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Kapuściński J., Rodzoch A.; Geotermia niskotemperaturowa w Polsce i na świecie: stan aktualny i perspektywy rozwoju: uwarunkowania techniczne, środowiskowe i ekonomiczne (Low-temperature geothermics in Poland and in the world: up to date condition and development prospects: technical, environmental and economical conditioning). PhD Thesis written on the Environment Minister order, Publisher: Borgis, Warsaw 2010 (in Polish)Search in Google Scholar
Gonet A., Śliwa T., Hendel J.; Magazynowanie w górotworze ciepła pochodzącego z różnych źródeł (Heat storage from various sources in the orogen). AGH Drilling Oil Gas, Vol.29, No.1, 2012; p.135-144 (in Polish)10.7494/drill.2012.29.2.375Search in Google Scholar
www.pgi.gov.pl: Państwowy Instytut Geologiczny. Informacja geologiczna. Energia geotermalna (National Geological Institute. Geological information. Geothermal energy)Search in Google Scholar
Jastrzębska M., Piotrowicz B.; Produkcja energii cieplnej w pompach ciepła z sondą gruntową zamontowaną w fundamentach pośrednich obiektów budowlanych, w szczególności instalacji opartych o odnawialne źródła energii (The production of thermal energy in heat pumps with ground collector mounted in the intermediate foundations of the buildings, in particular the installations based on renewable energy resources). Monograph "Energetics for the construction industry – the insight of the young scientist”, B. Bochentyn, K. Piech (eds.), Kraków: CREATIVETIME, 2015; p.158-166 (in Polish)Search in Google Scholar
Ćwirko M., Piotrowicz B.; Analiza systemu OZE i jego posadowienia na terenie Sośniej Góry w Mikołowie (Renewable energy resources system and its foundation analysis on the area of Sośnia Góra in Mikołów). Master’s Thesis under the supervision of M. Jastrzębska, Faculty of Civil Engineering, The Silesian University of Technology, Gliwice 2014 (in Polish)Search in Google Scholar
Brandl H.; Energy Foundations and other ThermoActive Ground Structures. Géotechnique, Vol.56, No.2, 2006; p.81-12210.1680/geot.2006.56.2.81Search in Google Scholar
Adam D., Markiewicz R.; Energy from earth-coupled structures, foundations, tunnels and sewers. Geotechnique, Vol.59, No.3, 2009; p.229-23610.1680/geot.2009.59.3.229Search in Google Scholar
Frodl S., Franzius J.N., Bartl T.; Design and construction of the tunnel geothermal system in Jenbach. Geomechanics and Tunnelling, Vol.3, No.5, 2010; p.658-66810.1002/geot.201000037Search in Google Scholar
Oberhauser A.; Verfahrensund Komponentenentwicklung zur Planung von Tunnelthermie – Anglen (Process and component development for planning of tunnel thermics – fishing). PhD Thesis, Vienna University of Technology, 2006 (in German)Search in Google Scholar
Brandl H.; Energy piles and diaphragm walls for heat transfer from and intoground. Proc. 3rd Int. Geotech. Seminar, Deep Foundations and Auger Piles III, Ghent, A.A. Balkema, Rotterdam, 1998; p.37-6010.1201/9781003078517-6Search in Google Scholar
Amatya B.L., Soga K., Bourne-Webb P.J., Amis T., Laloui L.; Thermo-mechanical behaviour of energy piles. Geotechnique, Vol.62, No.6, 2012; p.503-51910.1680/geot.10.P.116Search in Google Scholar
Laloui L., Nuth M., Vulliet L.; Experimental and numerical investigations of the behaviour of a heat exchanger pile. International Journal for Numerical and Analytical Methods in Geomechanics, No.30, 2006; p.763-78110.1002/nag.499Search in Google Scholar
Pahud D., Hubbuch M.; Measured Thermal Performances of the Energy Pile System of the Dock Midfieldat Zürich Airport. Proc. European Geothermal Congress, Unterhaching, Germany, 30 May-1 June 2007; p.1-7Search in Google Scholar
Knellwolf C., Peron H., Laloui L.; Geotechnical analysis of heat exchanger piles. Journal of Geotechnical and Geoenvironmental Engineering, 2011, doi:10.1061/(ASCE)GT.1943-5606.000051310.1061/(ASCE)GT.1943-5606.0000513Search in Google Scholar
Von der Hude N., Kapp C.; The use of heat exchanger piles as exemplified in the Main Tower building in Frankfurt am Main. 5th Darmstadt Geotechnical Conference, 1998, DarmstadtSearch in Google Scholar
Fischl M.N., Himmler R.; International Solar Center Berlin – A comprehensive energy design. Building performance congress. Frankfurt Am Main, Germany, Messe Frankfurt GmbH, 2005Search in Google Scholar
