References
- Bekir Topçu, I., & Uygunoğlu, T. (2010). Effect of aggregate type on properties of hardened self-consolidating lightweight concrete (SCLC). Construction and Building Materials, 24, 1286–1295.
- Bilgen, E., & Richard, M.-A. (2001). Horizontal concrete slabs as passive solar collectors. Solar Energy, 72, 405–413.
- Borge, D., Colmenar, A., Castro, M., Martín, S., & Sancristobal, E. (2011). Exergy efficiency analysis in buildings climatized with LiCl–H2O solar cooling systems that use swimming pools as heat sinks. Energy and Buildings, 43, 3161–3172.
- Bloques Monserrat. 2010. « www.bloquesmonserrat.com », Retrieved February 12, 2013, from http://www.bloquesmontserrat.com/tecnicas/tecni.htm
- Chiasson, A. D. (1999). Advances in modelling of ground source heat pump systems. Stillwater, OK: Oklahoma State University.
- Chiasson, A. D., Spitler, J. D., Rees, S. J., & Smith, M. D. (2000). Model for simulating the performance of a shallow pond as a supplemental heat rejecter with closed-loop ground-source heat pump systems. ASHRAE Transactions, 106, 107–121.
- Creus Solé, A. (2008). Energía geotérmica de baja temperatura [Low temperature geothermal energy] (1st ed.). Murcia: Ceysa editorial técnica.
- Danosa. 2006. “www.danosa.com”, Technical data actualized on September 2006. Retrieved Febuary 22, 2013, from http://portal.danosa.com/danosa/CMSServlet?node=710421
- Florides, G., & Kalogirou, S. (2007). Ground heat exchangers – A review of systems, models and applications. Renewable Energy, 32, 2461–2478.
- Gui, J. G., Phelan, P. E., Kaloush, K. E., & Golden, J. S. (2007). Impact of pavement thermophysical properties on surface temperatures. Journal of Materials in Civil Engineering, 9, 683–690.
- Holman, J. P. (1999). Transferencia de calor [Heat transfer] (8th ed.). Madrid: Mc Graw hill.
- Incropera, F. P., DeWitt, D. P., Bergman, T. L., & Lavine, S. (2007). Fundamentals of heat and mass transfer. Hoboken, NJ: Wiley.
- Mustafa Omer, A. (2008). Ground-source heat pumps systems and applications. Renewable and Sustainable Energy Reviews, 12, 344–371.
- Novo, A. V., Bayon, J. R., Castro-Fresno, D., & Rodriguez-Hernandez, J. (2010). Review of seasonal heat storage in large basins: Water tanks and gravel-water pits. Applied Energy, 87, 390–397.
- Omer, A. M. (2008). Energy, environment and sustainable development. Renewable and Sustainable Energy Reviews, 12, 2265–2300.
- Phetteplace, G. (2007). Geothermal heat pumps. Journal of Energy Engineering, 133, 32–38.
- Starke, P., Göbel, P., & Coldewey, W. G. (2010). Urban evaporation rates for water-permeable pavements. Water Science and Technology, 62, 1161–1169.
- Starke, P., Göbel, P., & Coldewey, W. G. (2011a). Effects on evaporation rates from different water-permeable pavement designs. Water Science and Technology, 63, 2619–2627.
- Starke, P., Wallmeyer, C., Rölver, S., Göbel, P., & Coldewey, W. G. (2011b). Development of a new laboratory evaporation measurement device as decision support for evaporation-optimized building. Building and Environment, 46, 2552–2561.
- Stempinhar, J. J., Pourshams-Manzouri, T., Kaloush, K. E., & Rodezno, M. C. (2012). Porous asphalt pavement temperature effect for urban heat island analysis. Transportation Research Record: Journal of the Transportation Research Board, 2293, 123–130.
- Tota-Maharaj, K. (2010). Geothermal paving systems for urban runoff treatment and renewable energy efficiency. Edinburgh: University of Edinburgh.
- Tota-Maharaj, K., Grabowiecki, P., & Scholz, M. (2010a). Energy and temperature performance analysis of geothermal (ground source) heat pumps integrated with permeable pavement systems for urban run-off reuse. International Journal of Sustainable Engineering, 2, 201–213.
- Tota-Maharaj, K., & Scholz, M. (2010). Efficiency of permeable pavement systems for the removal of urban runoff pollutants under varying environmental conditions. Environmental Progress & Sustainable Energy, 29, 358–369.
- Tota-Maharaj, K., Scholz, M., Ahmed, T., French, C., & Pagaling, E. (2010b). The synergy of permeable pavements and geothermal heat pumps for stormwater treatment and reuse. Environmental Technology, 31, 1517–1531.
- Tota-Maharaj, K., Scholz, M., & Coupe, S. J. (2011). Modelling temperature and energy balances within geothermal paving systems. Road Materials and Pavement Design, 12, 315–344.
- UNE EN 13108-7:2007 (2007). Mezclas Bituminosas – Especificaciones de Materiales - Mezclas Bituminosas drenantes [Bituminous mixtures – Material specifications – Porous asphalt]. Part seven, pp. 1–2.
- Weiβ, J., Werner, J., & Sulman, P. (2002). Erfahrungen mit dem Tunnel-Verdunstungsmesser beim Einsatz auf Grünflächen [Experiences with the tunnel evaporation gauge by its use on green roofs]. Hydrologie und Wasserbewirtschaftung, 46, 202–207.
- Werner, J. (2000). Die Erprobung einer Messanordnung zur Verdunstungsbestimmung an Grünland [Evaporation measurements on grassland – A test of a new measurement setup]. Hydrologie und Wasserbewirtschaftung, 44, 64–69.