Influence of External Parameters on the Dynamic Behavior of Resource-economic-pollution System

Main Article Content

Jiuli Yin
Jing Huang
Xinghua Fan

Abstract

This paper discusses a new type of selective-constrained resource-economic-pollution (REP) system. Based on the nonlinear dynamics theory, the dynamic behavior of the new system is discussed. The genetic algorithm is used to identify the quantitative coefficients of the actual system.
This paper further analyses the impact of state regulation, economic marketization management and green lifestyle on economic growth. Taking the actual situation into consideration in China, the empirical research is carried out by adjusting the parameters of the actual system. The dynamic evolution of real economic growth is observed which predicts future trends more realistically. The research shows that the introduction of state regulation into the REP system can promote economic growth quickly at a small rate in the short term. However, state regulation has little effect on economic growth in the long run. The impact of economic marketization management on the economy is moderate. A short-term, small-scale green lifestyle has little impact on system and economic growth because of China’s large population base.

Keywords:
Selective constrained resource-economic-pollution;, state regulation, economic marketization management, green lifestyle, economic growth.

Article Details

How to Cite
Yin, J., Huang, J., & Fan, X. (2019). Influence of External Parameters on the Dynamic Behavior of Resource-economic-pollution System. Journal of Energy Research and Reviews, 3(2), 1-13. https://doi.org/10.9734/jenrr/2019/v3i230092
Section
Original Research Article

References

Schou P. Polluting non-renewable resources and growth. Environmental and ResourceEconomics. 2000;16(2):211-227.

Bo S. A literature survey on environmental kuznets curve. Sciencedirect. 2011;5:13221325.

Alain D, Ayong LK. Sustainable growth, renewable resources and pollution. Journal of Economic Dynamics and Control. 2001;25(12):1911-1918.

Sakamoto T, Managi S. Optimal economic growth and energy policy: analysis of nonrenewable and renewable energy. Environmental Economics and PolicyStudies. 2016;18(1):1-19.

Khalid M, Shehla M. Agricultural exports and economic growth in pakistan: An econometric reassessment. Quality & Quantity. 2017;52(4):1561-1574.

Charfeddine L, Afnan Yousef AM, Kholoud AK. Is it possible to improve environmental quality without reducing economic growth: Evidence from the qatar economy. Renewable and Sustainable Energy Reviews. 2018;82:25-39.

Das A, Chowdhury M, Seaborn S. Ict diffusion, financial development and economic growth: New evidence from low and lower middle-income countries. Journal of the Knowledge Economy. 2018;9(3):928- 947.

Malin S, Jun P, Jianlin W, Jiajia Z. Environmental efficiency and economic growth of china: A ray slack-based model analysis. European Journal of Operational Research 2018;269:51-63.

Qiang W, Rui J, Rongrong Li. Decoupling analysis of economic growth from water usein city: A case study of beijing, shanghai, and guangzhou of china. Sustainable Cities and Society. 2018;41:86-94.

Mei S, Xiaofang W, Ying C, and Lixin T. Energy resources demand-supply system analysis and empirical research based on non-linear approach. Energy. 2011;36(9):5460-5465.

Minggang W, Lixin T. Regulating effect of the energy marketheoretical and empirical analysis based on a novel energypricesnergy supplyconomic growth dynamic system. Applied Energy. 2015;155:526-546.

Jiuli Y, Xinghua F, Huihui X. Chaotic behaviour in a resource-economy- pollution dynamic system. Journal of MultidisciplinaryEngineering Science and Technology. 2017;4:2458.

Zhanwen D, Lixin T, Honglin Y. Equilibrium path in oligopolistic market of nonrenewable resource. Nonlinear Analysis: Real World Applications. 2008;9(5):1918-1927.

Zhi-Nan Lu, Heyin C, Yu H, Jingyi W, Xiaojie S, Toi Meng M. The dynamic relationshipbetween environmental pollution, economicdevelopment and public health: Evidence from china. Journal of Cleaner Production.

;166:134-147.

Guochang F, Lixin T, Mei S, Min F. Analysis and application of a novel three-dimensional energy-saving and mission-reductiondynamic evolution system. Energy. ;40(1):291-299.

Guochang F, Lixin T, Min F, Mei S. Government control or low carbonlifestyle? analysis and application of a novel selective-constrained energy-saving and emission-reduction dynamic evolution system. Energy Policy. 2014;68:498-507.

Yanqing J. Springer Berlin Heidelberg, Berlin, Heidelberg. Environmental Quality and ”Green” Economic Growth in the Chinese Regions. 2014;pages 245-259.

Hossein J, Colin K, David P. The impact of regulation on economic growth in developing countries: A cross- country analysis. World Development. 2007;35(1):87-103.

Van Son L, Xiaoxia Y, Lu Z. Are market views on banking industry useful for forecasting economic growth? Pacific-Basin Finance Journal; 2018.

Ingrid O, Susanne S. Green attitude and economic growth. Environmental and Resource Economics. 2018;70(4):757-779.

Kurt AH, David MF. Fertility, economic growth, and human development causaldeterminants of the developed lifestyle. Journal of Macroeconomics. 2013;38:107-120.

Anthony J. M, Thomas F. W. Economic growth, lifestyle preferences, and urban size. Urban Ecology. 1977;2(3):259-278.