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Sustainability in construction

From Wikipedia, the free encyclopedia

Sustainable construction aims to reduce the negative health and environmental impacts caused by the construction process and by the operation and use of buildings and the built environment.[1] It can be seen as the construction industry's contribution to more sustainable development. Precise definitions vary from place to place, and are constantly evolving to encompass varying approaches and priorities. More comprehensively, sustainability can be considered from three dimension of planet, people and profit across the entire construction supply chain.[2] Key concepts include the protection of the natural environment, choice of non-toxic materials, reduction and reuse of resources, waste minimization, and the use of life-cycle cost analysis.

Definition of sustainable construction

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One definition of "Sustainable Construction" is the introduction of healthy living and workplace environments, the use of materials that are sustainable, durable and by extension environmentally friendly.[citation needed] In the United States, the Environmental Protection Agency (EPA) defines sustainable construction as "the practice of creating structures and using processes that are environmentally responsible and resource-efficient throughout a building's life-cycle from siting to design, construction, operation, maintenance, renovation and deconstruction."[3] Agyekum-Mensah et al. note that some definitions of sustainable construction and development "seem to be vague" and they question use of any definition of "sustainability" which suggests that sustainable or acceptable activities can be continued indefinitely, because construction projects do not run on indefinitely.[4]

Evolution path

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In the 1970s, awareness of sustainability emerged,[5] amidst oil crises. At that time, people began to realize the necessity and urgency of energy conservation, which is to utilize energy in an efficient way and find alternatives to contemporary sources of energy. Additionally, shortages of other natural resources at that time, such as water, also raised public attention to the importance of sustainability and conservation.[5] In the late 1960s, the construction industry began to explore ecological approaches to construction, aiming to seek harmony with nature.[6]

The concept of sustainable construction was born out of sustainable development discourse.[7] The term sustainable development was first coined in the Brundtland report of 1987, defined as the ability to meet the needs of all people in the present without compromising the ability of future generations to meet their own.[7] This report defined a turning point in sustainability discourse since it deviated from the earlier limits-to-growth perspective to focus more on achieving social and economic milestones, and their connection to environmental goals, particularly in developing countries.[7][8] Sustainable development interconnects three socially concerned systems—environment, society and economy—a system seeking to achieve a range of goals as defined by the United Nations Development Program.[9]

The introduction of sustainable development into the environmental/economical discourse served as a middle ground for the limits-to-growth theory, and earlier pro-growth theories that argued maintaining economic growth would not hinder long-term sustainability.[7] As a result, scholars have faulted sustainable development for being too value-laden since applications of its definition vary heavily depending on relevant stakeholders, allowing it to be used in support of both pro-growth and pro-limitation perspectives of development arguments despite their vastly different implications.[7] In order for the concept to be effective in real-life applications, several specified frameworks for its use in various fields and industries, including sustainable construction, were developed.

The construction industry's response to sustainable development is sustainable construction.[1] In 1994, the definition of sustainable construction was given by Professor Charles J. Kibert during the Final Session of the First International Conference of CIB TG 16 on Sustainable Construction as "the creation and responsible management of a healthy built environment based on resource efficient and ecological principles".[10] Notably, the traditional concerns in construction (performance, quality, cost) are replaced in sustainable construction by resource depletion, environmental degradation and healthy environment.[11] Sustainable construction addresses these criteria through the following principles set by the conference:[11]

  • Minimize resource consumption (Conserve)by effective procurment systems and strategies
  • Maximize resource reuse (Reuse)
  • Use renewable or recyclable resources (Renew/Recycle/Repurpose
  • Protect and incorporate the natural environment (Protect Nature)
  • Create a healthy, non-toxic environment (Non-Toxics)
  • Pursue quality in creating the built environment (Quality)

Additional definitions and frameworks for sustainable construction practices were more rigorously defined in the 1999 Agenda 21 on Sustainable Construction, published by the International Council for Research and Innovation in Building and Construction (CIB).[12] The same council also published an additional version of the agenda for sustainable construction in developing countries in 2001 to counteract biases present in the original report as a result of most contributors being from the developed world.[12]

