This page has only limited features, please log in for full access.

Dr. Jingjing Yan
School of Economics and Management, China University of Geosciences, Beijing 100083, China

Basic Info

Basic Info is private.

Research Keywords & Expertise

0 Industrial Economics
0 Water Resources
0 waste biomass managment
0 water environment
0 resources capacity

Fingerprints

Water Resources
water environment

Honors and Awards

The user has no records in this section


Career Timeline

The user has no records in this section.


Short Biography

The user biography is not available.
Following
Followers
Co Authors
The list of users this user is following is empty.
Following: 0 users

Feed

Research article
Published: 19 January 2021 in Environmental Science and Pollution Research
Reads 0
Downloads 0

Coastal cities play an important role in regional economic development and sustainable development strategies of water resources and their ecological environment. As a typical coastal city in Hebei Province, Qinhuangdao city is facing severe problems, such as water shortages and water environment deterioration, while social and economic development continues. Based on input-output analysis, we established a dynamic optimization model among Qinhuangdao city’s socioeconomic development, water resources and water environment. The 2013–2030 simulation after introducing comprehensive water resources policies of regional development, examines the regional socioeconomic development, optimizes the water resources supply structure and improves the water environment under the optimal scenario, and evaluates policy feasibility through cost-benefit analysis (CBA). The simulation results suggest that under the optimal scenario, the water-use efficiency (WE) of Qinhuangdao is improved by 59.14% and the proportion of reclaimed water and desalinated seawater in the water supply structure is increased by 13.70%. In addition, it has achieved an average annual gross regional production (GRP) growth rate of 6.36% and an average annual chemical oxygen demand (COD) emission rate of 17.95%. Moreover, the net present value (NPV) of the projects under the optimal scenario is 1.534 billion Chinese yuan (CNY), which means that the policy is economically feasible. Our research is helpful to improve the WE, optimize the water supply structure and protect the hydrogeological environment in coastal cities with water shortages and can provide a reference for Qinhuangdao city and other similar coastal cities to realize the rational utilization of water resources and regional sustainable development.

ACS Style

Ziyao An; Jingjing Yan; Jinghua Sha; Yufang Ma; Siyu Mou. Dynamic simulation for comprehensive water resources policies to improve water-use efficiency in coastal city. Environmental Science and Pollution Research 2021, 28, 25628 -25649.

AMA Style

Ziyao An, Jingjing Yan, Jinghua Sha, Yufang Ma, Siyu Mou. Dynamic simulation for comprehensive water resources policies to improve water-use efficiency in coastal city. Environmental Science and Pollution Research. 2021; 28 (20):25628-25649.

Chicago/Turabian Style

Ziyao An; Jingjing Yan; Jinghua Sha; Yufang Ma; Siyu Mou. 2021. "Dynamic simulation for comprehensive water resources policies to improve water-use efficiency in coastal city." Environmental Science and Pollution Research 28, no. 20: 25628-25649.

Journal article
Published: 01 January 2021 in 资源科学
Reads 0
Downloads 0
ACS Style

Wenlan Ke; Jingjing Yan; Rongrong Wu; Guofeng Zhang; Jinghua Sha. Reuse potential of wastewater and sludge in Fujian Province based on a dynamic optimization model and sustainable urban development. 资源科学 2021, 43, 477 -488.

AMA Style

Wenlan Ke, Jingjing Yan, Rongrong Wu, Guofeng Zhang, Jinghua Sha. Reuse potential of wastewater and sludge in Fujian Province based on a dynamic optimization model and sustainable urban development. 资源科学. 2021; 43 (3):477-488.

Chicago/Turabian Style

Wenlan Ke; Jingjing Yan; Rongrong Wu; Guofeng Zhang; Jinghua Sha. 2021. "Reuse potential of wastewater and sludge in Fujian Province based on a dynamic optimization model and sustainable urban development." 资源科学 43, no. 3: 477-488.

