Year 2019,
Volume: 32 Issue: 2, 385 - 400, 01.06.2019
Omar Algburı
,
Figen Beyhan
References
- [1] International Energy Agency., The future of cooling opportunities for energy-efficient air conditioning, (2018), Retrieved from https://webstore.iea.org/download/direct/1036?filename=the_future_of_cooling.pdf[2] Radha, C., Sustainable renovation of residential buildings in subtropical climate zone. Doctoral dissertation, University of Pecs, 17-29, (2018).[3] Abbood, A., Al-Obaidi, K., Awang, H., & Abdul Rahman, A., Achieving energy efficiency through industrialized building system for residential buildings in Iraq, International Journal of Sustainable Built Environment, 4, 78-90, (2015).[4] Fathy, H., Shearer, W., & Sultan, A., Natural energy and vernacular architecture: Principles and Examples with Reference to Hot Arid Climates, Published for the United Nations University, Chicago: University of Chicago Press, 12–49, (1995).[5] Azami, A.,Yasrebi, S. & Salehipoor, A., Climatic responsive architecture in hot and dry regions of Iran, Presented at the 14th International conference on passive and low energy cooling for the built environment, Santorini, Greece. 19-21 May, (2005).http://www.inive.org/members_area/medias/pdf/Inive%5Cpalenc%5C2005%5CAzami.pdf [6] Anna-Maria, V., Evaluation of a sustainable Greek vernacular settlement and its landscape: Architectural typology and building physics, Building and Environment, 44, 1095-1106, (2009). [7] Dabaieh, M., Wanas, O., Hegazy, M. & Johansson., Reducing cooling demands in a hot dry climate: A simulation study for non-insulated passive cool roof thermal performance in residential buildings, Energy and Buildings, 89,142-152, (2015). [8] Santamouris, M. and Kolokotsa, D., Passive cooling dissipation techniques for buildings and other structures: The state of the art, Energy and Buildings, 57, 74-94, (2013).[9] Costanzo, V., Evola, G. and Marletta, L., Cool roofs for passive cooling: performance in different climates and for different insulation levels in Italy, Advances in Building Energy Research, 7,155-169, (2013).[10]Samani, P., Leal, V., Mendes, A., and Correia. N., Comparison of passive cooling techniques in improving thermal comfort of occupants of a pre-fabricated building, Energy and Buildings, 120, 30-44, (2017).[11]Borge-Diez, D., Colmenar-Santos, A., Pérez-Molina, C. & Castro-Gil, M. Passive climatization using a cool roof and natural ventilation for internally displaced persons in hot climates: Case study for Haiti. Building and Environment, 59,116-126, (2013).[12]Roaf, S. Ecohouse: A Design Guide, (fourth edition Eds.), London Routledge, (pp.63-98), (2013).[13]Cook, J., Passive cooling, The MIT Press, Cambridge, (1989).[14]Lechner, N. Heating, cooling, lighting sustainable design methods for architects 4 nd ed., John Wiley & Sons, Inc, New Jersey, 285-324, (2015).[15]Samuela, L., Shiva,S., and Maiyaa, M., Passive alternatives to mechanical air conditioning of building: A review, Building and Environment, 66, 54-64, (2013).[16]Geetha, N.B. &, Velraj, R., Passive cooling methods for energy efficient buildings with and without thermal energy storage: A review, Energy Science and Research, 29, 4-16, (2012).[17]Abdelsalam, T. and Rihan, G., The impact of sustainability trends on housing design identity of Arab cities, HBRC Journal, 9, 159-172, (2013). [18]Foruzanmehr, A. & Vellinga, M., Vernacular architecture: questions of comfort and practicability, Building Research & Information, 39, 274-285, (2011).[19]Di Turi, S., and Ruggiero, F., Re-interpretation of an ancient passive cooling strategy: a new system of wooden lattice openings, Energy Procedia, 126, 289-296, (2017).[20]Zhang, L., Luo, T., Meng, X., Wang, Y., Hou, C. & Long, E., Effect of the thermal insulation layer location on wall dynamic thermal response rate under the air-conditioning intermittent operation, Case Studies in Thermal Engineering, 10, 79-85, (2017).[21]Al-Sanea, S. Thermal performance of building roof elements. Building and Environment, 37, 665-675, (2002).