ENERGY, ENVIRONMENTAL AND COST PERFORMANCE OF WALL SYSTEMS FOR STANDARD RESIDENTIAL HOUSING: A CASE STUDY-Reference-Cited by-同舟云学术

ENERGY, ENVIRONMENTAL AND COST PERFORMANCE OF WALL SYSTEMS FOR STANDARD RESIDENTIAL HOUSING: A CASE STUDY

Published:2023-09-01 Issue:3 Volume:18 Page:41-60
ISSN:1943-4618
Container-title:Journal of Green Building
language:en
Short-container-title:

Author:

Bertoli Gabriela¹,Sartori Gabriela¹,Baptista Daniela¹,Passuello Ana¹,Danilevicz Angela¹,Torres Maurício²,Garcez Monica¹

Affiliation:

1. 1Postgraduate Program in Civil Engineering, Construction and Infrastructure, Federal University of Rio Grande do Sul. Av. Osvaldo Aranha, 99 – 7° Andar, sala 706, 90035-190, Porto Alegre, RS, Brazil (UFRGS), Porto Alegre, Brazil

2. 2Research and Postgraduate Program in Architecture, Federal University of Rio Grande do Sul. Rua Sarmento Leite, 320 - 2° Andar, sala 202, 90050-170, Porto Alegre, RS, Brazil (UFRGS), Porto Alegre, Brazil

Abstract

ABSTRACT The design process influences the resulting environmental impacts and life cycle costs. Life cycle assessment can assist the construction industry in selecting more sustainable technological alternatives. In this context, wall systems play a significant role in the environmental and economic performance of a building. This paper compares the potential energy, costs, and environmental impacts of three structural wall construction systems (ceramic, concrete, and soil-cement blocks) for standard residential housing in Southern Brazil, considering a 50-year lifespan. The highest environmental impacts are related to the use stage of all three systems. The ceramic brick system presents the highest impact in the product stage, the concrete block system in the use stage, and the soil cement brick system in the construction stage. The concrete block system presents the highest relative net present value, followed by soil cement and ceramic brick systems. The impacts for the soil-cement block system are similar to those for ceramic block, while the concrete block system is the most expensive, energy demanding, and CO2 releasing. The results demonstrate the importance of producing criteria for architectural decision-making based on scientific evidence when choosing wall systems.

Publisher

College Publishing

Subject

General Environmental Science,Geography, Planning and Development,Civil and Structural Engineering,Building and Construction,Architecture,Environmental Engineering,Management, Monitoring, Policy and Law,Nature and Landscape Conservation,Public Health, Environmental and Occupational Health

Link

https://meridian.allenpress.com/jgb/article-pdf/18/3/41/3259805/i1943-4618-18-3-41.pdf

Reference65 articles.

1. Sustainable construction management: A systematic review of the literature with meta-analysis;ARAÚJO;Journal of Cleaner Production,2020

2. A review of performance assessment methods for construction and demolition waste management. Resources;WU;Conservation & Recycling,2019

3. Life cycle assessment of building materials: Comparative analysis of energy and environmental impacts and evaluation of the eco efficiency improvement potential;BRIBIÁN;Building and Environment,2011

4. Impact of different LEED versions for green building certification and energy efficiency rating system: A Multifamily Midrise case study;RASTOGI;Applied Energy,2017

5. Life cycle analysis in the construction sector: Guiding the optimization of conventional Italian buildings;ASDRUBALI;Energy & Buildings,2013