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Journal articles on the topic 'Carbon footprint of HEI's'

Author: Grafiati
Published: 7 June 2025
Last updated: 2 August 2025

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1

Ahonen, Veronica Lucia, Aleksandra Woszczek, Stefan Baumeister, et al. "Carbon neutral higher education institutions: a reality check, challenges and solutions." International Journal of Sustainability in Higher Education 25, no. 9 (2024): 293–315. http://dx.doi.org/10.1108/ijshe-11-2023-0515.

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Purpose Calculating an organization's carbon footprint is crucial for assessing and implementing emission reductions. Although Finnish higher education institutions (HEIs) aim for carbon neutrality by 2030, limited research exists on plans to reach a similar target in any country. This paper aims to address the shared and individual challenges Finnish HEIs have with carbon footprint calculations, reductions, resources and offsetting. Design/methodology/approach A survey was targeted to sustainability experts in all 38 HEIs in Finland to identify key patterns and trends in the focus fields of t
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Ragueneau, Olivier, Audrey Sabbagh, Vanessa Lea, Christophe Piscart, and Camille Mazé. ""Scaling diverse" and implications for science policy and the question of power: insights from the French RZA-RI and the Expé-1point5 experiment." ARPHA Conference Abstracts 8 (June 2, 2025): e157681. https://doi.org/10.3897/aca.8.e157681.

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We, as a human community, are at a pivotal moment in our history. Faced with the threats posed by climate change, the collapse of biodiversity, growing inequalities and the attacks on democracy, which has been losing ground over the last ten years, we stand at a crossroads. The choice between closure and openness, justice and strength/domination, universalism and identitarianism is increasingly urgent. While forces of closure, strength, and identitarianism seem to be gaining ground in this first quarter of the century, there is still time to reverse the trend. Joyful experiments in resistance
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Mustafa, Asad, Katerina Psarikidou, and Md Zahidul Islam Pranjol. "Beyond the COVID-19 Pandemic: Can Online Teaching Reduce the Carbon Footprint of the Internationalisation of UK Higher Education?" International Medical Education 1, no. 2 (2022): 85–96. http://dx.doi.org/10.3390/ime1020011.

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The COVID-19 pandemic has been a learning curve for Higher Education Institutions (HEIs) in devising and delivering teaching online. This transition has enabled HEIs to continue teaching students, especially international students, who were restricted to travel to their countries of study. In the UK, approximately 20% of the student cohort are international students. The pandemic resulted in a drop in international student recruitment, which generated concerns about a potentially alarming economic crisis in the UK HE sector. However, COVID-19 measures have also been portrayed as a significant
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4

Chasokela, Doris, and Joseph Hlongwane. "Leveraging AI and ICT for Greener Education in the Face of Climate Change in Smart Classrooms." Journal of Research in Mathematics, Science, and Technology Education 2, no. 1 (2025): 36–45. https://doi.org/10.70232/jrmste.v2i1.24.

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Artificial Intelligence (AI) and Information and Communication Technology (ICT) are reshaping educational approaches to sustainability and climate action, fostering environmentally responsible attitudes among students. The study seeks to find how the integration of Artificial Intelligence and Information and Communication Technology in Higher Education Institutions (HEIs) affects the promotion of sustainability and climate action among students and the extent to which these technologies enhance student engagement with sustainability concepts, facilitate diverse perspectives on climate issues a
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5

Idundun, Ebiyon, Andrew S. Hursthouse, and Iain McLellan. "Carbon Management in UK Higher Education Institutions: An Overview." Sustainability 13, no. 19 (2021): 10896. http://dx.doi.org/10.3390/su131910896.

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The paper presents a review of carbon management in relation to UK Higher Education Institutions (HEIs), forms part of a wider study on the ongoing reliance on fossil fuels in Scotland’s public sector with a focus on Universities and Local Government Authorities. It compares the CF (carbon footprint), emission sources, and the fossil fuel contribution to the CFs reported in 3 identified articles relating specifically to the estimation of CF for HEIs. The consumption of fossil fuels results in human induced climate change however, fossil fuels boosted the industrialization process and remains t
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6

Osorio, Ana M., Luisa F. Úsuga, Rafael E. Vásquez, et al. "Towards Carbon Neutrality in Higher Education Institutions: Case of Two Private Universities in Colombia." Sustainability 14, no. 3 (2022): 1774. http://dx.doi.org/10.3390/su14031774.

