مقاله انگلیسی رایگان در مورد توصیف حسابداری انرژی نهان با یک چارچوب چند بعدی – الزویر 2019

 

مشخصات مقاله
ترجمه عنوان مقاله توصیف حسابداری انرژی نهان با یک چارچوب چند بعدی: مطالعه در مورد بخش ساختمان چین
عنوان انگلیسی مقاله Characterizing embodied energy accounting with a multi-dimensional framework: A study of China’s building sector
انتشار مقاله سال 2019
تعداد صفحات مقاله انگلیسی 11 صفحه
هزینه دانلود مقاله انگلیسی رایگان میباشد.
پایگاه داده نشریه الزویر
نوع نگارش مقاله
مقاله پژوهشی (Research Article)
مقاله بیس این مقاله بیس میباشد
نمایه (index) Scopus – Master Journals List – JCR
نوع مقاله ISI
فرمت مقاله انگلیسی  PDF
ایمپکت فاکتور(IF)
7.096 در سال 2018
شاخص H_index 150 در سال 2019
شاخص SJR 1.620 در سال 2018
شناسه ISSN 0959-6526
شاخص Quartile (چارک) Q1 در سال 2018
مدل مفهومی دارد
پرسشنامه ندارد
متغیر ندارد
رفرنس دارد
رشته های مرتبط حسابداری، مهندسی انرژی، معماری
گرایش های مرتبط فناوری های انرژی، تکنولوژی معماری
نوع ارائه مقاله
ژورنال
مجله  مجله تولید پاک – Journal of Cleaner Production
دانشگاه School of Construction Management and Real Estate, Chongqing University, Chongqing, 400045, China
کلمات کلیدی انرژی نهان، بخش ساختمان، چارچوب چند بعدی، بخشی، منطقه ای، زنجیره تامین
کلمات کلیدی انگلیسی Embodied energy، Building sector، Multi-dimensional framework، Sectoral، Regional، Supply chain
شناسه دیجیتال – doi
https://doi.org/10.1016/j.jclepro.2018.12.300
کد محصول E11575
وضعیت ترجمه مقاله  ترجمه آماده این مقاله موجود نمیباشد. میتوانید از طریق دکمه پایین سفارش دهید.
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فهرست مطالب مقاله:
Abstract

1- Introduction

2- Review of embodied energy quantification in China’s economy

3- Methodology

4- Results and analysis

5- Discussion and policy implications

6- Conclusions

References

 

بخشی از متن مقاله:

Abstract

Given the substantial resource use and emissions generated from the building sector, China is seeking a more sustainable and greener mode of building construction. To grasp the characteristics of the embodied energy use of the building sector across provinces in China, a multidimensional framework is developed to examine the spatial and sectoral distributions through the whole supply chain using a multiregional input-output (MRIO) analysis and structural path analysis (SPA) as the underlying methods. The results show that from a regional perspective, Liaoning, Shandong, and Guangdong are identified as top contributors, while from a sectoral perspective, the manufacture of nonmetallic mineral products, smelting and pressing of metals, and transportation, storage, posts, and telecommunications are the largest energy suppliers. The upstream examination indicates that self-digestion is an obvious and dominant energy use behavior for most regions, while the relative importance of sectoral suppliers changes regularly with the increase in upstream stages. The energy capture that occurred in the cross-regional energy transfers indicates that Zhejiang and Hebei are the national leading net importer and net exporter of energy use in China’s building sector, respectively.

Introduction

The building sector has become one of the most important contributors to the global growth of adverse environment impacts by exerting significant effects on resource consumption and emission generation. According to the data obtained from the previous research, two-fifths of global energy consumption, one-fourth of waste generation and water use, and one-third of the world’s greenhouse gas (GHG) emissions are attributable to the construction and operation of buildings (Buildings and Initiative, 2009; Chau et al., 2015a; Dixit et al., 2015). Driven by mandatory energy reduction targets and an ambitious plan to reduce carbon dioxide emissions per unit of gross domestic product (GDP) by 60e65% by 2030, China is seeking to achieve a greener and more sustainable urbanization process by improving energy efficiency in the building sector. Although the operational phase consumes more energy in the lifecycle of a building, the significance of investigating the embodied energy use of a building has been gradually realized by the research community because of its vital role in achieving sustainability in the building sector (Emmanuel, 2004; Huberman and Pearlmutter, 2008; Jeong et al., 2012; Tucker et al., 1993). The necessity of quantifying the embodied energy consumption of buildings may have caused the following issues to arise. First, with the growing emphasis on energy-efficient buildings, innovative materials and advanced technologies have been adopted in newly built buildings, thus causing the proportion of embodied energy to increase by 30e50% of a building’s lifecycle energy consumption (Sartori and Hestnes, 2007). Second, lifespan directly impacts the contribution of the embodied phase from a lifecycle perspective. Additionally, in comparison to the operational phase, which has been extensively studied by more standardized methods (Copiello, 2016; Scheuer et al., 2003; Van Ooteghem and Xu, 2012), the attribution and mechanism of the embodied energy consumption in the construction process remain unclear (Dixit, 2017a).

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