Since 1994, much progress to sustainable construction has been made all over the world. According to a 2015 Green Building Economic Impact Study released by U.S. Green Building Council (USGBC), the green building industry contributes more than $134.3 billion in labor income to working Americans. The study also found that green construction's growth rate is rapidly outpacing that of conventional construction and will continue to rise.[13]

Goals of sustainable construction

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Current state

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According to United Nations Environment Programme (UNEP), "the increased construction activities and urbanization will increase waste which will eventually destroy natural resources and wild life habitats over 70% of land surface from now up to 2032. " [14] Moreover, construction uses around half of natural resources that humans consume. Production and transport of building materials consumes 25 - 50 percent of all energy used (depending on the country considered).[15] Taking UK as an example, the construction industry counts for 47% of CO2 emissions, of which manufacturing of construction products and materials accounts for the largest amount within the process of construction.[5]

Benefits

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By implementing sustainable construction, benefits such as lower cost, environmental protection, sustainability promotion, and expansion of the market may be achieved during the construction phase. As mentioned in ConstructionExecutive, construction waste accounts for 34.7% of all waste in Europe. Implementing sustainability in construction would cut down on wasted materials substantially.[16]

Potential lower cost

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Sustainable construction might result in higher investment at the construction stage of projects, the competition between contractors, due to the promotion of sustainability in the industry, would encourage the application of sustainable construction technologies, ultimately decreasing the construction cost. Meanwhile, the encouraged cooperation of designer and engineer would bring better design into the construction phase.[17]

Using more sustainable resources reduces cost of construction as there will be less water and energy being used for construction and with less resources being used in the projects, it would lead to lower disposal costs as there is less waste being made.[18]

Environment protection[19]

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By adopting sustainable construction, contractors would make the construction plan or sustainable site plan to minimize the environmental impact of the project. According to a study took place in Sri Lanka,[20] considerations of sustainability may influence the contractor to choose more sustainable, locally sourced products and materials, and to minimize the amount of waste and water pollution.  Another example is from a case study in Singapore,[21] the construction team implemented rainwater recycling and waste water treatment systems that help achieve a lower environmental impact.

Promoting sustainability[22]

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According to "Sustainable Construction: Reducing the Impact of Creating a Building", the contractor in collaboration with the owner would deliver the project in a sustainable way. More importantly, the contractor would have known this was a key performance indicator for the client from day one, allowing them the opportunity to not tender for the work, should this not appeal to them. Moreover, "It also sends a clear message to the industry, 'sustainability is important to us' and this, especially within the government and public sectors can significantly drive change in the way projects are undertaken, as well as up-skilling the industry to meet this growing demand.

Expand market[20]

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By promoting sustainable methods and products in daily work, the good result directly shows the public the positive effect of sustainable construction. Consequently, there would be potential to expand the market of sustainable concepts or products. According to a report published by USGBC, "The global green building market grew in 2013 to $260 billion, including an estimated 20 percent of all new U.S. commercial real estate construction."[citation needed]

Sustainable construction strategies

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Globally, construction industries are attempting to implement sustainable construction principles. Below are some examples of successful implementations of sustainable construction promotion on a national level. Also included are new technologies that could improve the application of sustainable construction.

Strategic Policy and Guide

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  • Creation of a national strategy to improve the development: the government of Singapore announced a Sustainable Singapore Blueprint in April 2009, launching a long-term strategy of sustainable construction development.[21] Another example is Strategy for sustainable construction in the UK.[23]
  • Investing money on research and education : S$50 million "Research Fund for the Built Environment" was launched in 2007 by Singapore Government to kick-start R&D efforts in sustainable development.[21]
  • Guidance for sustainable application: Government department cooperating with academic institutes to make an industrial guide for workers, for example, the Field Guide for Sustainable Construction published in 2004.[24]

Changing Mindset in the Way of Development

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The Government in Singapore has developed a Sustainable Construction Master Plan with the hope to transform the industrial development path from only focusing on the traditional concerns of "cost, time, and quality" to construction products and materials, to reduce natural resource consumption and minimize waste on site. With the expediting concern of the climate crisis, it is essential to keep in mind the importance of reducing energy consumption and toxic waste whilst moving forward with sustainable architectural plans.[25][21]

New Technologies

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The development of efficiency codes has prompted the development of new construction technologies and methods, many pioneered by academic departments of construction management that seek to improve efficiency and performance while reducing construction waste.

