[1] Hepbasli, A., Utlu, Z., Evaluating the Energy Utilization Efficiency of Turkey’s
Renewable Energy Sources During 2001, Renewable and Sustainable Energy Reviews, 8,
3, 237-255, 2004.
[2] Birleşmiş Milletler İklim Değişikliği Çerçeve Sözleşmesine Dair Kyoto Protokolü,
Available from: http://www.iklim.cevreorman.gov.tr/kyoto/tur.htm [Erişim Tarihi Mayıs
22, 2009].
[3] Dawoud, B., A Hybrid Solar-assisted Adsorption Cooling Unit for Vaccine Storage
Renewable Energy, 32, 6, 947-964, 2007.
[4] Hepbaşlı, A., Ertöz. Ö., Geleceğin Teknolojisi : Yer kaynaklı ısı pompaları, 4. Ulusal
Tesisat Mühendisliği Kongre ve Sergisi, 445-492, 1999.
[5] Hepbaşlı, A., A Key Review on Exergetic Analysis and Assessment of Renewable Energy
Resources for a Sustainable Future, Renewable and Sustainable Energy Reviews, 12, 3,
593-661, 2008.
[6] Hancıoğlu, E., YL Tezi, Ege Üniversitesi Fen Bilimleri Enstitüsü, 2000.
[7] Utlu, Z., YL Tezi, Ege Üniversitesi, Güneş Enerjisi Enstitüsü, 1999.
[8] Güneş Pilleri, Elektrik İşleri Etüd İdaresi Genel Müdürlüğü Yayını, Ankara, 1992.
[9] Zhai, H., Dai,YJ., Wu, JY., Wang, RZ, Energy and Exergy Analyses on a Novel Hybrid
Solar Heating, Cooling and Power Generation System for Remote Areas, Applied Energy,
86, 9, 1395-1404, 2009.
[10] Liu, L., Wang, Z., The Development and Application Practice of Wind–Solar Energy
Hybrid Generation Systems in China, Renewable and Sustainable Energy Reviews, 13, 6,
7, 1504-1512, 2009.
[11] Hepbasli, A., Kalinci, Y., A Review of Heat Pump Water Heating Systems, Renewable
and Sustainable Energy Reviews, 13, 6, 7, 1211-1229, 2009.
[12] Erdoğan, S., Yılmaz, M., Sahan, B., Ozyurt, O., Isı Pompası Sistemlerinin Seçimi, Tesisat
Mühendisliği Dergisi, 92, 40-49, 2006.
[13] Sutthivirode, K., Namprakai, P., Roonprasang, N., A New Version of a Solar Water
Heating System Coupled With a Solar Water Pump., Applied Energy, 86, 9, 1423-1430,
2009.
[14] Kıncay, O., Çilingir, D., Toprak Kaynaklı Isı Pompalı Sistemler ile Doğal Gaz ve LPG
Sistemlerinin Ekonomik İncelenmesi, Tesisat Dergisi, 84, 188-195, 2002.
[15] Ağustos, H., Açıkgöz, Ö., Akbulut, U., Kıncay, O., Dikey Tip Toprak Kaynaklı Isı
Pompası Kullanımında Güneş Enerji Desteğinin Araştırılması, Ulusal 2007, Ulusal
İklimlendirme Kongresi, TMMOB Makina Mühendisleri Odası Antalya Şubesi, Antalya,
395-402, 2007.
[16] Kıncay, O., Temir, G., Dikey Tip Toprak Kaynaklı Isı Pompası – Bir Uygulama,
Termodinamik Dergisi, 125, 87-92, 2003.
[17] Available from: http://www.gshp.org.uk/documents/CE82DomesticGroundSourceHeatPumps.pdf
[Erişim Tarihi Mayıs 25, 2009].
[18] Kıncay, O., Akbulut, U., Ağustos, H., Açıkgöz, Ö., Çetin, Ö., Güneş Enerjisi ve Toprak
Kaynaklı Isı Pompası Sistemlerinin Konvansiyonel Sistemlerle Ekonomik Olarak
Karşılaştırılması, Tesisat Mühendisliği Dergisi, 106, 5-12, 2008.