[22]Friess, W., Rakhshan, K., Hendawi, T. & Tajerzadeh, S., Wall insulation measures for residential villas in Dubai: A case study in energy efficiency, Energy and Buildings, 44, 26-32, (2012).[23]Ozel, M. Effect of insulation location on dynamic heat-transfer characteristics of building external walls and optimization of insulation thickness. Energy and Buildings, 72, 288-295, (2014).[24]Al-Sanea, S. & Zedan, M., Improving thermal performance of building walls by optimizing insulation layer distribution and thickness for same thermal mass, Applied Energy, 88, 3113-3124, (2011).[25]Crawley, D. B., Lawrie, L. K., Winkelmann, F. C., Buhl, W. F., Huang, Y. J., Pedersen, C. O., & Glazer, J., EnergyPlus: creating a new-generation building energy simulation program. Energy and Buildings, 33, 319-331, (2001).[26]Fadhil, A. M. Drought mapping using Geoinformation technology for some sites in the Iraqi Kurdistan region. International Journal of Digital Earth, 4(3), 239-257, (2011).[27]Marchwiński, J. Architectural Evaluation of Switchable Glazing Technologies as Sun Protection Measure. Energy Procedia, 57, 1677-1686, (2014).[28]Bojić, M. and Yik, F. Cooling energy evaluation for high-rise residential buildings in Hong Kong. Energy and Buildings, 37(4), 345-35, (2005).
Cooling Load Reduction in a Single–Family House, an Energy–Efficient Approach
Year 2019,
Volume: 32 Issue: 2, 385 - 400, 01.06.2019
Omar Algburı
,
Figen Beyhan
Abstract
Energy depletion is considered one of the greatest challenges facing the planet. One way towards solving this challenge involves architectural adaptations to the local climate to decrease energy use. This study looks at the city of Erbil, located in northern Iraq. The city has seen rapid population growth that has resulted in an increased demand for housing. Unfortunately, most of the new houses are designed without considering the local climate conditions. As a result, people depend extensively on air conditioning systems that result in higher energy consumption. This study proposes implementing passive cooling techniques in residential buildings to decrease cooling energy consumption. Our methodology consisted of an energy simulation using the DesignBuilder program’s comparative thermal dynamic analysis. Using this simulation, we assessed the effects of passive cooling techniques on the reduction rate of cooling loads in an air-conditioned house. The simulation results illustrate that the proposed passive techniques lower the cooling load significantly, from 6997 kW/h to about 4461 kW/h during the peak-cooling load in July. This represents a 47.28% reduction of the total cooling load. The significance of this impact suggests that architects should be more mindful about utilizing passive cooling methods in residential buildings, reducing the consumption of energy for residents and prompt accomplishing environmental friendly buildings.
References
- [1] International Energy Agency., The future of cooling opportunities for energy-efficient air conditioning, (2018), Retrieved from https://webstore.iea.org/download/direct/1036?filename=the_future_of_cooling.pdf[2] Radha, C., Sustainable renovation of residential buildings in subtropical climate zone. Doctoral dissertation, University of Pecs, 17-29, (2018).[3] Abbood, A., Al-Obaidi, K., Awang, H., & Abdul Rahman, A., Achieving energy efficiency through industrialized building system for residential buildings in Iraq, International Journal of Sustainable Built Environment, 4, 78-90, (2015).[4] Fathy, H., Shearer, W., & Sultan, A., Natural energy and vernacular architecture: Principles and Examples with Reference to Hot Arid Climates, Published for the United Nations University, Chicago: University of Chicago Press, 12–49, (1995).[5] Azami, A.,Yasrebi, S. & Salehipoor, A., Climatic responsive architecture in hot and dry regions of Iran, Presented at the 14th International conference on passive and low energy cooling for the built environment, Santorini, Greece. 