Journal article
Published: 12 November 2020 in Journal of Cleaner Production
Reads 0
Downloads 0

Agriculture, a strategic industry that secures the country and stabilizes society, has invariably been valued by China to feed its 1.4 billion people. However, the long-term extensive development of agriculture has led to a series of water problems such as groundwater overexploitation, water shortages, and water pollution in some areas of China, resulting in great pressure on the ecological environment and social economy. In this paper, we constructed a dynamic optimization simulation model based on the input–output (I–O) approach within the horizon of 2012–2025 to explore the synthetic optimal policies for achieving both socioeconomic development, and water resources and water environment protection in a node city on the middle route of the South-to-North Water Transfer Project, Handan. Six scenarios based on various synthetic policies were adopted. The simulation results show that during the simulation period, the maximum development of the social economy can be achieved under the premise of achieving the specific objectives of water resources and water environment protection in a comprehensive scenario. In addition, the water environment improved: the annual chemical oxygen demand (COD) emissions reduced by 7.5%, 10.3%, 5.0%, and 5.9% in pig farming, cattle farming, chicken farming, and households, respectively. Furthermore, the water supply–demand structure was optimized. The water demand of wheat planting and groundwater extraction decreased at an annual rate of 9.1% and 7.7%, respectively. The supply of reclaimed water increased at an annual rate of 9.2%. The model adapted in the paper can simulate and evaluate the impact of all the feasible synthetic policies on the economy, water resources, and water environment, and provide targeted, scientific recommendations for solving the agricultural water use problems in other regions.

ACS Style

Xiaoxiao Hao; Jingjing Yan; Jinghua Sha; Wenlan Ke; Gengyu He; Ci Song; Yufang Ma; Guofeng Zhang. Exploring the synthetic optimal policies for solving problems of agricultural water use with a dynamic optimization simulation model. Journal of Cleaner Production 2020, 287, 125062 .

AMA Style

Xiaoxiao Hao, Jingjing Yan, Jinghua Sha, Wenlan Ke, Gengyu He, Ci Song, Yufang Ma, Guofeng Zhang. Exploring the synthetic optimal policies for solving problems of agricultural water use with a dynamic optimization simulation model. Journal of Cleaner Production. 2020; 287 ():125062.

Chicago/Turabian Style

Xiaoxiao Hao; Jingjing Yan; Jinghua Sha; Wenlan Ke; Gengyu He; Ci Song; Yufang Ma; Guofeng Zhang. 2020. "Exploring the synthetic optimal policies for solving problems of agricultural water use with a dynamic optimization simulation model." Journal of Cleaner Production 287, no. : 125062.

Journal article
Published: 21 September 2020 in Water
Reads 0
Downloads 0

Scientific water resource carrying capacity (WRCC) evaluations are necessary for providing guidance for the sustainable utilization of water resources. Based on the driving-pressure-state-impact-response feedback loop, this paper selects 21 indicators under five dimensions to construct a regional WRCC comprehensive evaluation framework. The projection pursuit clustering (PPC) method is implemented with the matter-element extension (MEE) model to overcome the limitations of subjective deviation and indicator attribute incompatibility in traditional comprehensive assessment methods affecting the accuracy of evaluations. The application of the integrated evaluation model is demonstrated in Baoding city in the Jing-Jin-Ji area from 2010 to 2017. The results indicate that the economic water consumption intensity is the most influential factor that impacts the WRCC change in Baoding, and the pressure subsystem and response subsystem are dominant in the entire system. The WRCC in Baoding significantly improved between 2010 and 2017 from a grade V extremely unsafe state to a grade III critical state. Natural water shortages and large population scales are the main negative factors during this period; however, the existing measures are still insufficient to achieve an optimal WRCC status. Considering the future population and industry inflow, additional actions must be proposed to maintain and promote harmonious conditions.

ACS Style

Siyu Mou; Jingjing Yan; Jinghua Sha; Shen Deng; Zhenxing Gao; Wenlan Ke; Shule Li. A Comprehensive Evaluation Model of Regional Water Resource Carrying Capacity: Model Development and a Case Study in Baoding, China. Water 2020, 12, 2637 .

AMA Style

Siyu Mou, Jingjing Yan, Jinghua Sha, Shen Deng, Zhenxing Gao, Wenlan Ke, Shule Li. A Comprehensive Evaluation Model of Regional Water Resource Carrying Capacity: Model Development and a Case Study in Baoding, China. Water. 2020; 12 (9):2637.

Chicago/Turabian Style

Siyu Mou; Jingjing Yan; Jinghua Sha; Shen Deng; Zhenxing Gao; Wenlan Ke; Shule Li. 2020. "A Comprehensive Evaluation Model of Regional Water Resource Carrying Capacity: Model Development and a Case Study in Baoding, China." Water 12, no. 9: 2637.

