Carbon Footprint Calculation Methods Used in the Textile Industry

  • Tugba Ulutas Amasya University
  • Unal Kurt Amasya University
Keywords: Carbon Footprint, SWOT, Tier, LCA, DEFRA

Abstract

Climate change is one of the most significant issues of our time. Therefore, reducing the factors causing climate change and replacing existing methods with new ones have become essential for the world. The primary driver of climate change is greenhouse gas emissions. The use of fossil fuels to meet the increasing energy demand, especially after the Industrial Revolution, has led to an accumulation of greenhouse gases in the atmosphere. Turkey, closely following the measures taken globally and being a party to international agreements, continues its efforts to reduce greenhouse gases. In this context, the Ministry of Environment Urbanization and Climate Change submitted the 8th National Communication to the United Nations Framework Convention on Climate Change (UNFCCC) Secretariat in May 2023. As mentioned in this report, the textile sector is among the largest contributors to Turkey’s manufacturing industry, with an 8.4% share in revenue. The directive, published to minimize the environmental impacts of waste generated by the activities of the textile sector—one of Turkey’s leading industries—includes provisions related to reducing energy consumption, water consumption, pollutants in wastewater, and air pollutant emissions. This study discusses how greenhouse gas emissions, which are among the leading air pollutants in the textile sector, can be calculated using three different methods: the Tier approach, Life Cycle Analysis (LCA), and the DEFRA method. These three calculation methods are compared using the SWOT analysis technique, offering options to the end-user. By highlighting the advantages and disadvantages of greenhouse gas emission calculation methods, this study aims to assist sector representatives or experts performing calculations in determining roadmaps for compliance with national and international standards.

Author Biographies

Tugba Ulutas, Amasya University

Institute of Science

Renewable Energy and Applications

Amasya, Turkey

Unal Kurt, Amasya University

Electrical and Electronics Engineering

Amasya, Turkey

References

Çerçi, M. (2021). Determination of Carbon Footprint With IPCC Tier 1 and DEFRA Methods: The Case Study of Erzincan Binali Yildirim University, Unpublished Master’s Thesis, Erzincan Binali Yıldırım Üniversitesi Institute of Science, Erzincan

Ministry of Foreign Affairs (2024). United Nations Framework Convention on Climate Change URL: https://www.mfa.gov.tr/bm-iklim-degisikligi-cerceve-sozlesmesi.tr.mfa

Wikipedia (2024). Kyoto Protocol. URL: https://tr.wikipedia.org/wiki/Kyoto_Protokol%C3%BC

Ministry of Foreign Affairs (2024). Kyoto Protocol. URL: https://www.mfa.gov.tr/kyoto-protokolu.tr.mfa

The Directorate of Climate Change (2024). Kyoto Protocol. URL: https://iklim.gov.tr/kyoto-protokolu-i-35

The Directorate of Climate Change (2024). Paris Assesment. URL: https://iklim.gov.tr/paris-anlasmasi-i-34

Wikipedia (2024). Intergovernmental Panel on Climate Change (IPCC). URL: https://tr.wikipedia.org/wiki/Hükûmetlerarası_İklim_Değişikliği_Paneli

Hünerli, E. (2023). Calculation of Muğla Sıtkı Kocaman University's Carbon Footprint Using IPCC Tier 1 Approach And Defra Method, Unpublished Master’s Thesis, Muğla Sıtkı Kocaman University Institute of Science, Muğla

Öksüm, S.N. (2023). Determination of Carbon Footprint in Textile Industrys, Unpublished Master’s Thesis, Sivas Cumhuriyet University Institute of Science, Sivas

Intergovernmental Panel on Climate Change (2006). 2006 IPCC Guidelines for National Greenhouse Gas Inventories. URL: https://www.ipcc-nggip.iges.or.jp/public/2006gl/

Ministry of Energy an Natural Resources (2024). Turkey’s Electricity Production and Electricity Consumption Point Emission Factors.

URL:https://enerji.gov.tr//Media/Dizin/EVCED/tr/%C3%87evreVe%C4%B0klim/%C4%B0klimDe%C4%9Fi%C5%9Fikli%C4%9Fi/EmisyonFaktorleri/2022_Uretim_Tuketim_EF.pdf

Toksöz, M. (2018). Sustainability Concept and Life Cycle Analysis in Textile, Unpublished Master’s Thesis, Çukurova University Institute of Science, Adana

Güller, M. (2024). Evaluation of Energy Potentials With Life Cycle Analysis of Different Waste Types, Unpublished Master’s Thesis, Yıldız Technical University Institute of Science, Istanbul

Ministry of Environment Urbanization and Climate Change (2023). Technical Assistance Project for Evaluating Turkey’s Potential for Transitioning to a Circular Economy, What is Life Cycle Analysis (LCA)

Department for Energy Security & Net Zero (2024). Greenhouse Gas Reporting: Conversion Factors 2024. URL: https://www.gov.uk/government/publications/greenhouse-gas-reporting-conversion-factors-2024

Published
2024-12-30
How to Cite
Ulutas, T., & Kurt, U. (2024). Carbon Footprint Calculation Methods Used in the Textile Industry. Journal of Engineering Research and Applied Science, 13(2), 2643-2650. Retrieved from http://www.journaleras.com/index.php/jeras/article/view/371
Section
Articles