How life cycle assessment is key to reducing carbon emissions in architectural development: Circular economy and regenerative design

Hooman Dehvari; Melika Sahamiyan Moghaddam

How life cycle assessment is key to reducing carbon emissions in architectural development: Circular economy and regenerative design

Publish place: Energy Equipment and Systems، Vol: 11، Issue: 4

Publish Year: 1402

نوع سند: مقاله ژورنالی

زبان: English

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https://civilica.com/doc/2030772

شناسه ملی سند علمی:

JR_EES-11-4_003

تاریخ نمایه سازی: 31 تیر 1403

Abstract:

In line with population growth and construction, the use of natural resources is increasing, which causes harm to nature, increases greenhouse gas emissions and global warming. As a result, the question arises whether architectural progress, in addition to energy optimization, has paid attention to issues related to building sustainability. In fact, the present research aims to evaluate the differences in energy consumption and compare life cycle assessment (LCA) in the context of the effects of architectural progress with the approach of creating sustainability in architecture. The results showed that architectural development in buildings has reduced CO۲e carbon emissions in the energy sector by ۱.۳ times. However, the sector related to the materials of the modern house is almost ۳.۵ times more effective on the global warming potential (GWP) than the vernacular house. Nevertheless, after changing and using low-carbon materials, the impact of the material sector on GWP in the modern and vernacular houses decreased by ۱.۸ and ۲.۶ times, respectively. In fact, although the use of advanced materials has improved its thermal performance, these materials have increased its overall environmental impact in the GWP section by a factor of ۲.۹. As a result, the LCA study led to the creation of a regenerative design solution, the substitution of low-carbon materials, along with architectural development regarding energy optimization.

Keywords:

Life Cycle Assessment , Circular Economy , Regenerative Design , Carbon emissions

Authors

Hooman Dehvari

Department of Architecture , Khavaran Institute of Higher Education , Mashhad , Iran .

Melika Sahamiyan Moghaddam

Department of Architecture , Khavaran Institute of Higher Education , Mashhad , Iran .

