Executive Solutions and Economic Analysis to Reduce Water Consumption in Different Construction Sectors

Document Type : Other scientific contents

Authors

1 Researcher, MSc in Water and Energy, Faculty of Civil Engineering, Imam Hossein University, Tehran, Iran.

2 Ph.D. in Water Engineering-Hydraulic Structures, Abfan Consulting Engineers Company, Tehran, Iran

3 Ph.D., Faculty of Water Civil Engineering, Iran University of Science and Technology, Tehran, Iran

Abstract

Optimizing water consumption requires four approaches: modifying laws and regulations, modifying facilities and equipment, promoting the use of consumption-reducing equipment, public education, and cultural measures, which are mainly behavioral reforms and instrumental reforms. In this research, implementation solutions and economic analysis of reducing water consumption in different parts of a building were evaluated. For the economic analysis of the amount of water consumption in buildings, first, a series of influential parameters and indicators were taken into account, and then based on that, relationships were extracted and the amount of water saving in different sectors and factors was determined based on the strategies to reduce water consumption in residential buildings. The savings of the proposed solutions to reduce water consumption in different parts of the building were evaluated based on the three prices of mineral water, export water, and government water. In this research, the investment return period based on the price of mineral water after 2.2 years, exported water after 2.7 years, and government water after 3.9 years is possible by applying the suggested solutions such as the use of modern faucets by the European EPA Association, the standards of minimum suitable dimensions in different parts of a building according to the fourth topic of the national building regulations and the elimination of old systems and the use of modern systems in the building. In this research, the solutions proposed in the sanitary and other sectors (including septic tanks, and toilets) have the greatest impact in reducing water consumption in the construction division with 62 and 16 percent, respectively, and as a result, higher savings.