Addendum
Published: 11 December 2019 in Sustainability
Reads 0
Downloads 0

The authors would like to make the following corrections about the published paper

ACS Style

Shule Li; Jingjing Yan; Qiuming Pei; Jinghua Sha; Siyu Mou; Yong Xiao. Addendum: Li, S., et al. Risk Identification and Evaluation of the Long-term Supply of Manganese Mines in China Based on the VW-BGR Method. Sustainability 2019, 11, 2683. Sustainability 2019, 11, 7081 .

AMA Style

Shule Li, Jingjing Yan, Qiuming Pei, Jinghua Sha, Siyu Mou, Yong Xiao. Addendum: Li, S., et al. Risk Identification and Evaluation of the Long-term Supply of Manganese Mines in China Based on the VW-BGR Method. Sustainability 2019, 11, 2683. Sustainability. 2019; 11 (24):7081.

Chicago/Turabian Style

Shule Li; Jingjing Yan; Qiuming Pei; Jinghua Sha; Siyu Mou; Yong Xiao. 2019. "Addendum: Li, S., et al. Risk Identification and Evaluation of the Long-term Supply of Manganese Mines in China Based on the VW-BGR Method. Sustainability 2019, 11, 2683." Sustainability 11, no. 24: 7081.

Research article
Published: 23 July 2019 in Environmental Science and Pollution Research
Reads 0
Downloads 0

With rapid industrialization and urbanization, regional water shortages and water quality deterioration have posed great challenges for the sustainable development of cities in North China, especially those with a large demand for agricultural irrigation water. Based on an input-output analysis, this paper develops a dynamic optimization model consisting of three sub-models and multiple constraint conditions to solve the water crisis of Baoding, a typical city experiencing water shortages and serious water pollution in North China. The water resource carrying capacity (WRCC) indicator is introduced in the analysis of the results to comprehensively assess the effect of integrated water environmental policies (IWEPs) from 2013 to 2025. In the optimal scenario, the annual chemical oxygen demand (COD) discharge and annual water demand in Baoding can be reduced by 2.6% and 0.6%, respectively, with an annual gross regional product (GRP) growth rate of 7.52%. The WRCC can be improved from moderately overloaded to weakly unsaturated, which indicates that water resources can meet the socioeconomic development requirements. The results demonstrate the effectiveness of the linear optimization model with input-output analysis in coordinating the relationships among water demand, water environment protection, and economic development, and the IWEPs provide an applicable reference for decision-makers in Baoding and other similar cities in North China to address deteriorating water systems.

ACS Style

Siyu Mou; Jingjing Yan; Jinghua Sha; Shule Li; Yufang Ma; Gengyu He; Ci Song. Dynamic simulation of the optimal allocation of water resources via the introduction of integrated water environmental policies in Baoding, China. Environmental Science and Pollution Research 2019, 26, 27516 -27533.

AMA Style

Siyu Mou, Jingjing Yan, Jinghua Sha, Shule Li, Yufang Ma, Gengyu He, Ci Song. Dynamic simulation of the optimal allocation of water resources via the introduction of integrated water environmental policies in Baoding, China. Environmental Science and Pollution Research. 2019; 26 (26):27516-27533.

Chicago/Turabian Style

Siyu Mou; Jingjing Yan; Jinghua Sha; Shule Li; Yufang Ma; Gengyu He; Ci Song. 2019. "Dynamic simulation of the optimal allocation of water resources via the introduction of integrated water environmental policies in Baoding, China." Environmental Science and Pollution Research 26, no. 26: 27516-27533.

Journal article
Published: 10 May 2019 in Sustainability
Reads 0
Downloads 0

Manganese is mostly used in the iron and steel industry and serves as an important metal mineral in the national economy. It is difficult to substantially increase the output of China’s manganese ore because it is of low grade and high impurity content. However, as a large consumer in the world, it is very important to ensure the long-term stable supply of this mineral. Collecting historical data on manganese ore in China over the past 20 years, we identified and evaluated risks during the whole process of production, supply, consumption, reserves, and trade of resources using the Volkswagen and German Federal Institute for Geosciences and Natural Resources (VW-BGR) method by selecting nine indicators: current market equilibrium, market price volatility, Reserve/production ratio, import dependence, import concentration, country risks, country concentration and future supply and demand trend. Furthermore, we assessed its economic importance by calculating the contribution of manganese ore involved in different value chains. It shows the same downward trend both in manganese ore consumption and economic importance, and the future demand of manganese ore will slow down, and the global supply will exceed demand. Based on the comprehensive evaluation of supply and demand trends in the past and future, it was concluded that the current market balance, import dependence and country concentration risks are the main driving factors for the supply risk of manganese ore in China, showing higher supply risk than that of the other factors; the resource and geostrategic risks are moderate, and may significantly reduce the supply risk if effective measures are implemented. As per the aforementioned analysis, to address the risk of supply interruption, this study provides some suggestions and measures, such as strengthening resource reserves and low-grade manganese ore utilization at home, actively exploring foreign markets, exploiting overseas resources, expanding import channels, extending the industrial chain, and adopting equity mergers and acquisitions abroad.

