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200 10$aThermoactive foundations for sustainable buildings /$fJohn Scott McCartney, Moncef Krarti, Byung Chang Kwag, Abdelmalek Bouazza, Rao Martand Singh, Mohammed Faizal
210  1$aNew York, [New York] (222 East 46th Street, New York, NY 10017) :$cMomentum Press,$d2015.
215   $a1 online resource (x, 121 pages) $cillustrations
225 1 $aTechnologies for sustainable life
300   $aCo-published with American Society of Mechanical Engineers.
311   $a1-60650-885-7 
320   $aIncludes bibliographical references and index.
327   $a1. Structural performance of thermo-active foundations -- 1.1 Introduction -- 1.2 Thermo-elastic soil-structure interaction -- 1.3 Design criteria -- 1.4 Thermo-mechanical load transfer analysis -- 1.4.1 Assumptions and basic aspects of the model -- 1.4.2 Load-transfer curves -- 1.4.3 Mechanical load transfer analysis -- 1.4.4 Thermo-mechanical T-z analyses -- 1.4.5 Model evaluation: impact of temperature changes -- 1.4.6 Model evaluation: impact of boundary conditions -- 1.4.7 Model evaluation: head restraint effects -- 1.4.8 Results from thermo-active foundations -- 1.5 Final comments -- 1.6 Acknowledgments -- 1.7 References -- 
327   $a2. Thermal analysis of thermoactive foundations -- 2.1 Introduction -- 2.2 Thermal modeling of TAFs -- 2.2.1 Description of TAF thermal modeling -- 2.2.2 Experimental validation -- 2.2.3 Sensitivity analysis -- 2.2.4 Impact of thermal piles on soil temperature distribution -- 2.3 Building foundation heat transfer -- 2.4 Thermal response of TAFs -- 2.5 Energy analysis of buildings with TAF systems -- 2.5.1 Application of TAFs for office buildings -- 2.5.2 Application of TAFs to residential buildings -- 2.6 Summary and conclusions -- 2.7 References -- 
327   $a3. Full scale geothermal energy pile studies at Monash University, Melbourne, Australia -- 3.1 Introduction -- 3.2 Site ground conditions -- 3.3 Instrumentation of full-scale geothermal energy piles -- 3.3.1 Single geothermal energy pile instrumentation -- 3.3.2 Instrumentation of group of geothermal energy piles -- 3.4 Heating test for single pile case -- 3.5 Mechanical tests -- 3.6 Dual pile system -- 3.6.1 Concrete curing temperature -- 3.6.2 Strains during concrete curing -- 3.7 Conclusions -- 3.8 Acknowledgments -- 3.9 References -- About the authors.
330 3 $aThis monograph documents the current of state-of-art in Thermo- Active Foundations (TAFs) suitable for efficiently and sustainably heat and cooling buildings. TAFs, also referred to as thermal or energy piles, offer innovative and sustainable alternatives to ground-source heat pumps as well as other conventional heating, ventilating, and air conditioning (HVAC) systems to heat and cool commercial as well as residential buildings in several regions in the world. In summary, this monograph collects the latest multi-disciplinary advances in modeling, designing, and monitoring TAFs. Ultimately, it is hoped that this monograph will provide a comprehensive reference for both researchers and professionals interested in structural and thermal performance of TAFs and their applications in developing integrated and sustainable equipment and systems for the built environment.
410  0$aTechnologies for sustainable life.
606   $aGeothermal space heating
606   $aFoundations
606   $aThermopiles
606   $aBuildings$xThermal properties
606   $aSustainable buildings
608   $aLibros electronicos.
615  0$aGeothermal space heating.
615  0$aFoundations.
615  0$aThermopiles.
615  0$aBuildings$xThermal properties.
615  0$aSustainable buildings.
676   $a697.7
700   $aMcCartney$b John Scott$f1979-,$0881510
702   $aKrarti$b Moncef.
702   $aKwag$b Byung Chang.
702   $aBouazza$b Abdelmalek.
702   $aSingh$b Rao Martand.
702   $aFaizal$b Mohammed.
801  0$bFINmELB
801  1$bFINmELB
906   $aBOOK
912   $a9910460888403321
996   $aThermoactive foundations for sustainable buildings$91968679
997   $aUNINA

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300   $aErrata on p. [8] at beginning.
300   $aImperfect: p. 132-133 lacking.
300   $aAdvertisement: p. [4] at end.
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