Keywords

Main Subjects

References

.پرواز، میثم. (1401). مروری بر بحران آب و اهمیت آب، کنفرانس بین‌المللی پژوهش‏‌های کاربردی در علوم مهندسی و علوم انسانی. باکو، جمهوری آذربایجان.
https://civilica.com/doc/1562110
پورحسین، مهرداد، و سعدی، سجاد. (1402). تحلیل اقتصادی منابع تامین آب و رتبه‏‌بندی آن با رویکرد کاهش مصرف آب. اکوهیدرولوژی، 10(2)، 262-245. DOI: 10.22059/ije.2023.358230.1725
شهریارپناه، رحیم. (1390). بررسی شیرآلات و تجهیزات کاهنده مصرف آب و تحقق در زمینه تاثیر آن جهت کاهش مصرف آب آشامیدنی. همایش ملی اصلاح الگوی تولید و مصرف. دانشگاه شهید باهنر کرمان، کرمان، ایران.  https://civilica.com/doc/126754
فریدونی، مهدی، سعدی، سجاد، و غلامی، جواد. (1397). معرفی شاخص های کاهش الگوی مصرف آب در ساختمان‏‌های اداری، دوازدهمین همایش بین‏‌المللی انرژی، سازمان انرژی و محیط‏زیست. تهران. https://civilica.com/doc/84837 
Athuraliya A., Roberts P., & Brown A. (2012). Residential Water Use Study. Yarra Valley Water, Mitcham, Australia. Australian Standards/New Zealand Standards (AS/NZS) 2016 Water Efficient Products – Rating and Labelling. Australia, AS/NZS 6400: 2016. 
Beithou, N., Hilal, M. A., & Abu-Alshaikh, I. (2011). Thermal Analysis of Discrete Water supply in Domestic Hot Water Storage Tank. Jordan Journal of Mechanical and Industrial Engineering, 5(1), 29-32. ISSN 1995-6665.
Bennett, B., & Kruger, F. (2015). Forestry and water conservation in South Africa. ANU Press. World Forest History Series. South Africa. http://doi.org/10.22459/FWCSA.11.2015
Biswas A., & Gangwar D. (2020). Studying the water crisis in Delhi due to rapid urbanisation and land use transformation. International Journal of Urban Sustainable Development. 199-213. doi: 10.1080/19463138.2020.1858423
Boretti A., & Rosa L. (2019). Reassessing the Projections of the World Water Development Report. NPJ Clean Water. npj Clean Water, 2(15), E3S Web of Conferences 489, 05002 (2024). DOI: 10.1038/s41545-019-0039-9
Chebaane, M., & Hoffman, B. (2017). Office Buildings Water Efficiency Guide. USAID water demand management program. USA.
Chu, S. (2021). Study on Comprehensive Utilization of Water Resource Environment in Water-saving Design of Buildings. Academic Journal of Environment & Earth Science, 3(3), 47-50. doi: 10.25236/AJEE.2021.030310
Ghisi, E., Rupp, R. F., & Triska, Y. (2014). Comparing indicators to rank strategies to save potable water in buildings. Resources, conservation and recycling, 87, 137-144. DOI: 10.1016/j.resconrec.2014.04.001
Hay E. R., Riemann K., & van Zyl G., Thompson I. (2012). Ensuring water supply for all towns and villages in the Eastern Cape and Western Cape Provinces of South Africa. Water SA, 38(3): 437–444. DOI: 10.4314/wsa.v38i3.9
Hoffman, B. (2016). office buildings water efficiency guide. Mini City America. https://csbe.squarespace.com 
Koncagül E., Tran M., & Connor R. (2021). The United Nations World Water Development Report 2021.Valuing Water. ISBN :978-92-3-100434-6. 187 Page, Facts and Figures. UNESCO: Paris, France.
Lauren Croucha, M., Erasmus Jacobs, H., Koncagül E., Tran M., & Connor R. (2021). The United Nations World Water Development Report 2021.Valuing Water. ISBN :978-92-3-100434-6. 187 Page, Facts and Figures. UNESCO: Paris, France.
Speight, V. (2021). Defining domestic water consumption based on personal water use activities., AQUA — Water Infrastructure, Ecosystems and Society, 70(7), 1002. doi: 10.2166/aqua.2021.05
Marinoski, A. K., Rupp, R. F., & Ghisi, E. (2018). Environmental benefit analysis of strategies for potable water savings in residential buildings. Journal of environmental management, 206, 28-39. DOI: 10.1016/j.jenvman.2017.10.004
Proença, L. C., & Ghisi, E. (2010). Water end-uses in Brazilian office buildings. Resources, Conservation and Recycling, 54(8), 489-500. DOI: 10.1016/j.resconrec.2009.10.005
Praveena, S. M., & Themudu, S. (2021). Water Conservation Initiative in a Public School from Tropical Country: Performance and Sustainability Assessments. Research Square, 1-17. DOI: 10.21203/rs.3.rs-319748/v1
Ritchie, H., & Roser, M. (2021). Water Use and Stress. Available online: https://ourworldindata.org/water-use-stress (accessed on 17 June 2021).
Sadi, S., Gholami, J., Fereydooni, M., & Moshari, S. (2022). Development of Water Conservation Indicators for Office Buildings Using Delphi Method. Jordan Journal of Mechanical & Industrial Engineering, 16(2), 247 – 259. ISSN 1995-6665.
Sahin, N. İ., & Manioğlu, G. (2019). Water conservation through rainwater harvesting using different building forms in different climatic regions. Sustainable Cities and Society, 44, 367-377. DOI: 10.1016/j.scs.2018.10.010
Shikuku, J., Munala, G., Njuguna, M., Muhoro, T., Gremley, A., Nyakundi, V., & Ali, M. (2021). Cost–benefit analysis of water conservation systems installed in household buildings in Nairobi County. Development in Practice, 32(3), 1-16. DOI: 10.1080/09614524.2021.1937533
Soares, A. E. P., Silva, J. K. D., Nunes, L. G. C. F., Rios Ribeiro, M. M., & Silva, S. R. D. (2021). Water conservation potential within higher education institutions: lessons from a Brazilian university. Urban Water Journal, 20(2), 1-9. DOI: 10.1080/1573062X.2021.2013903
Willis R. M., Stewart R. A., Panuwatwanich K., Williams P. R., & Hollingsworth A. L. (2011). Quantifying the influence of environmental and water conservation attitudes on household end use water consumption. Journal of Environmental Management, 92(8), 1996–2009. DOI:10.1016/j.jenvman.2011.03.023
Zoghi Moghadam, B. Z. (2009). Introducing Water Efficiency of US Green Building Council’s LEED Program to the Freshmen of the Technology College, Architecture and Construction Management Department, Farmingdale State College.
 
Send comment about this article
CAPTCHA Image

Files

History

  • Receive Date: 14 May 2023
  • Revise Date: 19 November 2023
  • Accept Date: 20 November 2023

Share

How to cite

Statistics