New techniques of building construction are being researched, made possible by advances in 3D printing technology. In a form of additive building construction, similar to the additive manufacturing techniques for manufactured parts, building printing is making it possible to flexibly construct small commercial buildings and private habitations in around 20 hours, with built-in plumbing and electrical facilities, in one continuous build, using large 3D printers. Working versions of 3D-printing building technology are already printing 2 metres (6 ft 7 in) of building material per hour as of January 2013, with the next-generation printers capable of 3.5 metres (11 ft) per hour, sufficient to complete a building in a week.[26] Dutch architect Janjaap Ruijssenaars's performative architecture 3D-printed building was scheduled to be built in 2014.[27]

Over the years, the construction industry has seen a trend in IT adoption, something it always found hard to compete with when paired against other fields such as, the manufacturing or healthcare industries. Nowadays, construction is starting to see the full potential of technological advancements, moving on to paperless construction, using the power of automation and adopting BIM, the internet of things, cloud storage and co-working, and mobile apps, implementation of surveying drones, and more.[28][29]

In the current trend of sustainable construction, the recent movements of New Urbanism and New Classical architecture promote a sustainable approach towards construction, that appreciates and develops smart growth, architectural tradition and classical design.[30] This is in contrast to modernist and short-lived globally uniform architecture, as well as opposing solitary housing estates and suburban sprawl.[31] Both trends started in the 1980s.

Timber is being introduced as a feasible material for skyscrapers (nicknamed "plyscrapers") thanks to new developments incorporating engineered timber, whose collective name is "mass timber" and includes cross-laminated timber.[32]

Industrial hemp is becoming increasingly recognised as an eco-friendly building material. It can be used in a range of ways, including as an alternative to concrete (known as 'hempcrete'), flooring, and insulation. King Charles is reported to have used hemp to insulate an eco-home. In December 2022, the United Nations Conference on Trade and Development (UNCTAD) emphasised hemp's versatility and sustainability, and advocated its use as a building material, in a report entitled 'Commodities at a glance: Special issue on industrial hemp'.[citation needed]

Sustainable construction in developing countries

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Specific parameters are needed for sustainable construction projects in developing countries. Scholar Chrisna Du Plessis of the Council for Scientific and Industrial Research (CSIR) defines the following key issues as specific to work in developing countries:[12]

  • New, non-western frameworks for development
  • Understanding the connection between urbanization and rural development
  • Sustainable housing solutions
  • Education
  • Innovative materials
  • Innovative methods of construction
  • Merging modern and traditional practices
  • Promoting equity in gender roles
  • Development of new financing systems
  • Improving the capacity of the government and the construction industry

In a later work, Du Plessis furthers the definition for sustainable construction to touch on the importance of sustainability in social and economic contexts as well.[33] This is especially relevant in construction projects in the Global South, where local value systems and social interactions may differ from the western context in which sustainable construction frameworks were developed.[33]

Debates surrounding sustainable construction in developing countries

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First, the need for sustainable development measures in developing countries is considered. Most scholars have reached a consensus on the concept of the 'double burden' placed on developing countries as a result of the interactions between development and the environment. Developing countries are uniquely vulnerable to problems of both development (resource strain, pollution, waste management, etc.) and under-development (lack of housing, inadequate water and sanitation systems, hazardous work environments) that directly influence their relationship with the surrounding environment.[34] Additionally, scholars have defined two classes of environmental problems faced by developing countries; 'brown agendas' consider issues that cause more immediate environmental health consequences on localized populations, whereas 'green agendas' consider issues that address long-term, wide-scope threats to the environment.[34][35] Typically, green agenda solutions are promoted by environmentalists from developed, western countries, leading them to be commonly criticized as being elitist and ignorant to the needs of the poor, especially since positive results are often delayed due to their long-term scope.[35] Scholars have argued that sometimes these efforts can even end up hurting impoverished communities; for example, conservation initiatives often lead to restrictions on resource-use despite the fact that many rural communities rely on these resources as a source of income, forcing households to either find new livelihoods or find different areas for harvesting.[36] General consensus is that the best approaches to sustainable construction in developing countries is through a merging of brown and green agenda ideals.[34][35]