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This paper addresses the path followed by two private higher education institutions (HEI) in Colombia towards achieving carbon neutrality. The methodology followed by these universities to achieve a carbon-neutral certification, based on the Greenhouse Gas (GHG) Protocol, is first described. The process of developing the GHG inventory, projected towards the carbon neutrality of these organisations while using the standard ISO 14064:2006, involved a series of steps that were consolidated in three phases: (i) definition of the scope, collection of data and emissions quantification; (ii) analysis
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7

Ardissone-Krauss, Georg, Moritz Wagner, and Claudia Kammann. "Transitioning Hochschule Geisenheim University: A Shift from NET Source to NET Sink Regarding Its CO2 Emissions." Sustainability 17, no. 5 (2025): 2316. https://doi.org/10.3390/su17052316.

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Various Higher Education Institutions (HEIs) set themselves goals to become carbon neutral through the implementation of different reduction strategies such as the replacement of fossil-fueled vehicles with electric cars. However, even if all reduction measures are taken, residual GHG emissions will still remain. Therefore, most HEIs have to compensate for the remaining emissions by, for example, buying carbon credits. However, due to growing criticism of carbon credit purchases, HEIs need to explore options for establishing carbon sinks on their own premises to offset their remaining, unavoid
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8

Guerrero-Lucendo, Antonio, Fuensanta García-Orenes, Jose Navarro-Pedreño, and David Alba-Hidalgo. "General Mapping of the Environmental Performance in Climate Change Mitigation of Spanish Universities through a Standardized Carbon Footprint Calculation Tool." International Journal of Environmental Research and Public Health 19, no. 17 (2022): 10964. http://dx.doi.org/10.3390/ijerph191710964.

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Higher education institutions (HEIs) can be considered role models of small cities that contribute to the fight against climate change. Therefore, assessing their own carbon footprints (CFs) and drawing conclusions gives significance to this study. In this study, 77 CFs from 14 HEIs were obtained through a tool developed by the Spanish Government. They were analyzed along with different variables and recalculated using the same standardized activity ratios. As a result, a general mapping of the environmental performance in climate change mitigation of Spanish universities has been obtained. Al
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9

da Silva, Liziane Araújo, Ana Regina de Aguiar Dutra, and José Baltazar Salgueirinho Osório de Andrade Guerra. "Decarbonization in Higher Education Institutions as a Way to Achieve a Green Campus: A Literature Review." Sustainability 15, no. 5 (2023): 4043. http://dx.doi.org/10.3390/su15054043.

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Reducing the carbon footprint (CF) helps to meet the targets of the sustainable development goals (SDGs), with emphasis on SDG 13, which seeks urgent measures to combat climate change and its impacts. Higher Education Institutions (HEIs) or universities, as organizations engaged in education, research, and community service, play an important role in promoting sustainable development. Thus, HEIs are increasingly interested in practices to reduce their CF, in addition to training professionals for this worldwide need. CF reduction is a tool to assess the sustainability and decarbonization of a
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10

Weidema, Bo P., Mikkel Thrane, Per Christensen, Jannick Schmidt, and Søren Løkke. "Carbon Footprint." Journal of Industrial Ecology 12, no. 1 (2008): 3–6. http://dx.doi.org/10.1111/j.1530-9290.2008.00005.x.

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11

Bagchi, Deepak, Shantanu Biswas, Y. Narahari, et al. "Carbon footprint optimization." ACM SIGecom Exchanges 11, no. 1 (2012): 34–38. http://dx.doi.org/10.1145/2325713.2325720.

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12

De Ambrogi, Marco. "The carbon footprint." Lancet 394, no. 10209 (2019): e34. http://dx.doi.org/10.1016/s0140-6736(19)32639-x.

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13

McAusland, Carol, and Nouri Najjar. "Carbon Footprint Taxes." Environmental and Resource Economics 61, no. 1 (2014): 37–70. http://dx.doi.org/10.1007/s10640-013-9749-5.

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14

Fontefrancesco, Michele F. "Our carbon footprint." Anthropology Today 35, no. 6 (2019): 21. http://dx.doi.org/10.1111/1467-8322.12543.

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15

Wood, Richard, and Christopher J. Dey. "AUSTRALIA'S CARBON FOOTPRINT." Economic Systems Research 21, no. 3 (2009): 243–66. http://dx.doi.org/10.1080/09535310903541397.