ACS Style

Shule Li; Jingjing Yan; Qiuming Pei; Jinghua Sha; Siyu Mou; Yong Xiao. Risk Identification and Evaluation of the Long-term Supply of Manganese Mines in China Based on the VW-BGR Method. Sustainability 2019, 11, 2683 .

AMA Style

Shule Li, Jingjing Yan, Qiuming Pei, Jinghua Sha, Siyu Mou, Yong Xiao. Risk Identification and Evaluation of the Long-term Supply of Manganese Mines in China Based on the VW-BGR Method. Sustainability. 2019; 11 (9):2683.

Chicago/Turabian Style

Shule Li; Jingjing Yan; Qiuming Pei; Jinghua Sha; Siyu Mou; Yong Xiao. 2019. "Risk Identification and Evaluation of the Long-term Supply of Manganese Mines in China Based on the VW-BGR Method." Sustainability 11, no. 9: 2683.

Journal article
Published: 04 August 2018 in Journal of Cleaner Production
Reads 0
Downloads 0

Zhangjiakou City, one of the organizers of 2022 Olympic and Paralympic Winter Games, is designed as a water conservation area of Beijing because of its unique location, but it's an extremely water-deficient area and has poor economy. The dual constraints of its water resources endowment and external policies force the developers of Zhangjiakou City to confront the dual restriction of the water supply support guarantee and control of water pollutants. The purpose of this paper was to realize water conservation on the premise of sustainable economic development. A linear optimization model, based on a dynamic input–output analysis, was developed to simulate the complex interrelationships between water resources and the social economy, and explore the optimal policies. The simulation results show that from 2013 to 2025, the targets of water conservation, including water retention and water environment control, will be achieved with an annual chemical oxygen demand emissions reduction rate of 12.6% and a constant annual real gross regional product rate of 4.3%. The optimal policies contributes to increasing reclaimed water supply, easing the groundwater exploitation, and optimizing the structure of industries and water demand. The evaluation is suitable for simulating economic development with strict constraints of environmental conservation in other regions with insufficient natural resources.

ACS Style

Ci Song; Jingjing Yan; Jinghua Sha; Gengyu He; Xiaoxia Lin; Yufang Ma. Dynamic modeling application for simulating optimal policies on water conservation in Zhangjiakou City, China. Journal of Cleaner Production 2018, 201, 111 -122.

AMA Style

Ci Song, Jingjing Yan, Jinghua Sha, Gengyu He, Xiaoxia Lin, Yufang Ma. Dynamic modeling application for simulating optimal policies on water conservation in Zhangjiakou City, China. Journal of Cleaner Production. 2018; 201 ():111-122.

Chicago/Turabian Style

Ci Song; Jingjing Yan; Jinghua Sha; Gengyu He; Xiaoxia Lin; Yufang Ma. 2018. "Dynamic modeling application for simulating optimal policies on water conservation in Zhangjiakou City, China." Journal of Cleaner Production 201, no. : 111-122.

Journal article
Published: 21 December 2016 in Water
Reads 0
Downloads 0

Water shortage and water pollution are important factors restricting sustainable social and economic development. As a typical coal resource-exhausted city and a node city of the South-to-North Water Transfer East Route Project in China, Zaozhuang City’s water resources management faces multiple constraints such as transformation of economic development, restriction of groundwater exploitation, and improvement of water environment. In this paper, we develop a linear optimization model by input–output analysis to study water resources management with the introduction of three advanced sewage treatment technologies for pollutant treatment and reclaimed water production. The simulation results showed that from 2014 to 2020, Zaozhuang City will realize an annual GDP growth rate of 7.1% with an annual chemical oxygen demand (COD) emissions reduction rate of 5.5%. The proportion of primary industry, secondary industry, and tertiary industry would be adjusted to 5.6%, 40.8%, and 53.6%, respectively. The amount of reclaimed water supply could be increased by 91% and groundwater supply could be decreased by 6%. Based on the simulation, this model proposes a scientific reference on water resources management policies, including water environment control, water supply plan, and financial subsidy, to realize the sustainable development of economy and water resources usage.

