10 results
Search Results
2. Can the Coal-to-Gas/Electricity Policy Improve Air Quality in the Beijing–Tianjin–Hebei Region?—Empirical Analysis Based on the PSM-DID.
- Author
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Zhang, Jingran, Wang, Wukui, Gao, Lei, Deng, Zhenzhu, and Tian, Yu
- Subjects
COAL gas ,AIR pollution ,POLLUTION ,AIR pollutants ,AIR quality ,EXPERIMENTAL groups - Abstract
Air pollution caused by coal burning not only increases the cost of environmental pollution but also harms human health. It is urgent for China to change the practice of coal-fired central heating. Therefore, the effectiveness and sustainability of the Coal to Gas and Electricity policy have become the focus of all sectors of society. In this paper, eight cities in the Beijing–Tianjin–Hebei region were taken as the experimental groups and the other eleven cities as the control groups. Based on the PSM-DID model and the time-varying DID model, a quasi-natural experimental analysis was conducted to evaluate the effect of the policy of coal to gas and electricity to improve air quality in the Beijing–Tianjin–Hebei region from 2015 to 2020 and to test the sustainability of the policy. Three research conclusions are shown below: First, during the implementation of the policy, especially in 2019, the AQI index decreased significantly. Although there was a rebound thereafter, it was still lower than before. This shows that the Coal to Gas and Electricity policy has indeed improved the air quality in Beijing, Tianjin, and Hebei during its implementation. Second, the policy had a great impact on SO
2 and PM10 but was relatively weak on PM2.5 and CO. Therefore, there is an urgent need to formulate scientific and accurate policies to control different air pollutants. Third, the time-varying DID model was used to identify the dynamic sustainability effect of the Coal to Gas and Electricity policy. The results showed that the policy had a strong impact in the initial stage, but its effect was greatly reduced at the end of the implementation or near the end, when it was far less obvious than in the initial stage of the policy. Therefore, in formulating relevant measures to reduce air pollution, it is necessary to fully consider the sustainability of the policy. [ABSTRACT FROM AUTHOR]- Published
- 2022
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3. Regional development assessment based on POIs and Geotree: a case study in Beijing-Tianjin-Hebei region.
- Author
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Liang, Yuting and Hu, Yunfeng
- Subjects
REGIONAL development ,INDUSTRIALIZATION ,BIG data - Abstract
The use of Internet data to carry out geographic study has become an academic hotspot in recent years. We referred to the "Zhongke Beauty Index" and crawled 530 thousand POIs (POI: Point of interest) to carry out regional construction evaluation in Beijing-Tianjin-Hebei region. The results showed that: (1) Geographic big data provided detailed information for fine-grained regional research, and the POI evolution tree model revealed the shortcomings of regional development. (2) The Beijing-Tianjin-Hebei comprehensive beauty index in 2019 was 0.21, and Beijing and Tianjin are far ahead of Hebei in terms of ecology and culture. Specifically, the POI types of eco-environment construction of research area were single; the industrial development construction presented a trend of multi-center gathering; the social harmony construction has formed a gathering circle in Beijing; the eastern and central regions were the dominant regions in terms of institutional improvement construction; and the cultural inheritance construction was the shortest board in research area. (3) The evaluation ranking was sensitive to the population and the size of the area in Beijing-Tianjin-Hebei region. When evaluating, the uncertainty caused by the characteristics of indicators and POIs should be fully considered. This article indicated the shortcomings in five dimensions of Beijing-Tianjin-Hebei region and can provide reference for the evaluation of regional construction. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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4. Mitigation policies evaluation in the electric power sector for carbon neutrality, water conservation, and economic growth in the Beijing–Tianjin–Hebei region: a simulation with multi-regional dynamic CGE model.
- Author
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Zhou, Qian, Peng, Ying, Wu, Wenchao, Yabar, Helmut, Han, Ying, and Li, Yanbin
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CARBON offsetting ,WATER conservation ,COMPUTABLE general equilibrium models ,ELECTRIC power ,ECONOMIC expansion ,ENERGY industries - Abstract
As a politically and culturally important city cluster, the Beijing–Tianjin–Hebei region (BTH) has huge electricity and water consumption, while the local power generation capacity and water resources may not be sustainable long term according to the current power generation ratio. We introduced up-to-date strategic policies in China, carbon peaking and carbon neutrality (dual carbon goals), to assess their impact on environmental protection and economic development. Thus, we constructed a dynamic multi-regional computable general equilibrium model to simulate these changes in BTH. We designed four carbon reduction scenarios to explore the impact of policies including carbon taxes, investment, and renewable energy subsidies individually or combined. The findings reveal that implementing these policies together can increase the proportion of renewable energy in power generation to 17.2% (Beijing), 9.4% (Tianjin), and 33.2% (Hebei) by 2060. Under various policy scenarios, the Tax Scenario shows the largest water withdrawal savings, while the Investment Scenario shows the largest GDP growth by 2060. The combined implementation of these policies may minimize the negative impact on the economy while developing an environmentally friendly region. The results of the Combination Scenario are closest to carbon neutrality, narrowing the gap to 10.71%, 9.98%, and 9.85%, respectively. Conservation (water and electricity) and carbon reduction can provide significant support for carbon neutrality and sustainable development strategies. This study contributes to the evaluation of mitigation policies in BTH and provides a concrete policy option to achieve carbon neutrality. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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5. Evaluation of water resource use efficiency in Beijing-Tianjin-Hebei based on three-dimensional water ecological footprint.