Available from: http://www.mmoistanbul.org/yayin/tesisat/106/6 [Erişim Tarihi Mayıs
25, 2009].
[19] International Energy Agency (IEA), Renewables Information 2003, France, 2003.
[20] Utlu, Z., Hepbasli, A., Analysis of Energy and Exergy Use of the Turkish ResidentialCommercial Sector, Building and Environment, 40, 5, 641-655, 2005.
[21] Available from: http://www.eie.gov.tr [Erişim Tarihi Mayıs 25,2009].
[22] Ozgur, MA., Review of Turkey’s Renewable Energy Potential, Renewable Energy, 33,
2345-2356, 2008.
[23] Kıncay, O., Güneş Enerjisi Ders Notları, YTÜ, 2009.
[24] Duffie, J., Beckman, W., Solar Engineering of Thermal Process, New York: John Wiley
& Sons, 1991.
[25] Kıncay, O., Örenel, M.B., Isıl Enerji Depolama Yöntemleri ve Malzemeleri,
Termodinamik Dergisi, 5, 92-98, 2002.
[26] Dincer, I., Rosen, MA., Thermal Energy Storage: Systems And Applications, New York:
John Wiley & Sons, 2002.
[27] Kıncay, O., Örenel, M.B., Gizli Isı Depolama Yöntemleri ve Malzemeleri, Tesisat
Dergisi, 93, 112-122 , 2003.
[28] Yüksel N., Avcı A., Enerji Depolama Sistemi Modellenmesi., Isı Bilimi ve Tekniği
Dergisi, 23, 66-74, 2003.
[29] Paksoy, HÖ., Gürbüz, Z., Turgut, B., Dikici, D., Evliya, H. Aquifer Thermal Storage
(ATES) for Air-Conditioning of a Supermarket in Turkey, Renewable Energy, 29, 1991-
1996, 2004.
[30] Available from: http://solar.colorado.edu [Erişim Tarihi Mayıs 25,2009].
[31] Özonur, Y., Mazman, M., Paksoy, H.Ö., Evliya, H., Microencapsulation of Coco Fatty
Acid Mixture for Thermal Energy Storage with Phase Change Materials, International
Journal of Energy Research, 30, 10, 741-749, 2006.
[32] Available from: http://www.energy.wsu.edu/documents/engineering/Proc_Resources.pdf
[Erişim Tarihi Mayıs 25,2009].
[33] Erdogdu, E., On the Wind Energy in Turkey, Renewable and Sustainable Energy
Reviews, 13, 6-7, 1361-1371, 2009.
[34] Akdağ, SA., Dinler, A., A New Method to Estimate Weibull Parameters for Wind
Energy Applications, Energy Conversion and Management, In Press, Corrected Proof,
Available online 19 April 2009.
[35] Mutlu, ÖS., Akpınar, E., Balıkcı, A., Power Quality Analysis of Wind Farm Connected
to Alaçatı Substation in Turkey, Renewable Energy, 34, 5, 1312-1318, 2009.
[36] Alboyaci, B., Dursun, B., Electricity Restructuring in Turkey and the Share of Wind
Energy Production, Renewable Energy, 33, 11, 2499-2505, 2008.
[37] Onar, OC., Uzunoglu, M., Alam, MS., Modeling, Control and Simulation of an
Autonomous Wind Turbine/Photovoltaic/Fuel Cell/Ultra-Capacitor Hybrid Power
System, Journal of Power Sources, 185, 2, 1273-1283, 2008.
[38] Ocampo, BR., Vasquez, ER., Canseco-Sánchez, H., Cornejo-Meza, RC., TrápagaMartínez, G., García-Rodriguez, FJ., Photovoltaic/Thermal Solar Hybrid System With
Bifacial PV Module and Transparent Plane Collector, Solar Energy Materials and Solar
Cells, 91, 20, 14, 1966-1971, 2007.
[39] Available from: http://www.solarbuzz.com [Erişim Tarihi Mayıs 25, 2009].
[40] Wijsman, A.J., Havinga, J., Groningen Project: 96 Solar Houses with Seasonal Heat
Storage in the Soil, 1985.