ACS Style

Gengyu He; Jingjing Yan; Jinghua Sha; Ci Song; Shuai Zhong. Exploration of an Optimal Policy for Water Resources Management Including the Introduction of Advanced Sewage Treatment Technologies in Zaozhuang City, China. Water 2016, 8, 608 .

AMA Style

Gengyu He, Jingjing Yan, Jinghua Sha, Ci Song, Shuai Zhong. Exploration of an Optimal Policy for Water Resources Management Including the Introduction of Advanced Sewage Treatment Technologies in Zaozhuang City, China. Water. 2016; 8 (12):608.

Chicago/Turabian Style

Gengyu He; Jingjing Yan; Jinghua Sha; Ci Song; Shuai Zhong. 2016. "Exploration of an Optimal Policy for Water Resources Management Including the Introduction of Advanced Sewage Treatment Technologies in Zaozhuang City, China." Water 8, no. 12: 608.

Journal article
Published: 06 February 2016 in Sustainability
Reads 0
Downloads 0

Water resource and environment capacity have become two of the most important restrictions for sustainable development in resource-based cities whose leading industries are the exploitation and processing of resources. Taking Ordos in China as an example, this article constructs an integrated model combining a multi-objective optimization model with input–output analysis to achieve the tradeoffs between economic growth, water utilization and environmental protection. This dynamic model includes socioeconomic, water supply–demand, water quality control, air quality control, energy consumption control and integrated policy sub-models. These six sub-models interact with each other. After simulation, this article proposes efficient solutions on industrial restructuring by maximizing the Gross Regional Product of Ordos from 394.3 in 2012 to 785.1 billion RMB in 2025 with a growth rate of 6.4% annually; and presents a water supply plan by maximizing the proportion of reclaimed water from 2% to 6.3% through sewage treatment technology selection and introduction, and effective water allocation. Meanwhile, the environmental impacts are all in line with the planning targets. This study illustrates that the integrated modeling is generic and can be applied to any region suffering uncoordinated development issues and can serve as a pre-evaluation approach for conducting early warning research to offer suggestions for government decision-making.

ACS Style

Wenlan Ke; Jinghua Sha; Jingjing Yan; Guofeng Zhang; Rongrong Wu. A Multi-Objective Input–Output Linear Model for Water Supply, Economic Growth and Environmental Planning in Resource-Based Cities. Sustainability 2016, 8, 160 .

AMA Style

Wenlan Ke, Jinghua Sha, Jingjing Yan, Guofeng Zhang, Rongrong Wu. A Multi-Objective Input–Output Linear Model for Water Supply, Economic Growth and Environmental Planning in Resource-Based Cities. Sustainability. 2016; 8 (2):160.

Chicago/Turabian Style

Wenlan Ke; Jinghua Sha; Jingjing Yan; Guofeng Zhang; Rongrong Wu. 2016. "A Multi-Objective Input–Output Linear Model for Water Supply, Economic Growth and Environmental Planning in Resource-Based Cities." Sustainability 8, no. 2: 160.

Journal article
Published: 30 June 2015 in Water
Reads 0
Downloads 0

The reform of water management in China is still in progress, and the pricing of water resources is undertaken in parallel, with a divide between irrigation water and pipe water associated with different users: The supply of irrigation water is regulated by local government and that of pipe water is operated by the production sector of pipe water. Based on a literature review and an interview survey of farmers, this study incorporated the water parallel pricing system of China within a computable general equilibrium (CGE) model, where the drought of 2000 is simulated. The 16 provincial irrigation water supplies and their subsidies were also estimated and introduced into this CGE model. The results demonstrated that the effects on the macro-economy were insignificant. However, the effects on agricultural production, particularly on farming production mainly cultivated in northern areas, were significant. Most farming production sectors employed more capital and labor to prevent losses in output from drought. Agricultural labor was shifted from non-farming agricultural production sectors into farming. Both urban and rural households suffered severe losses in welfare and food consumption, even though they benefited from the additional income. Moreover, rural households suffering the worst losses were located in both northern and southern areas.

