Showing total 3 results

1. Impacts of urban transformation on water footprint and sustainable energy in Shanghai, China.

Author

Zhang, Fan, Zhan, Jinyan, Li, Zhihui, Jia, Siqi, and Chen, Sijin

Subjects

*ECONOMIC development, *RENEWABLE energy sources, *SUSTAINABLE development, *ENERGY industries, *ECOLOGICAL impact, *ENERGY consumption

Abstract

For the past three decades, the notion of sustainable cities has become central in planning and managing urban areas in the world and the large-scale city formation has been formed in big cities. As a result of economic growth and urban transformation, Shanghai, a major Chinese international metropolis, faces ongoing issues with resource waste and low energy utilization. Therefore, this paper aims to consider the availability of water for energy production from a consumption-based perspective and estimate the water footprint of the energy supply using a regional input-output analysis approach for Shanghai. As a result, we conclude that the water footprint of the energy supply of Shanghai is about 1.28 billion m 3 in 2007, with 46.1% of water used for electricity and heat supply. The total water withdrawal by the energy sector is about 2.35 billion m 3 and additional water withdrawal needed is about 35% of the total water withdrawals by the energy sector in Shanghai. Furthermore, an energy self-sufficiency scenario was developed, and the scenario analysis reveals that 55% more water would be required to ensure a self-sufficient energy sector. To guarantee future regional energy security, it is important to manage water resources effectively by allocating water resources among sectors. [ABSTRACT FROM AUTHOR]

Published

2018

2. Green efficiency and environmental subsidy: Evidence from thermal power firms in China.

Author

Bai, Yu, Hua, Congcong, Jiao, Jianling, Yang, Min, and Li, Fangyi

Subjects

*ENERGY industries, *STEAM power plants, *SUSTAINABLE development, *ENERGY consumption, *TOBITS

Abstract

To achieve green development, ample environmental subsidies have been invested into many energy-intensive firms (such as thermal power firms) in China. Investigations of the effects of this kind of subsidy can help to provide specific and important implications for ongoing regulations. Unlike previous studies on the national, regional or sectoral level, this paper measures green efficiency and its compositions of thermal power firms and studies the impact of environmental subsidies on green efficiency by using the classical Slacks-based Measure and Tobit model. The results show that the average green efficiency ranges from 0.509 to 0.663 during 2010–2015, which is much lower than the general efficiency. The green scale efficiency is the main reason for the low green efficiency, thus indicating large room for improvement. Environmental subsidies negatively affect green efficiency and its decompositions from 2010 to 2013. The negative effect becomes weak and insignificant in 2014, and the environmental subsidies start to significantly promote green efficiency and its decompositions in 2015. According to our findings, some implications relating to improving green scale efficiency, increasing the intensity of environmental subsidies to firms and strengthening their supervision are proposed. [ABSTRACT FROM AUTHOR]

Published

2018

3. Multi-dimensional pinch analysis for sustainable power generation sector planning in China.

Author

Jia, Xiaoping, Li, Zhiwei, Wang, Fang, Foo, Dominic C.Y., and Tan, Raymond R.

Subjects

*SUSTAINABLE development, *ENERGY industries, *BUSINESS planning, *ENERGY consumption, *ELECTRIC power, *ECOLOGICAL impact

Abstract

Emerging economies account for a fast-growing share of the global energy market. In particular, energy use in China has become significant from both economic and environmental standpoints. This trend makes it necessary to balance the need for affordable, reliable electricity supply with the need to ensure that the power infrastructure is environmentally sustainable. As such, this paper presents a multi-dimensional pinch analysis (MDPA) of the power generation sector in China; the analysis considers five key indices: carbon footprint, energy return on investment (EROI), water footprint, land footprint, and risk to humans. By simultaneously quantifying five different indices under a common methodological framework, we are able to coherently assess the impact on five different environmental concerns. This approach provides a more complete picture of the true environmental impact of China's power sector. This information can thus help policymakers avoid the problem of shifting environmental impacts to other domains, which can occur when the analytic procedure used focuses on a single environmental dimension. [ABSTRACT FROM AUTHOR]

Published

2016