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16

Mancini, Maria Serena, Alessandro Galli, Valentina Niccolucci, et al. "Ecological Footprint: Refining the carbon Footprint calculation." Ecological Indicators 61 (February 2016): 390–403. http://dx.doi.org/10.1016/j.ecolind.2015.09.040.

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17

Ramakrishnan, Hemalatha. "Carbon Neutrality, Carbon Footprint and Circular Economy Indian Initiatives to Combat Carbon Footprint." ACADEMICIA: An International Multidisciplinary Research Journal 14, no. 5 (2024): 25–43. http://dx.doi.org/10.5958/2249-7137.2024.00012.x.

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18

Kampker, Achim, Peter Burggräf, Tobias Welter, Sebastian Kamp, and Johannes Thul. "Factory Carbon Footprint Design." Advanced Materials Research 907 (April 2014): 455–62. http://dx.doi.org/10.4028/www.scientific.net/amr.907.455.

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Energy consumption and emissions are the two main sustainability issues of German companies. The main reasons for efficiency increase and emission reduction are not, as often proclaimed, energy costs, but the demands of customers and legislators for low carbon emissions. Particularly at machine level and process chain level various methods for analysis and improvement of the energy efficiency already exist. At factory level there is no systematic approach. The method Factory Carbon Footprint Design is an appropriate tool for that issue. The method is derived from the activity-based costing met
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19

Su, Zhu Hua, Li Ma, Xia Ling Chu, Rui Quan Xiong, and Zhong Wan. "Dynamic Analysis on Carbon Footprint of Energy Utlization in Guangdong Province." Applied Mechanics and Materials 291-294 (February 2013): 1471–77. http://dx.doi.org/10.4028/www.scientific.net/amm.291-294.1471.

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The paper calculated the Carbon footprint, Carbon Footprint Density, Value of Carbon Footprint Carbon Footprint Intensity, Ecological Pressure Intensity of Carbon Footprint of Guangdong energy consumption in 1990-2011, using the relevant concepts and research methodsthe carbon footprint.The results shows that The Guangdong per capita energy consumption carbon footprint continueed to rise from 1990 to 2011; In the energy consumption carbon footprint gross composition, coal carbon footprint was the maximum, followed by crude oil, natural gas was the last. The Guangdong primary energy utilization
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20

WADA, Yoshihiko. "Ecological Footprint, Carbon Footprint and Radioactive Footprint in the Context of Building a Low Carbon Society." Journal of Life Cycle Assessment, Japan 6, no. 3 (2010): 201–8. http://dx.doi.org/10.3370/lca.6.201.

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21

Chen, Bilin, Weiran Qian, Yiduo Yang, Hong Liu, and Laili Wang. "Carbon Footprint and Water Footprint of Cashmere Fabrics." Fibres and Textiles in Eastern Europe 29, no. 4(148) (2021): 94–99. http://dx.doi.org/10.5604/01.3001.0014.8235.

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Given the serious problems of climate change, water shortage and water pollution, researchers have paid increasing attention to the concepts of the carbon footprint and water footprint as useful indices to quantify and evaluate the environmental impacts of the textile industry. In this study, assessment of the carbon footprints and water footprints of ten kinds of cashmere fabrics was conducted based on the PAS 2050 specification, the Water Footprint Network approach and the ISO 14046 standard. The results showed that knitted cashmere fabrics had a greater carbon footprint than woven cashmere
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22

Roberto, Brusa. "Global Warming: Carbon Footprint and Footprint of Heat." International Journal of Innovative Science and Research Technology 7, no. 6 (2022): 458–60. https://doi.org/10.5281/zenodo.6791994.

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The research wants to complete basic ideas in [4], with the aim to verify the Degree of Reliability of results through a deeper consciousness and use of measurable parameters related to the overheating process.
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23

Pei, Fengsong, Rui Zhong, Li-An Liu, and Yingjuan Qiao. "Decoupling the Relationships between Carbon Footprint and Economic Growth within an Urban Agglomeration—A Case Study of the Yangtze River Delta in China." Land 10, no. 9 (2021): 923. http://dx.doi.org/10.3390/land10090923.

