[1] Welstand J.S., Haskew H.H., Gunst R.F., Bevilacqua O.M.: Evaluation of the effects of air conditioning operation and associated environmental conditions on vehicle emissions and fuel economy. SAE Tech. Pap. (2003), 2003-01-2247.
[2] Lambert M.A., Jones B.J.: Automotive adsorption air conditioner powered by exhaust heat. Part 1: Conceptual and embodiment design. P.I. Mech. Eng. D-J. Aut. Eng. Vol. 220(2006), 7, 959–972.
[3] Johnson V.H.: Fuel used for vehicle air conditioning: A state-by-state thermal comfort-based approach. SAE Tech. Pap. (2002), 2002-01-1957.
[4] Fayazbakhsh M., Bahrami M.: Comprehensive modeling of vehicle air conditioning loads using heat balance method. SAE Tech. Pap. (2013), 2013-01-1507.
[5] Zevenhoven R., Fält M.: Radiative cooling through the atmospheric window: A third, less intrusive geoengineering approach. Energy 152(2018), 27–33.
[6] Zevenhoven R., Fält M., Gomes L.P.: Thermal radiation heat transfer: Including wavelength dependence into modelling. Int. J. Therm. Sci. 86(2014), 189–197.
[7] Fält M., Pettersson F.: Modified predator-prey algorithm approach to designing a cooling or insulating skylight. Build. Environ. 126(2017), 331-338.
[8] Fält M.: The utilisation of participating gases and long-wave thermal radiation in a passive cooling skylight. PhD thesis. Åbo Akademi, Turku 2016.
[9] Kuczynski P., Białecki R.: Radiation heat transfer model using Monte Carlo ray tracing method on hierarchical ortho-Cartesian meshes and non-uniform rational basis spline surfaces for description of boundaries. Arch. Thermodyn. 35(2014), 2, 65–92.
[10] Hanjalic K., Kenjereš S., Tummers M.J., Jonker H.J.J.: Analysis and Modelling of Physical Transport Phenomena. VSSD, Delft 2009.
[11] Bielinski H., Mikielewicz J.: Computer cooling using a two phase minichannel thermosyphon loop heated from horizontal and vertical sides and cooled from vertical side. Arch. Thermodyn. 31(2010), 4, 51–59.
[12]
www.comsol.fi (accessed 20 June 2020).
[13]
https://www.ansys.com/products/fluids/ansys-fluent (accessed 20 June 2020).
[14] Finnish Meteorological Institute. Weather and sea / Local weather.
https://en.ilmatieteenlaitos.fi/weather/turku (accessed 2 Aug. 2018).
[15] Zevenhoven R., Fält M.: Heat flow control and energy recovery using carbon dioxide in double glass arrangements. In: Proc. ASME 2010 4th Int. Conf. on Energy Sustainability, Volume 2. Phoenix, May 17-22, 2010, 201–206 (ES2010-90189).
[16] Cucumo M., De Rosa A., Marinelli V.: Experimental testing of correlations to calculate the atmospheric “transparency window” emissivity coefficient. Sol. Energy 80(2006), 8, 1031–1038.
[17] Meinel A.B., Meinel M.P.: Applied Solar Energy. An Introduction. Addison- Wesley, 1977.
[18] Opto-Technological Laboratory (LLC Opto-TL). Zinc Sulfide ZnS Cleartran
https://optotl.com/upload/pdf_en/zns_cleartnan.pdf (accessed 20 June 2020).
[19]
https://www.afs.enea.it/project/neptunius/docs/fluent/html/th/node115.htm (accessed 17 Aug. 2020).
[20] Siegel R. Howell J.R.: Thermal Radiation Heattransfer (3rd Edn.). Hemisphere, Washington, DC 1992.