Stakeholders

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Foreign investors and organizations

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Since all of the definitions and frameworks for the major concepts outlined previously are developed by large international organizations and commissions, their research and writings directly influence the organization, procedures, and scale of rural development projects in the Global South. Attempts at community development by foreign organizations like the ones discussed have questionable records of success. For instance, billions of dollars of aid have flowed into Africa over the past 60 years in order to address infrastructure shortcomings, yet this aid has created numerous social and economic problems without making any progress toward infrastructure development.[37] One compelling explanation for why infrastructure projects as a result of foreign aid have failed in the past is that they are often eurocentric in modelling and applied off successful strategies used in western countries without adapting to local needs, environmental circumstances and cultural value systems.[38]

NGOs/Non-profits

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Often NGOs and development nonprofits are criticized for taking over responsibilities that are traditionally carried out by the state, causing governments to become ineffective in handling these responsibilities over time. Within Africa, NGOs carry out the majority of sustainable building and construction through donor-funded, low-income housing projects.[37]

Future development

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Currently, sustainable construction has become mainstream in the construction industry. The increasing drive to adopt a better way of construction, stricter industrial standards and the improvement of technologies have lowered the cost of applying the concept, according to Business Case For Green Building Report.[17] The current cost of sustainable construction may be 0.4% lower than the normal cost of construction.