[41] Wijsman, A.J., Havinga, J., National Evaluation Summary of the Nederlands the
Groningen CSHPSS, 1988.
[42] Kavanaugh, S.P., Field Test of Vertical Ground Coupled Heat Pump in Alabama,
ASHRAE Trans., 98, 2, 607-616, 1992a.
[43] Kavanaugh, S.P., 1992b, Using Existing Standarts to Compare Energy Consumption of
Ground Source Heat Pumps with Conventional Equipment, ASHRAE Trans., 98, 2, 599-
606, 1992b.
[44] Miles, L., In: Heat Pumps: Theory and Service, NY: Delmar Publishers Inc., 100-106,
1994.
[45] Kavanaugh, S.P., Ground and Water-Source Heat Pump –A Manuel for the Design and
Installation of Ground Coupled, Groundwater and Lake Water Heating and Cooling
Systems in Southern Climates, The University of Alabama, Tuscaloosa, AL., 163, 1991.
[46] Kavanaugh, S., Rafferty, K, Ground Source Heat Pumps-Design of Geothermal Systems
for Commercial and Institutional Buildings, ASHRAE, Inc. Atlanta, CA, 167, 1997.
[47] Chaturvedi, S.K., Mohieldin, T.O., Chen, D.T., Second Law Analysis os Solar Assisted
Heat Pumps, Energy, 16, 6, 941-949, 1991.
[48] Chaturvedi, S.K., Chen, D.T, Kheireddine, A., Thermal Performance of a Variable
Capacity Direct Expansion Solar Assisted Heat Pump, Energy Conversion and
Management, 39, 3/4, 181-191, 1997.
[49] Aziz, W., Chaturvedi, SK., Kheireddine, A., Thermodynamic Analysis of Two
Component, Two-Phase Flow in Solar Collectors With Application to a Direct-
Expansion Solar Assisted Heat Pump, Energy, 24, 247-259, 1999.
[50] Healy, PF., Ugursal, VI., Performance and Economic Feasibility of Ground-Source Heat
Pumps in Cold Climate, International Journal Energy Research, 21, 857-870, 1997.
[51] Lund, J.W., 1988, Geothermal Heat Pump Utilization in the United States, Geo-Heat
Center Quarterly Bulletin, 11, 1, 507, 1988.
[52] Lund, J.W., Geothermal Heat Pumps-Trends and Comparisons,. Geo-Heat Center
Quarterly Bulletin, 12, 1, 1-6, 1989.
[53] Lund, J.W., Ground Source (Geothermal) Heat Pumps Course on Heating with
Geothermal Energy : Conventional and New Schemes Convenor Paul J. Lienau, WGC
2000, Short Courses Kazuno, Thoku District, Japan 8-10 June, 209-236, 2000.
[54] Lund, J.W., Freeston, D.H., World-Wide Direct Uses of Geothermal Energy 2000,
Geothermics, 30, 29-68, 2000.
[55] Sanner, B., Earth Heat Pumps and Underground Thermal Energy Storage in Germany,
Proceeding of the World Geothermal Congress, Florence, Italy, 3, 1167-1172, 1995.
[56] Kilkis, B., Utilization of Wind Energy in Space Heating and Cooling with Hybrid
HVAC Systems and Heat Pumps., Energy and Buildings, 30, 2, 147-153,1999.
[57] Chiasson, A.D., Spitler, J.D., Rees, S.J., Smith, M.D.A, Model Simulating The
Performance of a Pavement Heating System Supplemental Heat Rejecter with ClosedLoop Ground-Source Pump Systems, Journal of Solar Energy Engineering, 122, 183-191,
2000.
[58] Hepbasli, A., Comparison of Three Experimental Studies on Geothermal Heat Pumps at
the Turkish Universities, Proceeding of First International Conference on Sustainable
Energy Technologies, Porto, Portugal, RHP, 50-70, 2002a.
[59] Hepbasli, A., Performance Evaluation of a Vertical Ground Source Heat Pump System in
Izmir, Turkey, International Journal Energy Research, 26, 1121-1139, 2002b.
