Life-cycle cost analysis

Life-cycle cost analysis (LCCA) is an economic analysis tool to determine the most cost-effective option to purchase, run, sustain or dispose of an object or process. The method is popular in helping managers determine economic sustainability by figuring out the life cycle of a product or process.

Definition

The term differs slightly from Total cost of ownership analysis (TCOA). LCCA determines the most cost-effective option to purchase, run, sustain or dispose of an object or process, and TCOA is used by managers or buyers to analyze and determine the direct and indirect cost of an item.^[1]

The term is used in the study of Industrial ecology (IE). The purpose of IE is to help managers make informed decisions by tracking and analyzing products, resources and wastes.^[2]

Green Design and Building Economics

In Green design Managers add their operating costs and capital to help decide the effect of an investment.^[3] The method also allows managers to determine if more investments may be needed for green buildings.^[4]

References

^ Bearfield, Domonic A.; Dubnick, Melvin J. (2016). Encyclopedia of public administration and public policy (Third ed.). Boca Raton: Routledge. p. 466. ISBN 978-1466569096.
^ El-Haggar, Salah M. (2007). "Sustainable Development and Industrial Ecology". Sustainable Industrial Design and Waste Management: 85–124. doi:10.1016/B978-012373623-9/50005-8. ISBN 9780123736239. Retrieved 15 December 2022.
^ Eltamaly, Ali M.; Mohamed, Mohamed A. (2018). Advances in renewable energies and power technologies. Volume 2, Biomass, fuel cells, geothermal energies, and smart grids. Amsterdam, Netherlands: Elsevier Inc. pp. 231–313. ISBN 978-0-12-813185-5. Retrieved 12 December 2022.
^ Kubba, Sam (1 January 2012). "Chapter 10 - Green Design and Building Economics". Handbook of Green Building Design and Construction. Butterworth-Heinemann: 493–528. doi:10.1016/b978-0-12-385128-4.00010-x. ISBN 9780123851284. Retrieved 12 December 2022.

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[Bearfield-1] Bearfield, Domonic A.; Dubnick, Melvin J. (2016). Encyclopedia of public administration and public policy (Third ed.). Boca Raton: Routledge. p. 466. ISBN 978-1466569096.

[IE_Journal-2] El-Haggar, Salah M. (2007). "Sustainable Development and Industrial Ecology". Sustainable Industrial Design and Waste Management: 85–124. doi:10.1016/B978-012373623-9/50005-8. ISBN 9780123736239. Retrieved 15 December 2022.

[Eltamaly-3] Eltamaly, Ali M.; Mohamed, Mohamed A. (2018). Advances in renewable energies and power technologies. Volume 2, Biomass, fuel cells, geothermal energies, and smart grids. Amsterdam, Netherlands: Elsevier Inc. pp. 231–313. ISBN 978-0-12-813185-5. Retrieved 12 December 2022.

[Kubba-4] Kubba, Sam (1 January 2012). "Chapter 10 - Green Design and Building Economics". Handbook of Green Building Design and Construction. Butterworth-Heinemann: 493–528. doi:10.1016/b978-0-12-385128-4.00010-x. ISBN 9780123851284. Retrieved 12 December 2022.

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v t e Industrial ecology
Tools	Agent-based model Cost–benefit analysis DPSIR Ecolabel Ecological footprint Environmental full-cost accounting Environmental impact assessment Environmental management system EIO-LCA Input–output model Integrated chain management ISO 14000 Life-cycle assessment Life-cycle cost analysis Material flow analysis MET Matrix Stakeholder analysis
Concepts	Circular economy Cradle-to-cradle design Dematerialization Eco-efficiency Eco-industrial development Eco-industrial park Ecological modernization Efficient energy use Exergy Extended producer responsibility Industrial metabolism Industrial symbiosis Polluter pays principle Precautionary principle Rebound effect Waste hierarchy Waste minimisation Waste valorization
Related fields	Cleaner production Design for environment Earth systems engineering and management Ecological economics Ecological modernization Environmental economics Green chemistry Sustainable development Urban ecology Urban metabolism

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Other	Yale LUX

Life-cycle cost analysis

Definition

Green Design and Building Economics

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References

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