ACS Style

Shuai Zhong; Lei Shen; Jinghua Sha; Mitsuru Okiyama; Suminori Tokunaga; Litao Liu; Jingjing Yan. Assessing the Water Parallel Pricing System against Drought in China: A Study Based on a CGE Model with Multi-Provincial Irrigation Water. Water 2015, 7, 3431 -3465.

AMA Style

Shuai Zhong, Lei Shen, Jinghua Sha, Mitsuru Okiyama, Suminori Tokunaga, Litao Liu, Jingjing Yan. Assessing the Water Parallel Pricing System against Drought in China: A Study Based on a CGE Model with Multi-Provincial Irrigation Water. Water. 2015; 7 (12):3431-3465.

Chicago/Turabian Style

Shuai Zhong; Lei Shen; Jinghua Sha; Mitsuru Okiyama; Suminori Tokunaga; Litao Liu; Jingjing Yan. 2015. "Assessing the Water Parallel Pricing System against Drought in China: A Study Based on a CGE Model with Multi-Provincial Irrigation Water." Water 7, no. 12: 3431-3465.

Journal article
Published: 18 November 2014 in Sustainability
Reads 0
Downloads 0

The stockbreeding industry is growing rapidly in rural regions of China, carrying a high risk to the water environment due to the emission of huge amounts of pollutants in terms of COD, T-N and T-P to rivers. On the other hand, as a typical biomass resource, stockbreeding waste can be used as a clean energy source by biomass utilization technologies. In this paper, we constructed a dynamic linear optimization model to simulate the synthetic water environment management policies which includes both the water environment system and social-economic situational changes over 10 years. Based on the simulation, the model can precisely estimate trends of water quality, production of stockbreeding biomass energy and economic development under certain restrictions of the water environment. We examined seven towns of Shunyi district of Beijing as the target area to analyse synthetic water environment management policies by computer simulation based on the effective utilization of stockbreeding biomass resources to improve water quality and realize sustainable development. The purpose of our research is to establish an effective utilization method of biomass resources incorporating water environment preservation, resource reutilization and economic development, and finally realize the sustainable development of the society.

ACS Style

Jingjing Yan; Jinghua Sha; Xiao Chu; Feng Xu; Nan Xiang. Dynamic Evaluation of Water Quality Improvement Based on Effective Utilization of Stockbreeding Biomass Resource. Sustainability 2014, 6, 8218 -8236.

AMA Style

Jingjing Yan, Jinghua Sha, Xiao Chu, Feng Xu, Nan Xiang. Dynamic Evaluation of Water Quality Improvement Based on Effective Utilization of Stockbreeding Biomass Resource. Sustainability. 2014; 6 (11):8218-8236.

Chicago/Turabian Style

Jingjing Yan; Jinghua Sha; Xiao Chu; Feng Xu; Nan Xiang. 2014. "Dynamic Evaluation of Water Quality Improvement Based on Effective Utilization of Stockbreeding Biomass Resource." Sustainability 6, no. 11: 8218-8236.

Book chapter
Published: 28 August 2014 in SpringerBriefs in Economics
Reads 0
Downloads 0

The stockbreeding industry is booming rapidly in rural areas around big cities in China, especially in the rural areas around Beijing, carrying high risk to the environment due to emission of huge amounts of pollutants, such as COD, T-N, and T-P, as well as greenhouse gases into rivers and atmosphere. On the other hand, as typical biomass resource, stockbreeding waste can be used as energy source by advanced technologies. The purpose of our research is to establish effective utilization methods of biomass resource with coordination among resource reutilization, environmental preservation, and economic development, and finally realize the sustainable development of the society. The background, objectives, and methods of this book are introduced, and all the concepts and literature reviews are shown in this chapter.

ACS Style

Jingjing Yan. Introduction. SpringerBriefs in Economics 2014, 1 -18.

AMA Style

Jingjing Yan. Introduction. SpringerBriefs in Economics. 2014; ():1-18.

Chicago/Turabian Style

Jingjing Yan. 2014. "Introduction." SpringerBriefs in Economics , no. : 1-18.

Book chapter
Published: 28 August 2014 in SpringerBriefs in Economics
Reads 0
Downloads 0

In this Chapter, we carried out the cost-benefit analysis and regional analysis to research how to arrange the two advanced technologies in the catchment area for different towns. The results of socio cost-benefit analysis show that there is great feasibility and possibility to introduce advanced technologies in the catchment area. From the aspects of regions, the application of advanced technologies is based on the concentration and scale of pig-farms in different regions.

