İncelenmesi”, KBÜ Fen Bilimleri Enstitüsü, Yüksek lisans tezi, 59s. Karabük.
• 8. Sarıdede, E., 2008, “Isı Borularının Sayısal Olarak İncelenmesi”, YTÜ Fen Bilimleri Enstitüsü, Yüksek lisans tezi, 69s. İstanbul.
• 9. Arslan, G., 2007, “Üç Kolonlu Titreşimli Isı Borusunun Matematiksel Modellenmesi ve Deneysel İncelenmesi” İTÜ Fen Bilimleri Enstitüsü, Yüksek lisans tezi, 75s, İstanbul.
• 10. Doughty, C., Pruess, K., 1990, “A Similarity Solution For Two-Phase Fluid And Heat Flow Near High-Level Nuclear Waste Packages Emplaced in Porous Media”, Int. J. Heat Mass Transfer, 33, 6, 1205-1222.
• 11. Mo, B., Ohadi, M.M., Dessiatoun, S.V., 2000, “Capillary Pumped-Loop Thermal Performance Improvement with Electrohydrodynamic Technique”, Journal of Thermophysics and Heat Transfer, 14, 1, 103-108.
• 12. Sauciuc, I., Mochizuki,M., Mashiko, K., Saito, Y., Nguyen, T., 2000, “The Design and Testing of the Super Fiber Heat Pipes for Electronics Cooling Applications” 2000 IEEE, Sixteenth IEEE Semi- Therm Symposium, 27-32.
• 13. Kalogirou, S.A., 2004, “Solar Thermal Collectors and Applications”, Progress in Energy Combustion Science, 30, 3, 231-295.
• 14. Noie-Baghban, S.H., Majideian, G.R., 2000, “Waste Heat Recovery Using Heat Pipe Heat Exchanger (HPHE) For Surgery Rooms In Hospital”. Applied Thermal Engineering, 20, 1271- 1282.
• 15. Özsoy A., Acar, M., 2005, “Yerçekimi Destekli Bakır-Su Isı Borusu için Deneysel bir Çalışma”, Tesisat Mühendisliği Dergisi, 90, 13-18.
• 16. Marcarino, P., Merlone, A., 2003, “Gas-Controlled Heat-Pipe for Accurate Temperature Measurements” Applied Thermal Engineering, 23, 1145-1152.
• 17. Hamilton, A., Hu, J., 1993, “An Electronic Cryoprobe For Cryosurgery Using Heat Pipes and Thermoelectric Coolers: A Preliminary Report”, Journal of Medical Engineering and Technology, 17, 3, 104-109.
• 18. Peterson G.P., 1994, “An Introduction to Heat Pipes Modeling, Testing, and Applications”, John Wiley and Sons, 356p, New York.
• 19. Delil, A.M., 1998, “A Review of Thermophysical Research at the NLR Space Division” Rev. Gen. Therm., 37, 917-924.
• 20. Vasiliev, L.L., 1998, “State of the Art on Heat Pipe Technology in The Former Soviet Union”, Applied Thermal Engineering, 18, 7, 507-551.
• 21. Vasiliev, L.L., 2005, “Heat Pipes in Modern Heat Exchangers”, Applied Thermal Engineering, 25, 1-19.
• 22. Zhang, H., Zhuang, J., 2003, “Research, Development and Industrial Application of Heat Pipe Technology In China” Applied Thermal Engineering, 23, 1067-1083.
• 23. Zhang, M., Yuanming, J., Zhang, Z.S., 2011, “Numerical Study on Cooling Characteristics of Two- Phase Closed Thermosyphon Embankment in Permafrost Regions”, Cold Regions Science and Technology, 65, 203–210.
• 24. Li, S., Ye, X., 2008, “Study On The Bridge Surface Deicing System In Yuebei Section of Jingzhu Highway”, International Journal of Business and Management, Vol.3, No.12, 116-121.
• 25. Özbek, A., Yılmaz, T., Yılmaz, A., Büyükalaca, O., 2009, “Yatay Katmanlı Topraklarda Katman Fiziksel Özelliklerinin Toprak Sıcaklığına Etkisi”, 9. Ulusal Tesisat Mühendisliği Kongresi, 7-10 Mayıs 2009. 451-463., İzmir.
• 26. Bayasan, R., Korotchenko, A., Volkov, N., Pustovoit, G., Lobanov, A., 2006, “Use of Two-Phase Heat Pipes with the Enlarged Heat-Exchange Surface for Thermal Stabilization of Permafrost Soils at the Bases of Structures”, Applied Thermal Engineering, 28, 274-277.
• 27. Zhi, W., Yu, S., Wei, M., Jilin, Q., Wu, J., 2005, “Analysis on Effect of Permafrost Protection by Two-Phase Closed Thermosyphon and Insulation Jointly in Permafrost Regions”, Cold Regions Science and Technology, 43, 150–163.
• 28. Wei, M., Goudong, C., Qingbai, W., 2009, “Construction on Permafrost Foundations: Lessons Learned from the Qinghai–Tibet Railroad”, Cold Regions Science and Technology, 59, 3-11.
• 29. Heuver, C., 1979, “Application of heat pipes on the Trans Alaska pipeline”. Army Cold Regions Research and Engineering Laboratory Special Report 79-26, 34s. Washington.
• 30. Hayley, D., 1982, “Application of Heat Pipes to Design of Shallow Foundations on Permafrost, Engineering Applications in Permafrost Areas, 10, 535-544.
• 31. Balbay, A., Esen, M., 2007, “Yollardaki Kar ve Buzu Önleyici Sistemler”, Doğu Anadolu Bölgesi Araştırmaları, 6,1, 169-174.
• 32. Wang, H., Zhao, J., Chen, Z., 2008, “Experimental Investigation of Ice And Snow Melting Process on Pavement Utilizing Geothermal Tail Water” Energy Conversion and Management, 49, 1538- 1546.
• 33. Engen, I., 1982, “Geothermal Deicing of Highways and Bridge Structures” U.S. Department of Energy İnformal Report, EGG-GTH-5739, 7p, Idaho.
• 34. Swanson, H., 1980, “Evaluation of Geothermal Energy for Heating Highway Structures”, Colorado Department of Highways Interim Report, FHWA-CO–80–6, 66s, Colorado.
• 35. Donnelly, D., 1981, “Geothermal Energy for Highway Snow and Ice Control, Colorado Department of Highways Summary Report”, CDH-DTP-R-81-13, 25s, Colorado.
• 36. Lund, J.W., 2000, “Pavement Snow Melting”, http://geoheat.oit.edu/bulletin/bull21-2/art4.pdf. Erişim Tarihi: 31.05.2012.
• 37. Thompson, J., Maidment, G., Missenden, J., Ampofo, F., 2007, “Geothermal Cooling Through Enhancement of The Natural Heat Sink Effect – Proof of Concept”, Experimental Thermal and Fluid Science, 31, 551–558.
• 38. Ampofo, F., Maidment, G., Missenden, J., 2004, “Underground Railway Environment in the UK Part 3: Methods of Delivering Cooling”, Applied Thermal Engineering, 24, 647–659.
• 39. Kruse, H., Rüssmann, H., 2004, “Novel CO2 Heat Pipe As Earth probe For Heat Pumps Without Auxiliary Pumping Energy”, Research Centre for Refrigeration and Heat Pumps, Germany.
• 40. Rieberer, R., Mittermayr, K., Halozan, H., 2002, “CO2 Heat Pipe for Heat Pumps”, Commission B1,B2,E1 and E2-Guangzhou, China.