Ahern J. 1980. The exergy Method of Energy system Analysis. Wiley-Interscience Publication, John Wiley and Sons, New York.
Annex 37. 2002. International Energy Agency – Low Exergy heating and Cooling of Buildings – Annex 37, Web Homepage, http://www.vtt.fi/rte/projects/annex37/Index.htm.
Asada, H. and Takeda, H. 2002. ‘Thermal environment and exergy analysis of a ceiling radiant cooling system, Proceedings of Sustainable Buildings 2002, International Conference, No. 561, Oslo, Norway, 23-25 September, 2002.
Asada, H., and Shukuya, M. 1999. ‘Numerical Analysis of Annual Exergy Consumption for Daylighting, Electric-Lighting, and Space Heating/Cooling System’, Sixth International IBPSA Conference (BS’99), Kyoto Japan, pp. 121-127.
Cornelissen R.L. 1997. Thermodynamics and Sustainable Development – The Use of Exergy Analysis and the Reduction of Irreversibilities. PhD Thesis. University of Twente, The Netherlands. ISBN 90 365 1053 8
Cox, C. W. J., Oldengarm, J. and Koppers, J. M. 1993. Binnenklimaatmetingen in een zestal Ecolonia woningen in de winterperiode. Delft, NL.
Dijk, H. A. L. van, Bruchem, L. van and Wolveren, J. van. 1998. Voorstudie naar de effecten en het gedrag van Laag Temperatuur Systemen. Delft, NL.
DIN 4701-10. 2001. Energy Efficiency of Heating and Ventilation Systems in Buildings – Part 10: Heating, Domestic hot Water, Ventilation. German national Standard. Berlin: Deutsches Institut für Normung e.V.
Dongen, J. E. F. van. 1985. Ervaringen en gedrag van bewoners in woningen met verschillende verwarmingssystemen: Onderzoek in het demonstratieproject Westenholte te Zwolle. Leiden, NL
ECBCS 2002. Energy Conservation in Buildings and Community Service Programme. International Energy Agency. Web Homepage: http://www.ecbcs.org
Eijdems, H. H. E. W. and Boerstra, A. C. 1999. Kwalitatieve aspecten van lage temperatuur warmte-afgifte systemen, Cauberg-Huygen and BBA. Amsterdam, NL.
Eijdems, H. H. E. W., Op’t Veld, P. and Boerstra, A. C. 2000.Literature review: Side effects of Low Exergy emission systems. Working report of Annex 37.
Erhorn, H. and Szerman, M. 1988. Arrangement of space heating surfaces and resulting effects on thermal comfort and heat losses, Proceedings Healthy Buildings ’88, Vol. 2, pp. 403.
Fang, L. and Fanger, P. O. 1997. Impact of temperature and humidity on acceptability of indoor air quality during immediate and longer whole-body exposure, Proceedings Healthy Buildings ’97, Vol 2, pp. 231.
Fort, K. 1995. Dynamisches Verhalten von Fussbodenheizsystemen, Proceedings Velta Congress ‘95, Tirol.
Isawa, K., Komizo, T. and Shukuya, M. 2002. Low Exergy Systems will provide us with the Lowest Human-Body Exergy Consumption and Thermal Comfort. IEA-ECBCS-Annex 37, Low Exergy Systems for Heating and Cooling of Buildings, Lowex News, No. 5, pp. 5-6.
ISSO. 1985. publicatie 10, 2e druk. Vloerverwarming. ISSO Rotterdam, NL.
Jenni J. and Hawkins A. 2002. Der Unterschied zwischen Temperatur und Energie – Oder was kann mit exergiegerechter Speicherladung und –entladung erreicht werden? HeizungKlima, Switzerland, Vol. 29, No. 3, pp. 8-11.
Lengweiler, P., Nielsen, P. V., Moser, A., et al. 1997. Deposition and resuspension of Particles, Proceedings Healthy Buildings ’97, Vol 1, pp. 501.
Maas A., Hauser G. and Höttges K. 2002. Die Energieeinsparverordnung. Bauphysik, Publisher Ernst & Sohn, Germany, Vol. 24, No. 1, pp. 26-38.
Mølhave, L. 1996. Huisstof gaat in je lichaam zitten. Arhus, Denmark. In Janus nr. 24( Originele publicatie: Huisstof en binnenhuisklimaat).
Moran M.J. 1989. Availability Analysis – a Guide to Efficient Energy use. Corrected Edition. ASME Press, New York.
Moran M.J. and Shapiro H.N. 1998. Fundamentals of Engineering Thermodynamics. 3rd Edition, John Wiley & Sons, New York, USA. 814 p. ISBN 0-471-97960-0
Nishikawa, R. and Shukuya, M. 1999. ‘Numerical Analysis on the Production of Cool Exergy by Making Use of Heat Capacity of Building Envelopes’, Sixth International IBPSA Conference (BS’99), Kyoto Japan, pp. 129-135.
NRC, 1997. Model National Energy Code of Canada for Buildings, National Research Council of Canada.
Olesen, B. W., Mortensen, E, Thorshauge, J and Berg-Munch, B. 1980. Thermal Comfort in a room heated by different methods, ASHRAE Transactions. Vol. 86 (1), Nr. 18.
Olesen, B. W. 1997. Flächenheizung und Kühlung; Einsatzbereiche fur Fussboden-, Wand- und Deckensysteme, Proceedings Velta Congress ’97, pp. 35. Norderstedt, Germany.
Olesen, B. W. 1998. Heizsysteme - Komfort und Energieverbrauch, Proceedings Velta Congress ’98, Norderstedt, Germany. pp. 93.