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‘IEA’, IEA, ۲۰۲۳. https://www.iea.org/reports/clean-energy-innovation/innovation-needs-in-the-sustainable-development-scenario (accessed Jun. ۰۲, ۲۰۲۳) ...
S. Saint Akadiri, T. S. Adebayo, M. Nakorji, W. Mwakapwa, ...
E. Elbeltagi and H. Wefki, ‘Predicting energy consumption for residential ...
K. Verichev, M. Zamorano, and M. Carpio, ‘Effects of climate ...
M. E. Shayan, G. Najafi, B. Ghobadian, and S. Gorjian, ...
M. Ö. A. Akan, D. G. Dhavale, and J. Sarkis, ...
X. Li, W. Xie, L. Xu, L. Li, C. Y. ...
H. Wang, Y. Zhang, W. Gao, and S. Kuroki, ‘Life ...
M. U. Hossain and S. Thomas Ng, ‘Influence of waste ...
S. Khoshnevis Yazdi and A. G. Dariani, ‘CO۲ emissions, urbanisation ...
R. Azari and H. Rashed-Ali, Research Methods in Building Science ...
W. Lu, M. Ye, R. Flanagan, and K. Ye, ‘Corporate ...
W. Lu and H. Yuan, ‘A framework for understanding waste ...
O. F. Kofoworola and S. H. Gheewala, ‘Estimation of construction ...
W. Lu, H. Yuan, J. Li, J. J. L. Hao, ...
M. Behera, S. K. Bhattacharyya, A. K. Minocha, R. Deoliya, ...
G. L. F. Benachio, M. do C. D. Freitas, and ...
P. Agamuthu, ‘Challenges in sustainable management of construction and demolition ...
P. Jain, J. Powell, and T. Tolaymat, ‘Methodology to estimate ...
H. Wu, J. Zuo, G. Zillante, J. Wang, and H. ...
M. Bernardo, M. C. Gomes, and J. de Brito, ‘Demolition ...
N. Roussat, J. Méhu, M. Abdelghafour, and P. Brula, ‘Leaching ...
S. K. Kaliyavaradhan and T.-C. Ling, ‘Potential of CO ۲ ...
M. S. Jain, ‘A mini review on generation, handling, and ...
S. Shahidan, M. A. M. Azmi, K. Kupusamy, S. S. ...
C. S. Vieira, ‘Valorization of fine-grain construction and demolition (C&D) ...
R. V. Silva, J. de Brito, and R. K. Dhir, ...
G. A. Aguilar‐Hernandez, S. Deetman, S. Merciai, J. F. D. ...
P. Schröder, A. Lemille, and P. Desmond, ‘Making the circular ...
B. Rabta, ‘An Economic Order Quantity inventory model for a ...
E. Hysa, A. Kruja, N. U. Rehman, and R. Laurenti, ...
C. Zhang, M. Hu, F. Di Maio, B. Sprecher, X. ...
E. Ingemarsdotter, E. Jamsin, G. Kortuem, and R. Balkenende, ‘Circular ...
L. C. M. Eberhardt, H. Birgisdottir, and M. Birkved, ‘Potential ...
L. Charlotte et al., ‘Building design and construction strategies for ...
J. Kanters, ‘Circular building design: An analysis of barriers and ...
P. Hopkinson, H. M. Chen, K. Zhou, Y. Wang, and ...
P. Ghisellini, C. Cialani, and S. Ulgiati, ‘A review on ...
S. M. H. Honarvar, M. Golabchi, and M. B. Ledari, ...
I. S. Jawahir and R. Bradley, ‘Technological elements of circular ...
J. Korhonen, C. Nuur, A. Feldmann, and S. E. Birkie, ...
P. Morseletto, ‘Restorative and regenerative: Exploring the concepts in the ...
H. König and M. L. De Cristofaro, ‘Benchmarks for life ...
M. N. Nwodo and C. J. Anumba, ‘A review of ...
A. Hollberg, G. Genova, and G. Habert, ‘Evaluation of BIM-based ...
O. Ortiz, F. Castells, and G. Sonnemann, ‘Sustainability in the ...
L. Ben-Alon, V. Loftness, K. A. Harries, and E. C. ...
F. Rezaei, C. Bulle, and P. Lesage, ‘Integrating building information ...
N. Llantoy, M. Chafer, and L. F. Cabeza, ‘A comparative ...
L. Ben-Alon, V. Loftness, K. A. Harries, G. DiPietro, and ...
A. T. Balasbaneh and M. Z. Ramli, ‘A comparative life ...
F. Zhou, Y. Ning, X. Guo, and S. Guo, ‘Analyze ...
A. A. Dani, K. Roy, R. Masood, Z. Fang, and ...
Z. Duan, Q. Huang, Q. Sun, and Q. Zhang, ‘Comparative ...
X. Luo, M. Ren, J. Zhao, Z. Wang, J. Ge, ...
C. X. Chen, F. Pierobon, S. Jones, I. Maples, Y. ...
H. Li, Z. Luo, X. Xu, Y. Cang, and L. ...
S. M. Hosseinian and M. Faghani, ‘Assessing the effect of ...
X. Yang, S. Zhang, and K. Wang, ‘Quantitative study of ...
A. Pakdel, H. Ayatollahi, and S. Sattary, ‘Embodied energy and ...
J. L. Hao et al., ‘Carbon emission reduction in prefabrication ...
Y. Dong et al., ‘Comparative whole building life cycle assessment ...
Z. Chen, H. Gu, R. D. Bergman, and S. Liang, ...
K. Lu et al., ‘Development of a carbon emissions analysis ...
W. M. S. Wan Omar, ‘A hybrid life cycle assessment ...
A. Atmaca, ‘Life cycle assessment and cost analysis of residential ...
C. K. Chau, T. M. Leung, and W. Y. Ng, ...
X. Zhang and F. Wang, ‘Life-cycle assessment and control measures ...
N. C. Onat, M. Kucukvar, and O. Tatari, ‘Scope-based carbon ...
U. Iyer-Raniga and J. P. C. Wong, ‘Evaluation of whole ...
K. Safari and H. AzariJafari, ‘Challenges and opportunities for integrating ...
C. Paper and M. Stamenkovi, ‘REGENERATIVE DESIGN AS AN APPROACH ...
W. Middleton, A. Habibi, S. Shankar, and F. Ludwig, ‘Characterizing ...
L. A. Akanbi et al., ‘Resources, Conservation & Recycling Salvaging ...
N. Somu, G. Raman M R, and K. Ramamritham, ‘A ...
M. Bourdeau, X. Qiang Zhai, E. Nefzaoui, X. Guo, and ...
M. Bughio, M. S. Khan, W. A. Mahar, and T. ...
P. Hoseinzadeh et al., ‘Energy performance of building integrated photovoltaic ...
M. Li, J. Cao, M. Xiong, J. Li, X. Feng, ...
V. Pereira, J. Santos, F. Leite, and P. Escórcio, ‘Using ...
C. D. Frenette, C. Bulle, R. Beauregard, A. Salenikovich, and ...
A. M. Moncaster and K. E. Symons, ‘A method and ...
D. A. Ramos Huarachi, G. Gonçalves, A. C. de Francisco, ...
B. D. Olagunju and O. A. Olanrewaju, ‘Comparison of life ...
R. J. Cole and L. Fedoruk, ‘Shifting from net-zero to ...

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