Schroder B., Hanschke T.; Energy piles – environmentally friendly heating and cooling with geothermally active prefabricated reinforced concrete piles. Bautechnik, Vol.80, No.12, 2003; p.925-92710.1002/bate.200306210Search in Google Scholar
Amis T., Bourne-Webb P., Davidson C., Amatya B. and Soga K.; An investigation into the effects of heating and cooling energy piles whilst under working load at Lambeth College, Clapham Common, U.K. Proceedings 11th Int. Conf. Deep Foundations, Deep Foundation Institute, 2008, CD RomSearch in Google Scholar
Bourne-Webb P.J., Amatya B., Soga K., Amis T., Davidson C., Payne P.; Energy Pile Test at Lambeth College, London: Geotechnical and Thermodynamic Aspects of Pile Response to Heat Cycles. Géotechnique, Vol.59, No.3, 2009; p.237-24810.1680/geot.2009.59.3.237Search in Google Scholar
Kovacevic M.S., Bacic M., Arapov I.; Possibilities of underground engineering for the use of shallow geothermal Energy. Gradevinar, Vol.64, No.12, 2012; p.1019-102810.14256/JCE.663.2012Search in Google Scholar
Bouazza A., Singh RM., Wang B., Barry-Macaulay D., Haberfield C., Chapman G., Carden Y.; Harnessing on site renewable energy through pile foundations, Australian Geomechanics, Vol.46, No.4, 2011; p.79-90Search in Google Scholar
Lund J.W., Boyd T.L.; Direct Utilization of Geothermal Energy 2015 World wide Review. Proc. World Geothermal Congress, Melbourne, Australia, 2015; p.1-3110.1016/j.geothermics.2015.11.004Search in Google Scholar
Piech K.; Passive buildings and other standards of erecting energy-saving buildings, gaining solar energy, Monograph: Energetics for the construction industry – the insight of the young scientist, B. Bochentyn, K. Piech (eds.), Kraków : CREATIVETIME, 2015; p.35-42 (in Polish)Search in Google Scholar
Buratyński G.; Projekt robót geologicznych na wykonanie otworów technologicznych w celu wykorzystania ciepła Ziemi (The project of geological works on building of technological holes for geothermal energy use). GeoJust s.c, Wrocław 2012 (in Polish)Search in Google Scholar
Szydełko B., Stępniewska I.; Projekt robot geolo-gicznych na wykonanie odwiertów dla instalacji kolektorów pionowych w celu wykorzystania ciepła Ziemi dla Domu Pomocy Społecznej w Dzbańcach (The project of geological works on boreholes for the installation of vertical collectors for geothermal energy use in the nursing home in Dzbańce). 1 dz. Nr 11/1. Zakład Usług Geologicznych “Grunt” s.c., Opole 2012 (in Polish)Search in Google Scholar
Wita A., Balcerzak A., Mirosław-Świątek D.; Heating system with heating energy ground battery – experiments outcomes, XIV Science Conference – Korbielów 2002 “Computer Methods in Design and Analysis of Hydrotechnical Structures”, 2002; p.229-241Search in Google Scholar
Cholewa T., Guz Ł., Siuta-Olcha A.; Wykorzystanie alternatywnych źródeł energii w instalacjach grzewczo-klimatyzacyjnych (Use of alternative energy sources in heating and air-conditioning installations). EcOpole’08, Piechowice, 23-25 X 2008, Society of Ecological Chemistry and Engineering, Proc. of EcOpole, Vol.3, No.1, 2009; p.127-132Search in Google Scholar
Rychlewski P., Jurasz W., Sierant J.; Fundamenty palowe – jako elementy instalacji pozyskującej energię cieplną z gruntu w instalacjach pomp ciepła – termopale (Pile foundations – as an installation’s elements obtained thermal energy from the ground in installations of heat pumps – thermopile), Inżynier budownictwa, January 2014, No.113; p.88-94 (in Polish)Search in Google Scholar
Brandl H.; Geothermal heating and cooling of buildings, Zbornik 4. Šukljetovi dnevi, Portorož, 2003; p.3-27Search in Google Scholar
Brandl H.; Deep Foundations on Bored and Auger Piles. Van Impe and Van Impe, Taylor & Francis Group, London, 2009, ISBN 978-0-415-47556-3; p.77-9510.1201/9780203882870.pt1dSearch in Google Scholar
Wang B., Bouazza A., Singh R. M., Barry-Macaulay D., Haberfield C., Chapman G., Baycan S.; Field investigation of a geothermal energy pile: initial observations. Proceedings of the 18th International Conference on Soil Mechanics and Geotechnical Engineering. Paris, France, 2013; p.3415-3418Search in Google Scholar
Murphy K.D., McCartney J.S., Henry K.H.; Thermomechanical characterization of full-scale energy foundations. Proceedings of the GeoCongress ASCE, 2014; p.617-628Search in Google Scholar
Rosenberg J.E.; Centrifuge Modeling of Soil-Structure Interaction in Thermo-Active Foundations. Master Thesis, University of Colorado, Boulder, 2010Search in Google Scholar