[60] Hepbasli, A., Akdemir, O., Hancioglu, E., Experimental Study of a Closed Loop Vertical
Ground Source Heat Pump System, Energy Conversion and Management, 44, 4, 527-548,
2003.
[61] Hepbasli, A., Akdemir, O., Energy and Exergy Analysis of a Ground Source
(Geothermal) Heat Pump System, Energy Conversion and Management, 45, 737-753,
2004.
[62] Kıncay, O., Temir, G., Toprak ve Hava Kaynaklı, Isı Pompalı Sistemlerin Ekonomik
İncelenmesi’, Tesisat Mühendisliği Dergisi, 68, 31-37, 2002a.
[63] Akbulut, U., Çetin, Ö., Kıncay, O., Düz ve Helezon Yatay Tip Toprak Kaynaklı Isı
Pompası Sistemlerinin Konvansiyonel Sistemlerle Ekonomik Olarak Karşılaştırılması,
Tesisat Dergisi, 149, 98-103, 2008.
[64] Açıkgöz, Ö., Ağustos, H., Kıncay, O., Hibrid Sistem - Güneş Enerjisi ve Dikey Tip
Toprak Kaynaklı Isı Pompası, Tesisat Dergisi, Sayı:150, 94-101, 2008.
[65] Zeng, H., Diao, N., Fang, Z., Heat Transfer Analysis of Boreholes in Vertical Ground
Heat Exchangers, International Journal of Heat and Mass Transfer, 46, 4457-4418, 2003.
[66] Inalli, M., Esen H., Expermental Thermal Performance Evaluation of a Horizontal
Ground-Source Heat Pump System, Applied Thermal Engineering, 24, 14/15, 2219-2232,
2004.
[67] Demir, H., Doktora Tezi, Yıldız Teknik Üniversitesi, Fen Bilimleri Enstitüsü, 2006.
[68] Dursun, B., Erdoğan, S., Yılmaz, M., Çomaklı, K., Soğuk İklim Bölgelerinde Toprak/Su
Kaynaklı Isı Pompaları-1, Termodinamik, 166, 80-94, 2006.
[69] Yamankaradeniz, R., Horuz, I., The Theoretical and Experimental Investigation of the
Characteristics of Solar Assisted Heat Pump for Clear Days, Int. Comm. Heat Mass
Transfer, 25, 6, 885-898, 1998.
[70] Hulin, H., Xinshi G., Yuchong, S., Theoretical Thermal Performance Analyses of Two
Solar Assisted Heat-Pump Systems, Int. J. Energy Res., 23, 1-6, 1999.
[71] Axapoulos, P., Panagakis, P., Kyritsis, S., Experimental Comparison of a Solar Assisted
Heat Pump Vs. A Conventional Thermosyphon Solar System, Int. J. Energy Res., 22,
1107-1120, 1998.
[72] Kaygusuz, K., Utilization of Solar Energy and Waste Heat, Energy Sources, 21, 595-610,
1999.
[73] Kaygusuz, K., Calculation of Required Collector Area of a Solar Assisted Series Heat
Pump for Domestic Heating, Energy Sources, 22, 247-256, 2000a.
[74] Kaygusuz K., Investigation of a Combined Solar Heat Pump System for Residental
Heating, Part 1: Experimental Results, Int. J. Energy Res., 23, 1213-1223, 2000b.
[75] Hancıoğlu, E, Hepbaşlı, A., Toprak Kaynaklı (Jeotermal) Isı pompalarının Tasarımı,
Testi, Fizibilitesi, V.Ulusal Tesisat Mühendisleri Kongresi ve Sergisi, Teskon 2001.
[76] Ersöz, İ., YL Tezi, Ege Üniversitesi, Fen Bilimleri Enstitüsü, 2000.
[77] Huang, BJ., Chyng, JP., Integral-Type Solar-Assisted Heat Pump Water Heater,
Renewable Energy, 16, 731-734, 1999.
[78] Huang, B.J, Chyng, J.P., Performance Characteristics of Integral Type Solar Assisted
Heat Pump, Solar Heat Pump, Solar Energy, 71(6), 403-414, 2001.