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Carbon footprint is emerging as an effective tool for carbon emission management, especially that from fossil energy consumption. In addition, decoupling analysis is important to keep a high pace of economic growth while reducing carbon emission and its carbon footprint. Taking the Yangtze River Delta (YRD) urban agglomeration in China as a case, this paper examined the changes in carbon footprint and carbon footprint pressure by incorporating land resource limits. On this basis, we further analyzed the decoupling relationships between carbon footprint, carbon footprint pressure and economic g
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24

Gordin, Mikhail V., Valery I. GUROV, Anton N. Varyukhin, Alexander V. Geliev, and Elena V. SHCHERBAKOVA. "HYDROGEN — ZERO CARBON FOOTPRINT." Tyumen State University Herald. Physical and Mathematical Modeling. Oil, Gas, Energy 7, no. 1 (2021): 10–25. http://dx.doi.org/10.21684/2411-7978-2021-7-1-10-25.

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This article presents Russia’s main achievements of over the past 65 years in the development of an advanced scientific and technical groundwork for the introduction of hydrogen as a fuel in various energy systems. On the basis of the obtained world-class results, the authors argue for the necessity of creating a Center for Hydrogen Innovative Development (CVIR) with the decisive participation of enterprises with real experience in obtaining liquid hydrogen (H2l) with the possibility of its long-term storage. A concept has been formulated for the development of breakthrough technological solut
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25

Chen, Guangwu, Thomas Wiedmann, Michalis Hadjikakou, and Hazel Rowley. "City Carbon Footprint Networks." Energies 9, no. 8 (2016): 602. http://dx.doi.org/10.3390/en9080602.

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26

de Vries, Alex, Ulrich Gallersdörfer, Lena Klaaßen, and Christian Stoll. "Revisiting Bitcoin’s carbon footprint." Joule 6, no. 3 (2022): 498–502. http://dx.doi.org/10.1016/j.joule.2022.02.005.

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27

Foteinis, Spyros. "Bitcoin’s alarming carbon footprint." Nature 554, no. 7691 (2018): 169. http://dx.doi.org/10.1038/d41586-018-01625-x.

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28

Scherer, Laura, and Stephan Pfister. "Hydropower's Biogenic Carbon Footprint." PLOS ONE 11, no. 9 (2016): e0161947. http://dx.doi.org/10.1371/journal.pone.0161947.

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29

Cameron, Kirk W. "My IT Carbon Footprint." Computer 42, no. 11 (2009): 99–101. http://dx.doi.org/10.1109/mc.2009.364.

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30

Lu, Donna. "Cutting YouTube's carbon footprint." New Scientist 242, no. 3229 (2019): 7. http://dx.doi.org/10.1016/s0262-4079(19)30803-6.

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31

Pearce, Colin. "Carbon footprint of GRP." Reinforced Plastics 51, no. 8 (2007): 8. http://dx.doi.org/10.1016/s0034-3617(07)70229-1.

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32

Muravyova, E. A., E. S. Kulakova, and N. V. Naumova. "CARBON FOOTPRINT APPLICATION ENTERPRISES." Petroleum Engineering 21, no. 4 (2023): 187–96. http://dx.doi.org/10.17122/ngdelo-2023-4-187-196.

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Today, the problem of greenhouse gas emissions into the environment is becoming increasingly critical. One of the key measures to combat this problem is the measurement and accounting of the carbon footprint of enterprises. Carbon footprint is the aggregate emission of all greenhouse gases generated by industrial production, including both direct and indirect emission sources. The calculation of the carbon footprint of the enterprise allows you to determine its impact on the climate and environment. The article proposes a mobile application with an automatic system for collecting data and calc
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33

Bhavani, Dr. Sevella Sai, and Dr. Saileja. "Sustainability and Carbon Footprint." International Journal of Advance and Applied Research 4, no. 35 (2023): 168–72. https://doi.org/10.5281/zenodo.10351162.

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<strong>Abstract:</strong>The carbon footprint originates from the concept of ecological footprint, which is a measure of human demand on the Earth's ecosystems. It is a standardized measure of demand for natural capital that may be contrasted with the planet's ecological capacity to regenerate. &nbsp;The procedures used to conduct studies on various carbon footprints are the main topics of this work. The study is carried out on principles of sustainability, the balance of sustainability, sustainable measure in different sectors, sustainability measures in everyday life, and measures to reduce
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34

Dash, Dipti Shankar, Pratima Pradhan, and Rajesh Kumar. "Awareness and Practices of Carbon Footprint Reduction: A Survey among Postgraduate Students." Current Research Journal of Social Sciences and Humanities 6, no. 1 (2023): 122–31. http://dx.doi.org/10.12944/crjssh.6.1.10.