ACS Style

Jingjing Yan. Cost Benefit Analysis and Regional Analysis. SpringerBriefs in Economics 2014, 91 -97.

AMA Style

Jingjing Yan. Cost Benefit Analysis and Regional Analysis. SpringerBriefs in Economics. 2014; ():91-97.

Chicago/Turabian Style

Jingjing Yan. 2014. "Cost Benefit Analysis and Regional Analysis." SpringerBriefs in Economics , no. : 91-97.

Book chapter
Published: 28 August 2014 in SpringerBriefs in Economics
Reads 0
Downloads 0

In this Chapter, we adopted the integrated policies to minimize water pollutants flowing into Miyun Reservoir based on two sub-models. Particularly, we improved the economic models so that they are more adaptive to the specific characteristics and the actual situation of suburbs of big cities in China. Based on the results of the simulation, the efficiency of wet methane fermentation technology is not sufficient to treat the high concentrations of wastes in the water and meet the requirements of future economic development in the catchment area. Especially, the pig farming industry requires the introduction of advanced technology to allow simultaneous pursuit of environmental preservation and economic development.

ACS Style

Jingjing Yan. Evaluation of Water Pollutant Minimization Policies with Adopting Present Technology. SpringerBriefs in Economics 2014, 33 -56.

AMA Style

Jingjing Yan. Evaluation of Water Pollutant Minimization Policies with Adopting Present Technology. SpringerBriefs in Economics. 2014; ():33-56.

Chicago/Turabian Style

Jingjing Yan. 2014. "Evaluation of Water Pollutant Minimization Policies with Adopting Present Technology." SpringerBriefs in Economics , no. : 33-56.

Book chapter
Published: 28 August 2014 in SpringerBriefs in Economics
Reads 0
Downloads 0

Miyun County is the largest rural suburb and the most important county of Beijing. Miyun County has a unique significance for the regional environment, and dramatically influences the water safety and local development of Beijing. In the catchment areas of Miyun Reservoir, stockbreeding wastes are generated and heavily contribute to water pollution, especially pig farming, which has become the source of the most serious pollutants of Miyun Reservoir. In this Chapter, the characteristics of the Miyun County, Miyun Reservoir, and the study area, and the current environmental conditions are presented.

ACS Style

Jingjing Yan. Characteristics of the Study Area. SpringerBriefs in Economics 2014, 19 -32.

AMA Style

Jingjing Yan. Characteristics of the Study Area. SpringerBriefs in Economics. 2014; ():19-32.

Chicago/Turabian Style

Jingjing Yan. 2014. "Characteristics of the Study Area." SpringerBriefs in Economics , no. : 19-32.

Book chapter
Published: 28 August 2014 in SpringerBriefs in Economics
Reads 0
Downloads 0

The topic in this research is mainly to develop a mathematical model on the bases of some assumptions integrated with the ecosystem and economic structure based on available data to find out current environmental and economic state and future changes, which are very important to be able to formulate and introduce an optimal policy to achieve an improvement on environment and effective utilization of stockbreeding biomass resources with considerable economic growth and finally realize effective utilization of wastes, reduction of environmental pollutants and economic development. Considering the characteristics and requirements of China’s economy and society, we figure out the summary of results as follows. In Chap. 2 we calculated and analyzed the current situations of the study area from aspects of economy and water environmental pollution. According to the results of statistics, stockbreeding wastes in the study area contribute heavily to water pol ...

ACS Style

Jingjing Yan. Conclusions. SpringerBriefs in Economics 2014, 99 -105.

AMA Style

Jingjing Yan. Conclusions. SpringerBriefs in Economics. 2014; ():99-105.

Chicago/Turabian Style

Jingjing Yan. 2014. "Conclusions." SpringerBriefs in Economics , no. : 99-105.

Book chapter
Published: 28 August 2014 in SpringerBriefs in Economics
Reads 0
Downloads 0

In this Chapter, we improved and modified the simulation model in Chap. 3. In the simulation, we considered the specific and special characteristics of study area’s economy and social state in terms of sustained economic growth rate, financial subordination relations, and regional environmental policies, which are different with the model of Japan. Besides these, we introduced two different advanced technologies from Japan and China to the study area through simulation with integrated policies and carried out regional analysis and allocation for two technologies. The chosen integrated policies in Chap. 4 are introduced as endogenous variables in the model in order to do comprehensive evaluation of environmental policies with advanced technologies for effective utilization of stockbreeding wastes.

