Redirigiendo al acceso original de articulo en 17 segundos...
Inicio  /  Buildings  /  Vol: 12 Par: 9 (2022)  /  Artículo
ARTÍCULO
TITULO

Embodied and Operational Energy of a Case Study Villa in UAE with Sensitivity Analysis

Abdul Rauf    
Daniel Efurosibina Attoye and Robert Crawford    

Resumen

Extensive focus on operational energy research has positively impacted both academia and policymakers, facilitating new strategies that reduce the energy consumed by building occupants. Much less emphasis has, however, been given to embodied energy. Consequently, although studies now show that embodied energy can be responsible for up to 50% of a building?s life cycle energy, little is known about the embodied energy associated with the construction of buildings, materials, and components in the study context. The aim of this study is to investigate the current scenario in the United Arab Emirates (UAE) by calculating the embodied energy of a residential villa, and estimating the initial, recurrent, and demolition and disposal embodied energies over a 50-year building life span. A detailed assessment of the embodied energy associated with the construction of the case study villa was carried out using an input?output hybrid approach, followed by a sensitivity analysis focused on variations related to the energy associated and consumed, as well as the adoption of renewable energy sources. The findings show that the initial embodied energy was 57% of the life cycle embodied energy and 19% of the life cycle energy of the villa while the recurrent embodied energy was 43% of the life cycle embodied energy and 14% of the life cycle energy of the villa. The life cycle embodied energy of the villa, over a 50-year life span was 36% of the life cycle energy. This paper also highlights the impact of adding a solar PV system and lists multiple areas for future studies related to embodied energy and its benefit to stakeholders in the building industry.

 Artículos similares

       
 
Damilola Ekundayo, Solomon Olusola Babatunde, Aisha Ekundayo, Srinath Perera, Chika Udeaja    
Life cycle carbon emissions (LCO2), made up of operational and embodied carbon, have become a major metric of building environmental performance and energy efficiency. Whilst there are now standard methods for operational carbon assessment due to its sig... ver más

 
Nadia MIRABELLA, Martin RÖCK, Marcella Ruschi Mendes SAADE, Carolin SPIRINCKX, Marc BOSMANS, Karen ALLACKER and Alexander PASSER    
Globally, the building sector is responsible for more than 40% of energy use and it contributes approximately 30% of the global Greenhouse Gas (GHG) emissions. This high contribution stimulates research and policies to reduce the operational energy use a... ver más
Revista: Buildings

 
James Peeling, Matthew Wayman, Isabela Mocanu, Philippe Nitsche, ... John Potter     Pág. 1472 - 1481
In terms of both construction and operation, tunnels are the most energy demanding of road infrastructure assets. The construction of a road tunnel is energy intensive due to the volume of excavation required and the energy embodied in the materials that... ver más

 
Juan Pablo Cárdenas, Edmundo Muñoz, Cristian Riquelme, Francisco Hidalgo     Pág. Page 33 - 38
As environmental issues become increasingly important, the buildings have focused on energy efficiency and energy needed for the construction and production of material. This research shows a simplified life cycle analysis study of operational and embodi... ver más

 
Paressa Loussos, Thaleia Konstantinou, Andy Van den Dobbelsteen and Regina Bokel    
The existing building stock has been in the focus of European Union policies for energy savings. Nevertheless, energy certification schemes refer mostly to operational energy and usually do not consider aspects related to the life cycle of the building. ... ver más
Revista: Buildings