Peng, S. 1996. Investigation of draught due to cold window in a climate chamber, Proceedings Indoor Air ’96, Vol. 1, pp. 245.
Poel, A. and Eijdems, H. H. E. W. 1991. Transparante isolatiematerialen en oververhitting. In Bouwfysica, Vol. 2 (1).
Saito, M. and Shukuya, M. 2001. The Human Body consumes Exergy for Thermal Comfort. IEA-ECBCS-Annex 37, Low Exergy Systems for Heating and Cooling of Buildings, Lowex News, No. 2, pp. 6-7.
Saito, M. and Shukuya, M. 1998. ‘Numerical Analysis of Exergy Balance of a Leaf’, Journal of Architectural Planning and Environmental Engineering, Architectural Institute of Japan, No. 505, pp. 51-58 (in Japanese with English abstract).
Saito, M. and Shukuya, M. 2000. ‘Exergy Balance of Human Body and Thermal Comfort’, Journal of Architectural Planning and Environmental Engineering, Architectural Institute of Japan, No. 535, pp. 17-23 (in Japanese with English abstract).
Sammaljarvi, E. 1998. Heating, indoor dusts, stuffiness and room space electricity as health and well-being risks, Proceedings Healthy Buildings ’88, Vol. 3, pp. 697.
Schata, M., Elixman, J. H. and Jorde, W. 1990. Evidence of
heating systems in controlling house-dust mites and moulds in the indoor environment,
Proceedings Indoor Air ’90,
Vol. 4, pp. 577.
Schmidt, D. 2001. Models for Coupled Heat and Mass Transfer Processes in Buildings – Applications to Achieve Low Exergy Room Conditioning. Tekn. Lic. Thesis. ISRN KTH-BYT/R-01/185-SE, KTH. Stockholm, Sweden.
Schmidt, D. 2004. Design of Low Exergy Buildings - Method and a Pre-Design Tool. International Journal of Low Energy and Sustainable Buildings, Vol. 3, 2003.
Schrödinger, E. 1945. ‘What is Life?’, Cambridge, (reprinted in 1967).
Shukuya, M. and Hammache, A. 2002. Introduction to the concept of Exergy – for a better understanding of low-temperature-heating and high-temperature-cooling systems. Espoo. Technical Research Centre of Finland. VTT Research Notes, 2158, 41 p. + app. 17 p., ISBN 951-38-6074-4
Shukuya, M. and Komuro, D. 1996. ‘Exergy-Entropy Process of Passive Solar Heating and Global Environmental Systems’, Solar Energy, Vol. 58, No. 1-3, pp. 25-32.
Shukuya, M. 1994. ‘Energy, Entropy, Exergy and Space Heating Systems’, Proceedings of the 3rd International Conference "Healthy Buildings ’94", Vol. 1, pp. 369-374.
Shukuya, M. 1996. ‘Warm exergy and cool exergy’, Proceedings of Annual Meeting, Building Science Section, Architectural Institute of Japan, pp. 453-454 (in Japanese).
Shukuya, M. 1998. ‘Bio-climatic Design as Rational Design of Exergy-Entropy Process’, Proceedings of Passive and Low Energy Architecture (PLEA) ’98, Lisboa, Portugal, pp. 321-324.
Shukuya, M. 2000. ‘Design with Natural Potentials’, Sustainable Architecture in Japan: The Green Buildings of Nikken Sekkei, Wiley-Academy, pp. 140-144.
Silvester, Sacha; de Vries, Ger and Op’t Veld, Peter. 2000. Occupants’ experiences in dwellings with differents LT heating systems. Internal report of IEA ECBCS Annex 37, 17 p.
Simonson C. J. and Guy M. 2002. Project Description of 421 Downey Road Building for IEA/ECBCS Annex 37.
Skov, P. and Valbjorn, O. 1990. The Danish Town Hall Study: a 1-year follow up, Proceedings Indoor air ’90, pp. 787.
Takahashi, I. and Shukuya, M. 1998. ‘An Experimental Study on the Effect of Thermal Insulation on Fermentation Process in Residential Composting Tanks’, Journal of Architectural Planning and Environmental Engineering, Architectural Institute of Japan, No. 503, pp. 25-32 (in Japanese with English abstract).
Takahashi, I., Kondo, D., Isawa, K. and Shukuya, M. 2000. ‘Calculation of Radiant Exergy’, Proceedings of Annual Meeting, Building Science Section, Architectural Institute of Japan, pp. 487-488 (in Japanese).
Theuss, Th., Bischof, W,, Banhidi, L. and Csoknai, I. 1994. Impact of floor temperature on feet microflora; a pilot study, Proceedings Healthy Buildings ’94, Vol. 2, pp. 787.
van Bruchem, Leurens and Op’t Veld, Peter. 2000. Market analyses; Format for market analyses and market analyses of Low Temperature Heating Systems for residential buildings in the Netherlands. Working report of IEA ECBCS Annex 37.
Wall, G. 1986. Exergy – a Useful Concept. PhD Thesis. Chalmers University of Technology Gothenburg, Sweden.
Zirngibl, J. and Francois, C. 2002. Exergy Analysis Tool, Various Contributions. Internal working documents IEA Annex 37. CSTB, Paris, France.
Zöllner, G, et al. 1985. Wärme-abgabe; wärmetechnische prüfung und auslegung von warmwasser-fussbodenheizungen, Proceedings Clima 2000, Summaries and author index, Vol. 7, pp. 341.