ACS Style

Jingjing Yan. Comprehensive Evaluation of Environmental Policies with Advanced Technologies for Effective Utilization of Biomass Resource. SpringerBriefs in Economics 2014, 65 -90.

AMA Style

Jingjing Yan. Comprehensive Evaluation of Environmental Policies with Advanced Technologies for Effective Utilization of Biomass Resource. SpringerBriefs in Economics. 2014; ():65-90.

Chicago/Turabian Style

Jingjing Yan. 2014. "Comprehensive Evaluation of Environmental Policies with Advanced Technologies for Effective Utilization of Biomass Resource." SpringerBriefs in Economics , no. : 65-90.

Book chapter
Published: 28 August 2014 in SpringerBriefs in Economics
Reads 0
Downloads 0

This Chapter consists (1) a literature review of the main environmental policies regarding reduction of pollution and appraisal of stockbreeding wastes treatment methods; (2) the introduction of integrated policies framework that were raised to realize effective utilization of stockbreeding wastes and environmental preservation; and (3) the introducing of advanced technologies for proper treatment of stockbreeding wastes in the study area.

ACS Style

Jingjing Yan. Analysis of Optimal Environmental Policies with Advanced Technologies for Effective Treatment of Stockbreeding Wastes. SpringerBriefs in Economics 2014, 57 -64.

AMA Style

Jingjing Yan. Analysis of Optimal Environmental Policies with Advanced Technologies for Effective Treatment of Stockbreeding Wastes. SpringerBriefs in Economics. 2014; ():57-64.

Chicago/Turabian Style

Jingjing Yan. 2014. "Analysis of Optimal Environmental Policies with Advanced Technologies for Effective Treatment of Stockbreeding Wastes." SpringerBriefs in Economics , no. : 57-64.

Journal article
Published: 17 July 2014 in Letters in Spatial and Resource Sciences
Reads 0
Downloads 0

Along with the rapid economic development of China, carbon dioxide (CO \(_{2}\) ) emissions will inevitable rise in the future. This will happen even though the Chinese government has made a series of attempts to constrain the CO \(_{2}\) -emissions, and is committed to reduce its CO \(_{2}\) -emissions per unit of gross domestic product (GDP) by 40–45 % (1,045–1,140 tons/million dollars) by 2020 from 2005 levels. However, according to estimates the total amount of CO \(_{2}\) -emissions will grow to more than 13 billion tons, and the carbon intensity will be twice of the world average. In order to improve this situation, this research study will construct a comprehensive dynamic simulation model to forecast China’s CO \(_{2}\) -emissions and GDP development under different energy structure adjustment plans and carbon intensity constraints from 2008 to 2020. In addition, find out the trade-off between Chinese carbon intensity reduction and economic development. The comprehensive model we constructed includes a CO \(_{2}\) -emissions model, an energy balance model, and a socio-economic model. Through a dynamic simulation analysis established by LINGO programming, this study provides the proper carbon intensity that China can achieve under the current situation, lie 1,040 tons/million dollars in 2020 (a 45 % reduction compared with the situation in 2005), while the CO \(_{2}\) -emissions will be 12.51 billion tons, the proportion of non-fossil energy 15 %, and the average annual increase in GDP 9 %. This research provides an effective method to estimate the interaction between economic growth and CO \(_{2}\) -emissions reduction, with alternative energy utilization in the future.

ACS Style

Feng Xu; Nan Xiang; Jingjing Yan; Lujun Chen; Peter Nijkamp; Yoshiro Higano. Dynamic simulation of China’s carbon emission reduction potential by 2020. Letters in Spatial and Resource Sciences 2014, 8, 15 -27.

AMA Style

Feng Xu, Nan Xiang, Jingjing Yan, Lujun Chen, Peter Nijkamp, Yoshiro Higano. Dynamic simulation of China’s carbon emission reduction potential by 2020. Letters in Spatial and Resource Sciences. 2014; 8 (1):15-27.

Chicago/Turabian Style

Feng Xu; Nan Xiang; Jingjing Yan; Lujun Chen; Peter Nijkamp; Yoshiro Higano. 2014. "Dynamic simulation of China’s carbon emission reduction potential by 2020." Letters in Spatial and Resource Sciences 8, no. 1: 15-27.