Volume 18 - Issue 6

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IJERD : Volume 18 - Issue 6

(November - December - 2022)


Rajbir Singh Rathee

Statistics on E-Waste Generation and Management Scenario in India
  • Abstract
  • Keywords
  • Reference
  • Full Article
Rapid technological advances in electronics industry coupled with increase in purchasing power and decrease in cost of electronic devices has escalated the product obsolescence and led to extremist consumerism throughout the world. As per a study, two of the five Indians replace their smartphones every year. This behavior has brought in a new type of solid waste commonly known as e-waste (electronic waste). Recently, e-waste has become the fastest growing solid waste stream all over the world. Due to its non-biodegradable nature and long life-span, e-waste piles up about three times faster in comparison to other types of solid wastes; thereby exacerbating the ever existing problem of solid waste management,especially in developing countries like India.........
e-waste, e-waste management, e-waste statistics in India.

[1]. Step Initiative. 2014. Solving the E-Waste Problem (Step) White Paper One Global Definition of E-waste. Retrieved from https://www.step-initiative.org/files/_documents/whitepapers/StEP_WP_One%20Global%20Definition%20of%20E-waste_20140603_amended.pdf

[2]. Forti, Baldé, Kuehr, BelForti, V., Baldé, C. P., Kuehr, R., Bel, G., 2020. The global e-waste monitor 2020: quantities, flows, and the circular economy potential.

[3]. Baldé, C.P., Forti V., Gray, V., Kuehr, R., Stegmann,P. : The Global E-waste Monitor – 2017, United Nations University (UNU), International Telecommunication Union (ITU) & International Solid Waste Association (ISWA), Bonn/Geneva/Vienna.

[4]. Forti, V., Baldé, K. and Kuehr, R., 2018. E-waste statistics: guidelines on classifications, reporting and indicators.
[5]. F. Tesfaye et al. 2017. Improving urban mining practices for optimal recovery of resources from e-waste, Miner. Eng.

Citation
Rajbir Singh Rathee "Statistics on E-Waste Generation and Management Scenario in India" International Journal of Engineering Research and Development, Volume 18, Issue 06 (November - December 2022)
MID 1806.067X.0001. India
Page 01-08      Download Certificate
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Bo-Jie Xu, Ya-Peng Li, Hao-Chen, Li-Xin Chen, Qi-Kai Gong, Yin-Peng Li, Hong-Bin Sun

3D digital concept design of the wind-powered water- lifting device
  • Abstract
  • Keywords
  • Reference
  • Full Article
The development of wind energy resources is important for changing the structure of China's energy industry, of which wind power generation has broad development prospects and resource advantages. The application of wind power for water lifting and irrigation is a new trend. In this paper, we propose a wind- powered water-lifting device based on a vertical axis wind turbine and develop a three-dimensional digital concept design for it..
wind energy wind turbine water lifting and irrigation digital design

[1]. Liang Lixiang.New energy generation wind power technology research[J]. Rural Economy and Science, 2021, 32(20): 5-7.
[2]. Xiao Jianzhong, Shi Wenyu, Tan Yifan.Substitutability of Renewable Energy and Traditional Fossil Fuel: Based on Analysis of Translog Production Function[J]. Journal of Shenyang University(Natural Science), 2021, 33(05): 382-390.
[3]. Yang Jinlong, Mou Xindi, Liu Xiaoting, Dong Jichang.Environmental Analysis and Policy suggestions on the Internationalization of Wind Energy Industry in China[J]. Science&Technology For Development, 2018, 14(09): 826-832.
[4]. Yue Xiaowen, Sun Shichang, Zhou Ying, Yuan Zhengang, Liu Shumin.Present Conditions of Solar Energy and Wind Energy Industry and Suggestions on Development of Petroleum Companies[J].Petroleum Science and Technology Forum, 2020, 39(03): 44-49.
[5]. Li Jian.Research on the development prospects of wind power generation in China [J]. China Plant Engineering, 2019(14): 184-185.
[6]. Cheng Rongxiang, Zhang Ruiqiang.Prospects for the development of water irrigation using wind energy in China[J]. Rural Energy, 1998(05): 25-27.

Citation
Bo-Jie Xu, Ya-Peng Li, Hao-Chen, Li-Xin Chen, Qi-Kai Gong, Yin-Peng Li, Hong-Bin Sun "3D digital concept design of the wind-powered water- lifting device" International Journal of Engineering Research and Development, Volume 18, Issue 06 (November - December 2022)
MID 1806.067X.0001. China
Page 09-16      Download Certificate
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