[79] Kuang, YH., Wang, RZ., Yu, LQ., Experimental Study on Solar Assisted Heat Pump
System for Heat Supply, Energy Conversion and Management, 44, 1089-1098, 2003.
[80] Huang, BJ, Lee, CP., Long-Term Performance of Solar-Assisted Heat Pump, Renewable
Energy, 29, 633–639, 2003.
[81] Yumrutas, R., Kaksa, O., Experimental Invesstigation of Thermal Performance of a Solar
Assisted Heat Pump System with an Energy Storage, Int. J. Energy Res., 28, 163-175,
2004.
[82] Bi, Y., Guo, T., Zhang, L., Chen, L., Solar and Ground Heat-Pump System, Applied
Energy, 78(2), 231-245, 2004.
[83] Li, YW., Wang, RZ., Wu, JY., Xu, YX., Experimental Performance Analysis on a
Direct-Expansion Solar-Assisted Heat Pump Water Heater, Applied Thermal Engineering,
27, 17-18, 2858-2868, 2007.
[84] Dikici, A., Akbulut, A., Performance Characteristics and Energy–Exergy Analysis of
Solar-Assisted Heat Pump System, Building ang Environment, 43, 11, 1961,1972, 2007.
[85] Ozgener, O., Hepbasli, A., Experimental Performance Analysis of a Solar Assisted
Ground Source Heat Pump Greenhouse Heating System, Energy and Buildings, 37(1),
101-110, 2005a.
[86] Ozgener, O., Hepbasli, A., Experimental Investigation of the Performance of a Solar
Assisted Ground Source Heat Pump System for Greenhouse Heating, International
Journal Energy Research, 29, 217-231, 2005b.
[87] Ozgener, O., Hepbasli, A., Performance Analysis of a Solar Assisted Ground Source Heat
Pump System for Greenhouse Heating: an Experimental Study, Building and
Environment, 40, 1040-1050, 2005c.
[88] Ozgener, O., Hepbasli, A., Exergoeconomic Analysis of a Solar Assisted Ground Source
Heat Pump Greenhouse Heating System, Applied Thermal Engineering, 25, 1459-1471,
2005d.
[89] Ozgener, O., Hepbaşlı A., Modeling and Performance Evaluation of Ground Source
(Geothermal) Heat Pump Systems, Energy and Building, 39, 1, 66-75, 2006.
[90] Akpınar, EK., Hepbaşlı, A., A New Comparative Study on Exergetic Assestment of Two
Ground-Source (Geothermal) Heat Pump Systems for Residental Applications, Building
and Environment, 39, 12, 1211-1217, 2007.
[91] Yang, WB., Shi, MH., Dong, H., 2006, Numerical Simulation of the Performance of a
Solar-Earth Source Heat Pump System, Applied Thermal Engineering, 26, 2367-2376,
2006.
[92] Li X., Chen Z., Zhao J., Simulation and Experiment on the Thermal Performance of UVertical Ground Coupled Heat Exchanger, Applied Thermal Engineering, 26, 1564-1571,
2006.
[93] Omer, AM., Ground-Source Heat Pumps Systems and Applications, Renewable &
Sustainable Energy Reviews, 12, 344-371, 2008.
[94] Gao, J., Zhang, X., Liu, J., Shan LK., Yang, J., Thermal Performance and Ground
Temperature of Vertical Pile-Foundation Heat Exchangers: A Case Study, Applied
Thermal Engineering, 28, 17-18, 2295-2304, 2008.
[95] Badescu, V., Model of a Solar Assisted Heat-Pump System for Space Heating Integrating
a Thermal Energy Storage Unit, Energy and Buildings, 34, 715-726, 2002.
[96] Badescu, V., Model of a Thermal Energy Storage Device Integrated in to a Solar Assisted
Heat Pump System for Space Heating, Energy Conversion and Management, 44, 1589-
1604, 2003a.
[97] Badescu, V., First And Second Law Analysis of a Solar Assisted Heat Pump Based
Heating System, Energy Conversion and Management, 43, 2539-2552, 2003b.
[98] Reyes, ET., Gortari, JC., Optimal Peformance of an Irreversible Solar Assisted Heat
Pump, Exergy an International Journal, 1(2), 107-111, 2001.
