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All issues Volume 205 (2020) E3S Web Conf., 205 (2020) 05023 References
Open Access
Issue
E3S Web Conf.
Volume 205, 2020
2nd International Conference on Energy Geotechnics (ICEGT 2020)
Article Number 05023
Number of page(s) 6
Section Issues Related to Energy Piles
DOI https://doi.org/10.1051/e3sconf/202020505023
Published online 18 November 2020
  1. Loveridge, F. A.; Powrie, W. Pile heat exchangers: thermal behaviour and interactions. Proceedings of the Institute of Civil Engineers: Geotechnical Engineering, 166(2), [2013]. [Google Scholar]
  2. Rotta Loria, A.F.; Gunawan, A.; Shi, C.; Laloui, L.; NG, C. Numerical modelling of energy piles in saturated sand subjected to thermo-mechanical loads. Geomechanics for Energy and the Environment, v.1, 1-15, [2015]. [Google Scholar]
  3. Curtis, R.; Lund, J.; Rybach, L.; Hellstrom, G. Ground Source Heat Pumps – Geothermal energy for anyone, anywhere: current worldwide activity. Proceedings World Geothermal Congress, Antalaya, Turquia, 24-29, [2005]. [Google Scholar]
  4. Çengel, Y.A. Heat transfer: a practical approach. 2 ed. Nova Iorque, EUA: Mcgraw-Hill, [2003]. [Google Scholar]
  5. Baser, T.; Dong, Y; Moradi, A.M.; Lu, N.; Smiths, K.; Ge, S.; Tartakovsky, D.; McCartney, J.S. Role of Nonequilibrium Water Vapor Diffusion in Thermal Energy Storage Systems in the Vadose Zone. Journal of Geotechnical and Geoenvironmental Engineering, v.144, issue 7, [2018]. [Google Scholar]
  6. Bergman, T.L.; Lavine, A.S.; Incropera, F.P.; Dewitt, D.P. Introduction to heat transfer. 5 ed. Nova Jersey, EUA: John Wiley & Sons: [2007]. [Google Scholar]
  7. Bandeira Neto, L.A. Estudo experimental da resposta térmica de fundações por estacas trocadoras de calor em solo não saturado. 2015. Dissertation (Masters) – São Paulo University, São Paulo, [2015]. [Google Scholar]
  8. Morais, T.S.O.; Tsuha, C.H.C. In-situ measurements of the soil thermal properties for energy foundation applications in São Paulo, Brazil. Bulgarian Chemical Communications, v.50, 34-41, [2018]. [Google Scholar]
  9. Gonçalves, N.D.F. Método dos volumes finitos em malhas não-estruturadas. 72 p. Dissertation (Masters) – Porto university, Porto, [2007]. [Google Scholar]
  10. Maliska, C.R. Transferência de calor e mecânica dos fluídos computacional. 2 ed. Rio de Janeiro, Brasil: Editora LTC, [2004]. [Google Scholar]
  11. Ozudogru, T.Y.; Olgun, C.G. 3D numerical modelling of vertical geothermal heat exchangers. Geothermics, v. 51, 312-324, [2014]. [Google Scholar]
  12. You, S.; Cheng, X.; Yu, C.; Dang, Z. Effects of groundwater flow on the transfer performance of energy piles: experimental and numerical analysis. Energy and buildings, v.155, 249-259, [2017]. [Google Scholar]
  13. Morais, T.S.O.; Tsuha, C.H.C. Energy pile and ground temperature response to heating test: a case study in Brazil. Bulgarian Chemical Communications, v. 48, 115-119, [2016]. [Google Scholar]

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