Author(s)

Bei Hu

Affiliation(s)

Huazhong University of Science and Technology

Corresponding Author

Bei Hu

ABSTRACT

The development of China's economy has promoted the improvement of the national comprehensive strength, and in the process of development, China's demand for various energy sources is also gradually increasing. The use of traditional energy will not only lead to less and less energy resources, but also cause serious damage to the ecological environment. China began to pay attention to the protection of the ecological environment. Relevant departments have also taken all kinds of effective measures to promote the development and utilization of new energy, aiming to reduce the impact of traditional energy mining and use process on the ecological environment, which is conducive to improve the quality of environment in China. Therefore, it is necessary to conduct in-depth research on new energy development under the background of ecological environment protection. This paper analyzed the new  energy  development under the  background of ecological environment protection, in order to  promote the development of the ecological environment protection work in China.

KEYWORDS

Ecological environment protection; New energy development; Sustainable development.

CITE THIS PAPER

Bei Hu. New energy development under background of ecological environment protection. Frontiers in Environmental Research. 2023, 1(1): 14-17.

REFERENCES

[1] ZHAO Ran. Overall promotion of hydropower and new energy development ecological environment protection. China Power Report, 2022.

[2] Shi Zhengui. New energy development based on ecological environment protection. Environmental Engineering, 2021, 39(11): 244.

[3] Ma Wenyu. Analysis on environmental protection and new energy development. Shandong Chemical Industry, 202 1, 50 (2): 270-271.

[4]Wang Boyu. From the perspective of high school students on environmental protection and new energy development. Flowers, 2018(20): 312.

[5] Meng Xiangjun. Discussion on Rural Energy and Environmental Protection Measures. Agriculture and Technology, 2017, 37 (24): 246-247.

[6] Guo Mingtao, Zhang Zimin, et. The influence of the law of existence. Coal Mine Modernization, 2010 (5) : 38-39.

[7] Wang Peng, Li Lin, Xu Jianjun. Surface Coalbed Methane Drainage of No. 3 Coal Seam in Zhaozhuang Mine, Qinshui Basin Analysis of the causes of low yield. Energy and Environmental Protection, 2020, 42(9) : 123-127.

[8] Jiang Qingshan. Jincheng Chengzhuang Mine Analysis of influencing factors of coal seam gas occurrence. Modernization, 2012(1): 69-72.

[9] Wang Zhaofeng, Li Hong, Ke Changyou. Chengzhuang Mine Analysis of influencing factors of coal seam gas occurrence. Coal Engineering, 2011(4): 58-60.

[10] Zhang Kaifei, Liu Hantao, Lei Guangping. Analysis of methane adsorption characteristics in Zhaozhuang coal Sub-simulation. Chinese Science and Technology Papers, 2020, 15(1): 94-99.

[11] Meng JQ, Zhong R Q, Li SC. Molecular model construct- the action and study of gas absorption of Zhaozhuang coal.Energy Fuels, 2018, 32: 9727-9737.

[12] Xiang Jianhua, Zeng Fangui, Li Bin. Macromolecular structure model and analysis of Chengzhuang anthracite coal Sub-simulation. Journal of Fuel Chemistry, 2013, 41(4): 391-399.

[13] Gelb LD, Gubbins KE. Pore size distributions in porous glasses: a computer simulation study. Langmuir, 1999, 15(2): 305-308.