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The investigators have tried to know the awareness and practices of Postgraduate students studying in various streams of education at the University of Balasore, Odisha, India in reducing carbon footprint. In this study investigators used the stratified random sampling method to select the sample consisted of 180 students, comprising both female and male students. In the study data was collected by using Carbon footprint awareness test and Carbon footprint practices scale constructed by the investigators themselves. The findings revealed that more than half of the students had low level of car
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35

Gangji, Zhuoma, Hua Liu, Yumei Wei, and Gang Ma. "Carbon Safety Assessment based on Tourism Carbon Footprint and Tourism Carbon Capacity Model in Gansu Province." Advances in Economic Development and Management Research 1, no. 2 (2024): 102. http://dx.doi.org/10.61935/aedmr.2.1.2024.p102.

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Based on Carbon Footprint model, we calculated the tourism carbon footprint and tourism carbon capacity of Gansu Province in 2019 and 2020. The results indicate that: 1. Tourism carbon deficit is in 2019 and in 2020, which indicates a negative impact on ecosystem. 2.The number of tourists in 2020 is lower than 2019. Therefore, the tourism carbon footprint in 2020 was reduced compared to 2019. 3.From the information in this study, indicate the tourism industry in Gansu Province is unsustainable.
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Wang, Hui, Jinzhuo Wu, Wenshu Lin, and Zhaoping Luan. "Carbon Footprint Accounting and Influencing Factors Analysis for Forestry Enterprises in the Key State-Owned Forest Region of the Greater Khingan Range, Northeast China." Sustainability 15, no. 11 (2023): 8898. http://dx.doi.org/10.3390/su15118898.

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This paper constructed a carbon footprint calculation model and analyzed the carbon footprint characteristics and impact mechanism of forestry enterprises in the Greater Khinggan Range, northeast China, based on the survey and statistical data during 2017–2021. The process-based life cycle assessment (LCA) was used to calculate the total carbon footprint and carbon footprint intensity; then, a panel data model combined with ridge regression was used to explore the impacts of different factors on the carbon footprint of the forestry enterprises. Results showed that the forestry enterprises’ tot
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37

Luo, Hongyun, and Xiangyi Lin. "Dynamic Analysis of Industrial Carbon Footprint and Carbon-Carrying Capacity of Zhejiang Province in China." Sustainability 14, no. 24 (2022): 16824. http://dx.doi.org/10.3390/su142416824.

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In studying the industrial carbon emissions in Zhejiang Province from 2015 to 2019, this paper calculates the carbon footprint, carbon-carrying capacity, net carbon footprint, and carbon footprint intensity of Zhejiang Province. The methods are recommended in the 2006 IPCC Guidelines for National Greenhouse Gas Inventories. The results show that (1) raw coal accounts for the highest proportion of carbon footprint in Zhejiang Province; (2) overall carbon-carrying capacity is stable first and then significantly increases, and forest land is the main carbon carrier; (3) the value of net carbon fo
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38

Indarto, Bambang Ahmad, Dewi Ari Ani, Arda Raditya Tantra, and Fitri Dwi Jayanti. "Pengembangan Model Pengukuran dan Pelaporan Carbon Footprint di Bidang Green Accounting dalam Transisi Menuju Ekonomi Rendah Karbon." Jurnal Ekonomi, Manajemen, Akuntansi, Bisnis Digital, Ekonomi Kreatif, Entrepreneur (JEBDEKER) 5, no. 1 (2024): 119–30. https://doi.org/10.56456/jebdeker.v5i1.796.

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Penelitian ini bertujuan menganalisis pengembangan model pengukuran dan pelaporan carbon footprint dalam green accounting pada perusahaan tambang Indonesia periode 2019-2023. Menggunakan metode regresi data panel dengan 125 observasi dari 25 perusahaan tambang, penelitian ini menguji pengaruh sistem pengukuran carbon footprint, standar dan regulasi, profitabilitas, dan ukuran perusahaan terhadap pelaporan carbon footprint. Hasil penelitian menunjukkan bahwa keempat variabel independen berpengaruh positif dan signifikan terhadap pelaporan carbon footprint. Sistem pengukuran carbon footprint (β=
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Liu, Junran, Xin Li, Ying Zhang, et al. "Carbon footprint and oxygen footprint assessment of hemp yarn." International Journal of Global Warming 32, no. 4 (2024): 361–73. http://dx.doi.org/10.1504/ijgw.2024.137161.