[99] Reyes, E.T., Picon Nunez, M., Cervantes De G., Exergy Analysis and Optimization of a
Solar Assisted Heat Pump, Energy, 23(4), 337-344, 1998.
[100] Cervantes, G. J., Torres-Reyes, E., Experimental on a Solar-Assisted Heat Pump and an
Exergy Analysis of the System, Applied Thermal Engineering, 22, 1289-1297, 2002.
[101] Hawlader, MNA., Chou, SK, Jahangeer, KA., Rahman, SMA, Lau, KW., 2003, Solar
Assisted Heat-Pump Dryer and Water Heater, Applied Energy, 74, 185-193, 2003.
[102] Urchueguía, JF., Zacarés, M., Corberán, JM., Montero, A., Martos, J., Witte, H.,
Comparison Between the Energy Performance of a Ground Coupled Water to Water Heat
Pump System and an Air to Water Heat Pump System for Heating and Cooling in Typical
Conditions of the European Mediterranean Coast, Energy Conversion and Management,
49 (10), 2917-2923, 2008.
[103] Akbulut, U., Doğan, B.T., Kıncay, O., Ülkemizde Rüzgar Enerjisi Başvuruları Gerekçe,
Usul ve Bazı Gerçekler, IV. Ege Enerji Sempozyumu, 43-52, Ege Üniversitesi, İzmir,
2008.
[104] Engin, M., Çolak, M., Güneş-Rüzgar Hibrid Enerji Üretim Sisteminin İncelenmesi
Pamukkale Üniversitesi Mühendislik Fakültesi, Mühendislik Bilimleri Dergisi, 11, 2, 225-
230, 2005.
[105] Liu L., Wang, Z., The Development and Application Practice of Wind–Solar Energy
Hybrid Generation Systems in China, Renewable and Sustainable Energy Reviews, 13, 6-
7, 1504-1512, 2009.
[106] Hocaoğlu, FO., Kurban, M., Filik, ÜB., Wasp Yazılımı ile Rüzgar Potansiyeli Analizi ve
Uygulama, IV. Yenilenebilir Enerji Kaynakları Sempozyumu, Gaziantep, 2007.
[107] Wang, H., Qi, C., Wang, E., Zhao, J., A Case Study of Underground Thermal Storage in a
Solar-Ground Coupled Heat Pump System for Residential Buildings, Renewable Energy,
34, 1, 307-314, 2009.
[108] Gao, J., Zhang, X., Kui JL., Shan L., Yang, J., Thermal Performance and Ground
Temperature of Vertical Pile-Foundation Heat Exchangers: A Case Study, Institute of
HVAC&GAS Engineering, College of Mechanical Engineering, Tongji University,
Shanghai 200092, China, 2008.
[109] Benli, H., Durmus, A., Evaluation of Ground-Source Heat Pump Combined Latent Heat
Storage System Performance in Greenhouse Heating, Energy and Buildings, 41, 2, 220-
228, 2009.
[110] Yu, Y., Mab, Z., Li, X., A New Integrated System With Cooling Storage in Soil and
Ground-Coupled Heat Pump, Applied Thermal Engineering, 28, 11-12, 1450-1462, 2008.
[111] Wang, H., Qi, C., Performance Study of Underground Thermal Storage in a Solar-Ground
Coupled Heat Pump System for Residential Buildings, Energy and Buildings,40, 7, 1278-
1286, 2008.
[112] Kincay, O., Utlu, Z., Ağustos, H., Akbulut, U., Açikgöz., Ö., Rüzgar Enerjisi, Güneş
Enerjisi, Toprak Kaynaklı Dikey Tip Isı Pompası, Isıl Enerji Depolama Sistem Bileşenleri
ile Isıtma, Soğutma Ve Aydınlatma Amaçlı Oluşturulacak Birleşik Yenilenebilir Enerji
Sisteminin Modelleme Ve Analizlerinin Gerçekleştirilmesi, Deneysel Olarak İncelenmesi,
YTÜ-BAPK Projesi, 27-06-01-03, 2007.
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