Year 2016,
Volume: 1 Issue: 2, 56 - 64, 01.04.2016
Abstract
Life span is an important variable in Life Cycle Assessment of buildings. The aim of this study is to make the Life Cycle Assessment (LCA) analysis of containers and to investigate the relationship between life span and consumed energy with CO2 emission values. The proposed model in the study focused on the construction phase of the containers to estimate total energy use and CO2 emissions for different life span years. Life span years are chosen between 5-40 years interval. Energy efficiency and emission parameters are defined for the construction per square meter. It is found that energy and emission values are decreasing with the increase of life span years in container type houses
References
- Adalberth K (1997) Energy use during the life cycle of buildings: a method. Building and Environment 32 (4): 317–320.
- AFAD (2012) Republic of Turkey Prime Ministry Disaster and Emergency Management Presidency 2013-2017 Strategic Plan AFAD Publication from https://www.afad.gov.tr/upload/Node/2584/files/Afad_Strtjk_web_en_son.pd f.
- Arslan H (2007) Re-design, re-use and recycle of temporary houses. Building and Environment 42: 400-406.
- Atmaca A and Atmaca N (2015) Life cycle energy (LCEA) and carbon dioxide emissions (LCCO2A) assessment of two residential buildings in Gaziantep, Turkey. Energy and Buildings 102: 417-431.
- Atmaca N (2016) Life cycle assessment of post-disaster temporary housings in Turkey. Building Research& Information, http://dx.doi.org/10.1080/09613218.2015.1127116.
- Bastos J, Batterman SA and Freire F (2014) Life-cycle energy and greenhouse gas analysis of three building types in a residential area in Lisbon. Energy and Buildings 69: 344–353.
- Buyle M,Braet J and Audenaert A (2013)Life cycle assessment in the construction sector: a review. Renewable& Sustainable Energy Reviews 26: 379–88. Fay R, Treloar G and Iyer-Raniga U (2000) Life-cycle energy analysis of buildings: a case study. Building Research and Information 28 (1): 31–41
- Hammond G and Jones C(2008) Inventory of Carbon and Energy, Version 1.6 Sustainable Energy Research Team (SERT), Department of Mechanical Engineering, University of Bath, UK.
- Hammond G and Jones C(2011). Inventory of Carbon and Energy, Version 2.0 Sustainable Energy Research Team (SERT), Department of Mechanical Engineering, University of Bath, UK.
Year 2016,
Volume: 1 Issue: 2, 56 - 64, 01.04.2016
Abstract
References
- Adalberth K (1997) Energy use during the life cycle of buildings: a method. Building and Environment 32 (4): 317–320.
- AFAD (2012) Republic of Turkey Prime Ministry Disaster and Emergency Management Presidency 2013-2017 Strategic Plan AFAD Publication from https://www.afad.gov.tr/upload/Node/2584/files/Afad_Strtjk_web_en_son.pd f.
- Arslan H (2007) Re-design, re-use and recycle of temporary houses. Building and Environment 42: 400-406.
- Atmaca A and Atmaca N (2015) Life cycle energy (LCEA) and carbon dioxide emissions (LCCO2A) assessment of two residential buildings in Gaziantep, Turkey. Energy and Buildings 102: 417-431.
- Atmaca N (2016) Life cycle assessment of post-disaster temporary housings in Turkey. Building Research& Information, http://dx.doi.org/10.1080/09613218.2015.1127116.
- Bastos J, Batterman SA and Freire F (2014) Life-cycle energy and greenhouse gas analysis of three building types in a residential area in Lisbon. Energy and Buildings 69: 344–353.
- Buyle M,Braet J and Audenaert A (2013)Life cycle assessment in the construction sector: a review. Renewable& Sustainable Energy Reviews 26: 379–88. Fay R, Treloar G and Iyer-Raniga U (2000) Life-cycle energy analysis of buildings: a case study. Building Research and Information 28 (1): 31–41
- Hammond G and Jones C(2008) Inventory of Carbon and Energy, Version 1.6 Sustainable Energy Research Team (SERT), Department of Mechanical Engineering, University of Bath, UK.
- Hammond G and Jones C(2011). Inventory of Carbon and Energy, Version 2.0 Sustainable Energy Research Team (SERT), Department of Mechanical Engineering, University of Bath, UK.
There are 9 citations in total.
Details
| Primary Language | English |
|---|---|
| Journal Section | Research Article |
| Authors | |
| Publication Date | April 1, 2016 |
| Published in Issue | Year 2016 Volume: 1 Issue: 2 |
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