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40

Wang, Caihong, Yanfeng Lin, Liping Zhu, Xiangyu Ye, Xiaofang Xu, and Laili Wang. "Carbon footprint assessment of surgical masks and KN95 respirator masks." Fibres & Textiles in Eastern Europe 32, no. 5 (2024): 49–58. http://dx.doi.org/10.2478/ftee-2024-0033.

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Abstract This study aims to investigate the carbon footprint and greenhouse gas emission sources of five typical mask products, including surgical masks and four KN95-grade masks differing in design, from the stage of raw material acquisition to the storage of the mask products. The results show that, for the production of 1000 masks, the carbon footprint of KN95 masks is more than three times larger than that of surgical masks. The carbon footprint of mask raw material production is much larger than that of mask production, with the ear loops being the main contributor to the carbon footprint
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Wang, Yan, and Na Li. "The Provincial Carbon Footprint and Trade." Advanced Materials Research 524-527 (May 2012): 3514–18. http://dx.doi.org/10.4028/www.scientific.net/amr.524-527.3514.

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Based on the data of provincial input-output model and the carbon footprint model, the analysis is focused on provincial carbon footprint and the space transfer of carbon emissions. The results have shown that: (1) There are significant differences of provincial total carbon footprint amounts: resource-rich provinces have high total carbon footprint amounts, followed by processing and manufacturing provinces and municipalities; Regions with high energy efficiency have low carbon footprint amounts, so does southwestern region where economic and industrial development level is relatively low. (2
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42

Bo, Wei, Li Renwang, Zheng Hui, and Zong Xianliang. "Optimal Configuration Algorithm for Mechanical Products Based on the Constraint of Carbon Footprint." Open Mechanical Engineering Journal 9, no. 1 (2015): 312–19. http://dx.doi.org/10.2174/1874155x01509010312.

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The concept of carbon footprint controllable product is proposed to assess carbon footprint during the stage of product development and configuration. It’s different from carbon footprint assessment afterwards. As a result, the control objectives can be quantified accurately and realized easily. Relations among product characteristics, which include carbon footprint, are uncertain. In order to obtain the optimal product configuration scheme based on constraint of carbon footprint, three-stage theory is proposed. These three stages refer to functional configuration, compliance evaluation of car
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43

Tang, Fei Yun. "Carbon Footprint Research of Landscape Engineering Based on Life Cycle Analysis — Take the Unoccupied Space Landscape Engineering of Wuhan Optics Valley Road (Optics Valley Road One — Liufang Road Section) for Example." Applied Mechanics and Materials 584-586 (July 2014): 695–704. http://dx.doi.org/10.4028/www.scientific.net/amm.584-586.695.

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Carbon footprint calculation has important guiding significance to carbon emission reduction, especially the carbon footprint research of landscape engineering based on life cycle analysis fully reflects the whole condition of carbon emission in the construction process and effectively guide the whole process conducted with low-carbon. This essay preliminarily analyzes the condition of carbon footprint of life cycle in the construction project of landscape engineering, provides corresponding calculating boundary and calculating method for four stages--planning and design, construction, mainten
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44

Md Nor, Romiza, and Nor Fatin Fazira Abu Bakar. "Carbon Footprint Calculator for Paddy Production using Sustainable Web Design." Journal of Computing Research and Innovation 3, no. 3 (2018): 20–25. http://dx.doi.org/10.24191/jcrinn.v3i3.94.

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Climate change is one of the major issues that concerned by the global community. Carbon footprint calculation has evolved as one indicator to measure the concentration of the carbon emission release. Carbon footprint is the amount of carbon dioxide released into the atmosphere as the result of human activities. This research investigates the usability of the web application to increase the level of awareness towards carbon emission during paddy production. A web application called Paddy Footprint is developed by using two sustainable web design principles which are more sustainable component
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45

Wang, Yang, Biao Qiao, Zhukui Tan, et al. "Study on the carbon footprint impact analysis method of integrated energy system operation in low-carbon park considering multi-domain dynamic characteristics." Journal of Physics: Conference Series 2771, no. 1 (2024): 012003. http://dx.doi.org/10.1088/1742-6596/2771/1/012003.