Stewart M.A., McCartney J.S.; Strain Distribution in Centrifuge Model Energy Foundations. GeoCongress 2012, Oakland, CA.; p.4385-437610.1061/9780784412121.450Search in Google Scholar
Loria A.F.R., Gunawan A., Shi C., Laloui L., Ng C.W.; Numerical modelling of energy piles in saturated sand subjected to thermo-mechanical loads. Geomechanics for Energy and the Environment, No.1, 2015; p.1-1510.1016/j.gete.2015.03.002Search in Google Scholar
Wang B., Bouazza A., Haberfield C.; Preliminary Observations from Laboratory Scale Model Geothermal Pile Subjected to Thermo-Mechanical Loading. Geo-Frontiers 2011, Dallas, TX., 2012; p.430-43910.1061/41165(397)45Search in Google Scholar
Wang, B., Bouazza, A., Barry-Macaulay D., Singh M.R., Webster M., Haberfield C., Chapman G.; Field and Laboratory Investigation of Heat Exchanger Pile. GeoCongress 2012, Oakland, CA.; p.4396-440010.1061/9780784412121.452Search in Google Scholar
Kalantidou A., Tang A.M., Pereira J.-M., Hassen G.; Preliminary Study on the Mechanical Behaviour of Heat Exchanger Pile in Physical Model (Technical Note). Géotechnique Vol.62, No.11, 2012; p.1047-105110.1680/geot.11.T.013Search in Google Scholar
Yavari N., Tang A. M., Pereira J. M., Hassen G.; Experimental study on the mechanical behaviour of a heat exchanger pile using physical modelling. Acta Geotechnica Vol.9, No.3, 2014; p.385-39810.1007/s11440-014-0310-7Search in Google Scholar
Shin H., Jeon, J., Lee, S.; Numerical Study on Ground Heat Exchange System. Advances in Civil, Environmental and Materials Research (ACEM 14), Busan, South Korea, 2014Search in Google Scholar
Jeong S., Lim H., Lee J. K., Kim J.; Thermally induced mechanical response of energy piles in axially loaded pile groups. Applied Thermal Engineering, Vol.71, No.1, 2014; p.608-61510.1016/j.applthermaleng.2014.07.007Search in Google Scholar
Batini N., Loria A.F.R., Conti P., Testi D., Grassi W., Laloui, L.; Energy and geotechnical behaviour of energy piles for different design solutions. Applied Thermal Engineering, Vol.86, 2015; p.199-21310.1016/j.applthermaleng.2015.04.050Search in Google Scholar
Marto A., Amaludin A., Hatta Bin Satar M.; Experiments on Shallow Geothermal Energy model piles embedded in soft soil. Electronic Journal of Geotechnical Engineering, Vol.20, Bund. 25, 2015; p.12687-12698Search in Google Scholar
Bourne-Webb P.J., Amatya B., Soga K.; A framework for understanding energy pile behaviour. Proceedings of the ICE-Geotechnical Engineering, Vol.166, No.2, 2012; p.170-17710.1680/geng.10.00098Search in Google Scholar
Wawrzyńczyk B.; Analiza posadowienia pośredniego za pomocą fundamentów grzewczych budynku biurowego w Katowicach (The analysis of indirect foundation with energy foundations of an Office building in Katowice). Master thesis under the supervision of M. Jastrzębska, Faculty of Civil Engineering, The Silesian University of Technology, Gliwice 2014Search in Google Scholar
PN-EN 1991-1-1:2004/AC Eurokod 1: Oddziaływania na konstrukcje – Część 1-1: Oddziaływania ogólne – Ciężar objętościowy, ciężar własny, obciążenia użytkowe w budynkach (Eurocode 1: Actions on structures – Part 1-1: General actions – Densities, self-weight, imposed loads for buildings)Search in Google Scholar
PN-EN 1991-1-1: 2004 Ciężar objętościowy, ciężar własny, obciążenia użytkowe w budynkach (Densities, self-weight, imposed loads for buildings)Search in Google Scholar
PN-83 B-02482 Fundamenty budowlane. Nośność pali i fundamentów palowych (Building foundations. Piles and piles foundations capacity)Search in Google Scholar
PN-B-03264: 2002 Konstrukcje betonowe, żelbetowe i sprężone. Obliczenia statyczne i projektowanie (Concrete structures, reinforced and prestressed. Static calculations and designing)Search in Google Scholar
Puła O., Rybak C., Sarniak W.; Fundamentowanie. Projektowanie posadowień (Foundation. Foundations designing). Cz. Rybak (ed.), Dolnośląskie Wydawnictwo Edukacyjne, Wrocław 1999 (in Polish)Search in Google Scholar
PN-EN-1992-1-1: 2008 Reguły ogólne i reguły dla budynków (General rules and rules for buildings)Search in Google Scholar
Puła O.; Fundamenty palowe według Eurokodu 7 (Pile foundations according to Eurocode 7). Dolnośląskie Wydawnictwo Edukacyjne, Wrocław 2013 (in Polish)Search in Google Scholar
PN-EN 12831: 2006. Instalacje ogrzewcze w budynkach – Metoda obliczania projektowego obciążenia cieplnego (Heating systems in buildings – the method for calculating the design heat load)Search in Google Scholar