19-21 May, (2005).http://www.inive.org/members_area/medias/pdf/Inive%5Cpalenc%5C2005%5CAzami.pdf [6] Anna-Maria, V., Evaluation of a sustainable Greek vernacular settlement and its landscape: Architectural typology and building physics, Building and Environment, 44, 1095-1106, (2009). [7] Dabaieh, M., Wanas, O., Hegazy, M. & Johansson., Reducing cooling demands in a hot dry climate: A simulation study for non-insulated passive cool roof thermal performance in residential buildings, Energy and Buildings, 89,142-152, (2015). [8] Santamouris, M. and Kolokotsa, D., Passive cooling dissipation techniques for buildings and other structures: The state of the art, Energy and Buildings, 57, 74-94, (2013).[9] Costanzo, V., Evola, G. and Marletta, L., Cool roofs for passive cooling: performance in different climates and for different insulation levels in Italy, Advances in Building Energy Research, 7,155-169, (2013).[10]Samani, P., Leal, V., Mendes, A., and Correia. N., Comparison of passive cooling techniques in improving thermal comfort of occupants of a pre-fabricated building, Energy and Buildings, 120, 30-44, (2017).[11]Borge-Diez, D., Colmenar-Santos, A., Pérez-Molina, C. & Castro-Gil, M. Passive climatization using a cool roof and natural ventilation for internally displaced persons in hot climates: Case study for Haiti. Building and Environment, 59,116-126, (2013).[12]Roaf, S. Ecohouse: A Design Guide, (fourth edition Eds.), London Routledge, (pp.63-98), (2013).[13]Cook, J., Passive cooling, The MIT Press, Cambridge, (1989).[14]Lechner, N. Heating, cooling, lighting sustainable design methods for architects 4 nd ed., John Wiley & Sons, Inc, New Jersey, 285-324, (2015).[15]Samuela, L., Shiva,S., and Maiyaa, M., Passive alternatives to mechanical air conditioning of building: A review, Building and Environment, 66, 54-64, (2013).[16]Geetha, N.B. &, Velraj, R., Passive cooling methods for energy efficient buildings with and without thermal energy storage: A review, Energy Science and Research, 29, 4-16, (2012).[17]Abdelsalam, T. and Rihan, G., The impact of sustainability trends on housing design identity of Arab cities, HBRC Journal, 9, 159-172, (2013). [18]Foruzanmehr, A. & Vellinga, M., Vernacular architecture: questions of comfort and practicability, Building Research & Information, 39, 274-285, (2011).[19]Di Turi, S., and Ruggiero, F., Re-interpretation of an ancient passive cooling strategy: a new system of wooden lattice openings, Energy Procedia, 126, 289-296, (2017).[20]Zhang, L., Luo, T., Meng, X., Wang, Y., Hou, C. & Long, E., Effect of the thermal insulation layer location on wall dynamic thermal response rate under the air-conditioning intermittent operation, Case Studies in Thermal Engineering, 10, 79-85, (2017).[21]Al-Sanea, S. Thermal performance of building roof elements. Building and Environment, 37, 665-675, (2002).[22]Friess, W., Rakhshan, K., Hendawi, T. & Tajerzadeh, S., Wall insulation measures for residential villas in Dubai: A case study in energy efficiency, Energy and Buildings, 44, 26-32, (2012).[23]Ozel, M. Effect of insulation location on dynamic heat-transfer characteristics of building external walls and optimization of insulation thickness. Energy and Buildings, 72, 288-295, (2014).[24]Al-Sanea, S. & Zedan, M., Improving thermal performance of building walls by optimizing insulation layer distribution and thickness for same thermal mass, Applied Energy, 88, 3113-3124, (2011).[25]Crawley, D. B., Lawrie, L. K., Winkelmann, F. C., Buhl, W. F., Huang, Y. J., Pedersen, C. O., & Glazer, J., EnergyPlus: creating a new-generation building energy simulation program. Energy and Buildings, 33, 319-331, (2001).[26]Fadhil, A. M. Drought mapping using Geoinformation technology for some sites in the Iraqi Kurdistan region. International Journal of Digital Earth, 4(3), 239-257, (2011).[27]Marchwiński, J. Architectural Evaluation of Switchable Glazing Technologies as Sun Protection Measure. Energy Procedia, 57, 1677-1686, (2014).[28]Bojić, M. and Yik, F. Cooling energy evaluation for high-rise residential buildings in Hong Kong. Energy and Buildings, 37(4), 345-35, (2005).