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Abstract Low-carbon parks are an important battlefield for China to achieve the goal of peaking carbon neutrality. Accurate and efficient analysis and tracking of park carbon footprint is a necessary measure to reduce carbon and save energy in parks. Aiming at the problems of less research on the carbon footprint of low-carbon parks at home and abroad and the lack of tracking and analysis methods of dynamic influencing factors of carbon footprint, this paper focuses on the carbon footprint of typical low-carbon parks during operation and proposes a dynamic tracking method of the carbon footpri
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Wang, Yan, Hui Zhang, and Tie Ying Wang. "Structure Decomposition Analysis of the Carbon Footprint Differences between Beijing and Tianjin." Advanced Materials Research 734-737 (August 2013): 1960–63. http://dx.doi.org/10.4028/www.scientific.net/amr.734-737.1960.

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Carbon footprint is the total amount of CO2 emissions by particular product or service system in it full life cycle, or, it is the total amount of direct and indirect CO2 emissions by activity principals. There are significant differences of provincial total carbon footprint result from the different energy efficiency, final demand and input-output relationship of intermediate products. Based on the Structure Decomposition Analysis and input-output model, the differences of carbon footprint between Beijing and Tianjin are analyzed in this paper. The results show that the total carbon footprint
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47

Wan, Chen, Dan Zhou, and Bing Xue. "LCA-Based Carbon Footprint Accounting of Mixed Rare Earth Oxides Production from Ionic Rare Earths." Processes 10, no. 7 (2022): 1354. http://dx.doi.org/10.3390/pr10071354.

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At present, there are significant knowledge gaps in the research on the resource and environmental effects of rare earth exploitation, especially the carbon emission coefficient. This study applies the life cycle assessment approach to calculate the carbon footprint of producing mixed oxide rare earths using ionic rare earth resources and analyze the sources and influencing factors of the carbon footprint. The results show that the carbon footprint of producing 1 kg of mixed oxide rare earths using ionic rare earths is 17.8~24.3 kg CO2 eq, but its uncertainty is 15.54%; the total carbon footpr
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48

Cao, Rui, Yanhua Mo, and Jiangming Ma. "Carbon Footprint Analysis of Tourism Life Cycle: The Case of Guilin from 2011 to 2022." Sustainability 15, no. 9 (2023): 7124. http://dx.doi.org/10.3390/su15097124.

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Low-carbon tourism is an important way for the tourism industry to achieve the United Nations Sustainable Development Goals and the goals of carbon peaking and carbon neutrality. In order to promote the development of Guilin as a world-class tourism city and ensure the sustainable development of the tourism industry in Guilin, this paper combines the concept of carbon footprint and the theory of life cycle to build a tourists’ carbon footprint life cycle analysis model of Guilin. Taking tourists in Guilin as an example, the composition and changes of tourists’ carbon footprint are dynamically
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Mustafa, Atif, Majida Kazmi, Hashim Raza Khan, Saad Ahmed Qazi, and Sarosh Hashmat Lodi. "Towards a Carbon Neutral and Sustainable Campus: Case Study of NED University of Engineering and Technology." Sustainability 14, no. 2 (2022): 794. http://dx.doi.org/10.3390/su14020794.

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Globally, universities are evaluating and targeting to reduce their carbon emissions and operate on a sustainable basis. The overall aim of this study revolves in addressing the following three questions: (1) How to calculate carbon footprint, including indicators selection, criteria, and measurement, for higher education institutions? (2) How to evaluate impact and effectiveness of various mitigation strategies in context of a higher education institution? (3) What are the possible limitations of approach selected for carbon footprint calculation. This paper presents estimation of the carbon
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Kalogeropoulos, Christos, Eleftheria Missou, Nikolaos Elias Pavlis, and Dimitris Psychoyios. "Carbon-Efficient Supply Chains." International Journal of Corporate Finance and Accounting 2, no. 1 (2015): 1–24. http://dx.doi.org/10.4018/ijcfa.2015010101.

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The interest of present study lies on the Greenhouse Gases (GHG) that are generated throughout the supply chain. It has been proven by numerous studies that the anthropogenic activities generate GHG emissions, and actions can be undertaken to mitigate the problem, and the impact of them on the market. This study addresses the issue of the accurate calculation of the so-called Carbon Footprint of an enterprise. During their research, the authors point out the ways that enterprises could avail from it, and how Carbon Footprint influences the purchases. It is evident, though, that there is still
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