See also

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References

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  1. ^ a b Sustainable Development and the Future of Construction: A comparison of visions from various countries. International Council for Building Research Studies and Documentation. p. 29. ISBN 978-90-6363-011-9.
  2. ^ Solaimani, S., & Sedighi, M. (2019), Toward a holistic view on lean sustainable construction: a literature review. Journal of Cleaner Production, doi:10.1016/j.jclepro.2019.119213
  3. ^ "Basic Information | Green Building |US EPA". archive.epa.gov. Retrieved 2018-12-11.
  4. ^ Agyekum-Mensah, G., Knight, A. and Coffey, C., 4Es and 4 Poles model of sustainability: Redefining sustainability in the built environment, Structural Survey, volume 30, issue 5, published on 2 November 2012, accessed on 30 August 2024
  5. ^ a b c "Estimating the Amount of CO2 Emissions that the Construction Industry Can Influence" (PDF). GOV.UK, Department for Business, Energy & Industrial Strategy. Retrieved 2018-12-11.
  6. ^ Leonard R., Bachman (2008). "Architecture and the Four Encounters with Complexities". Architectural Engineering and Design Management. 4: 15–30. doi:10.3763/aedm.2008.s407. S2CID 56667681.
  7. ^ a b c d e Hill, Richard C.; Bowen, Paul A. (1997-05-01). "Sustainable construction: principles and a framework for attainment". Construction Management and Economics. 15 (3): 223–239. doi:10.1080/014461997372971. ISSN 0144-6193.
  8. ^ Meadows, Donella H.; Meadows, Dennis L.; Randers, Jørgen; Behrens, William W. (2019-09-06), "The Limits to Growth", Green Planet Blues, Routledge, pp. 27–31, doi:10.4324/9780429322204-3, ISBN 978-0-429-32220-4
  9. ^ "Sustainable Development Goals". UNDP. Retrieved 2018-12-11.
  10. ^ Kibert, Charles J, ed. (1994). Sustainable construction: proceedings of the First International Conference of CIB TG 16, November 6-9, 1994, Tampa, Florida, U.S.A. Gainesville, Fla.: Center for Construction and Environment, M.E. Rinker Sr. School of Building Construction, College of Architecture, University of Florida. ISBN 978-0-9643886-1-1. OCLC 33013532.
  11. ^ a b Kibert, Charles J. "Establishing Principles and a Model for Sustainable Construction" (PDF). www.irbnet.de. Retrieved 2018-12-11.
  12. ^ a b c Du Plessis, Chrisna (2002). "Agenda 21 for sustainable construction in developing countries". CSIR Report BOU E. 204.
  13. ^ "New Study Finds Green Construction is Major U.S. Economic Driver | U.S. Green Building Council". www.usgbc.org. Retrieved 2018-12-11.
  14. ^ Global Environmental Outlook 3. London: Unite Nation Environment Programmes(UNEP) /Earth scan. 2002.
  15. ^ Sattary, Sattar. "Assessment of sustainable construction practices" (PDF). anzasca.net. Retrieved 2018-12-11.
  16. ^ "Ten Benefits of Sustainable Construction". www.constructionexec.com. Retrieved 2021-10-08.
  17. ^ a b Pantouvakis, John-Paris; Manoliadis, Odysseus G. (2006). "The Business Case For Green Building". World Green Building Council. 6 (3): 299–309. doi:10.1007/BF02941258. S2CID 29736660.
  18. ^ exak@dmin (2020-08-11). "Sustainable Construction Benefits, Technologies and Best Practices". ExakTime. Retrieved 2023-04-28.
  19. ^ Manoliadis, Odysseus G.; Pantouvakis, John-Paris (2006-09-01). "A practical approach to resource - constrained project scheduling". Operational Research. 6 (3): 299–309. doi:10.1007/BF02941258. ISSN 1866-1505. S2CID 29736660.
  20. ^ a b "Benefits of Adopting Green Concept for Construction of Building in Sri lanka" (PDF). www.civil.mrt.ac.lk. Retrieved 2018-12-11.
  21. ^ a b c d "Sustainable Building and Construction in Singapore" (PDF). www.irbnet.de. Retrieved 2018-12-11.
  22. ^ "Sustainable Construction: Reducing the Impact of Creating Building". www.branz.co.nz. Retrieved 2018-12-11.
  23. ^ "Strategy For Sustainable Construction" (PDF). bis.gov.uk. Archived from the original (PDF) on 2013-02-20. Retrieved 2018-12-11.
  24. ^ "Field Guide for Sustainable Construction" (PDF). www.wbdg.org. Retrieved 2018-12-11.
  25. ^ Jackson, Chris. "The Methods and Benefits of Sustainable Construction". Construction21 International. Retrieved 24 October 2022.
  26. ^ Diaz, Jesus (2013-01-31). "This Is What the First Lunar Base Could Really Look Like". Gizmodo. Retrieved 2013-02-01.
  27. ^ "The World's First 3D-Printed Building Will Arrive In 2014". TechCrunch. 2012-01-20. Retrieved 2013-02-08.
  28. ^ "2017 6th Annual Construction Technology Report" (PDF). JB Knowledge. Retrieved 13 September 2018.
  29. ^ taotiadmin (20 April 2015). "The Charter of the New Urbanism".
  30. ^ Issue Brief: Smart-Growth: Building Livable Communities. American Institute of Architects. Retrieved on 2014-03-23.
  31. ^ Callaghan, Greg (27 August 2016). "New wood: how it will change our skyline". The Sydney Morning Herald. Retrieved 6 September 2017.
  32. ^ a b Plessis, Chrisna Du (2007-01-01). "A strategic framework for sustainable construction in developing countries". Construction Management and Economics. 25 (1): 67–76. doi:10.1080/01446190600601313. ISSN 0144-6193. S2CID 218555430.
  33. ^ a b c Véron, René (2010). "Small Cities, Neoliberal Governance and Sustainable Development in the Global South: A Conceptual Framework and Research Agenda" (PDF). Sustainability. 2 (9): 2833–2848. doi:10.3390/su2092833.
  34. ^ a b c McGranahan, Gordon; Satterthwaite, David (2000), "Environmental health or ecological sustainability? Reconciling the brown and green agendas in urban development", Planning in Cities, Practical Action Publishing, pp. 43–57, doi:10.3362/9781780441283.004, ISBN 978-1-85339-543-7
  35. ^ Sarkar, Siddhartha (2010). "Gender, Environment and Poverty Linkages". Journal of Development and Agricultural Economics. 2 (4): 145–156.
  36. ^ a b du Plessis, Chrisna (2005). "Action for sustainability: preparing an African plan for sustainable building and construction". Building Research & Information. 33 (5): 405–415. Bibcode:2005BuRI...33..405D. doi:10.1080/09613210500218974. ISSN 0961-3218. S2CID 218591642.
  37. ^ Adebayo, Ambrose A. (2002). "Sustainable construction in Africa". Agenda 21: 1–11.