- Author
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Tuoku, Lina and Men, Baohui
- Subjects
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WATER efficiency , *WATER supply , *ECOLOGICAL impact , *WATER shortages , *SUSTAINABLE development , *WATER consumption , *RESOURCE exploitation - Abstract
• Water use efficiency evaluation based on 3D water footprint using SBM model. • Two scenarios for water use efficiency evaluation. • Analyzing the driving forces affecting water footprint change using the LMDI model. Water shortage and the conflict between water supply and demand have become the main constraints to the sustainable development of sustainable societies in Beijing-Tianjin-Hebei (BTH) region. Scientific evaluation of water usage efficiency and clarification of the three-dimensional water ecological footprint (EF 3D) drivers are of great significance for the collaborative environmental management of BTH region. This paper firstly explores the evolution of water footprint breadth (EF size), depth (EF depth) and EF 3D in BTH region from 2004 to 2020. Using the super-efficient SBM (Slacks-Based Measure) model with EF 3D to evaluate the water use efficiency of BTH region in two scenarios. 22 impact factors were selected to analyze the dynamics affecting the change of EF 3D in BTH region by using the LMDI (Logistic Mean Divided Index) model. The results show that: (1) The water resources pressure of the three provinces are in the overload state from 2004 to 2020, and the EF 3D is at its maximum in 2011–2015. The EF depth of BTH region is fluctuating up and then fluctuating down around 2012, and the most serious capital consumption of water resources stock is in Tianjin. (2) The water resources in Hebei are all in inefficient use. The water resources in Tianjin are in a state of inefficient use in some study years, and since 2014, the water resources are in a state of fluctuating increase and high efficiency. As for Beijing, the water resources are in a state of efficient use in the study years. On the whole, scenario 2 better reflects the water resources utilization efficiency situation and is more in line with the real situation. (3) The water structure and endowment of water resources are pivotal factors positively influencing the EF 3D. To mitigate EF 3D and achieve sustainable utilization of water resources, both Hebei and Tianjin have ample room for progress in elevating agricultural water-saving technologies, optimizing industrial structure, and enhancing water usage patterns. Agricultural water consumption is no longer the primary driver of water resource depletion in Beijing, necessitating focused attention on the impact of external water diversions in terms of local water displacement, optimization of water usage structures, and their role in supporting socio-economic development. Additionally, excessive reliance on external water diversions may entail associated risks that warrant consideration. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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6. Statistical Analysis of the Development of the Port Cluster Economy in Beijing, Tianjin and Hebei.
- Author
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Li, Zhiwei
- Subjects
INTERNATIONAL competition ,VECTOR autoregression model ,STATISTICS ,COASTAL engineering ,IMPULSE response ,HARBORS - Abstract
Li, Z.-W., 2019. Statistical analysis of the development of the port cluster economy in Beijing, Tianjin and Hebei. In: Gong, D.; Zhu, H., and Liu, R. (eds.), Selected Topics in Coastal Research: Engineering, Industry, Economy, and Sustainable Development. Journal of Coastal Research, Special Issue No. 94, pp. 692–695. Coconut Creek (Florida), ISSN 0749-0208. This paper aims to explore the development strategies of Beijing-Tianjin-Hebei port cluster. Based on the data of Beijing-Tianjin-Hebei port cluster in 1980∼2014, a VAR model was established with such four variables as total handling capacity, import and export, GDP and the employment. Then, the economic relationship between the port cluster and the hinterland was analysed by impulse response, and the four variables were subjected to the Grainger causality test. The results show that the total handling capacity of the port cluster has a positive effect on the import and export, GDP, and employment, but the increase in GDP is not the Granger-cause of the increase in the port cluster throughput. The GDP growth only has a short-term driving effect on the port cluster throughput. The long-term growth of port throughput largely depends on international economy. What is worse, the positive effect of port throughput on hinterland economy is rather limited. The research findings and suggestions provide meaningful reference for the research on port cluster economy. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
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7. Using an improved ecological footprint model to analyze the sustainable utilization of water resources in Beijing–Tianjin–Hebei region.
- Author
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Chen, Meijing, Zhou, Qian, Duan, Weili, Xue, Qiang, and Chen, Cuibai
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WATER use ,ECOLOGICAL impact ,WATER supply ,WATER management ,ECOLOGICAL models - Abstract
Ecological security and sustainable utilization of water resources have become increasingly important focal areas in today's conversation about water resource management. Ecological footprint models of water resources are commonly used to analyze these factors; however, traditional models do not consider regional and interannual differences. Here, an improved model by calculating water resource equilibrium factors (γ
w ) was used to simulate the water resources ecological footprint (EFw ) and water resources ecological carrying capacity (ECw ) of Beijing, Tianjin, and Hebei. Ecological deficit and surplus (EDS), water load index (WRL), and ecological footprint of water resources per 104 Chinese yuan (WFG) were used to evaluate sustainable water usage. The findings reveal that γw is discrepant in across regions and years, as were EFw and ECw . Over the course of the study, EFw and ECw of Beijing–Tianjin–Hebei increased by > 25 and 46%, respectively. The sustainable utilization of water resources in the Beijing–Tianjin–Hebei region was found to be poor, but the utilization efficiency had improved through time. Finally, an uncertainty analysis was performed to determine how to improve sustainable development of water resources in Beijing–Tianjin–Hebei. Results suggested that reducing the discharge of sewage could reduce EFw and reducing the water consumption per 10,000 yuan of GDP could reduce WRL. This study provides valuable support for the sustainable utilization of water resources and the protection of ecological security in the Beijing–Tianjin–Hebei region. [ABSTRACT FROM AUTHOR]- Published
- 2023
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- View/download PDF
8. Predicting of motor vehicle carbon emissions and spatio-temporal characteristic analysis in the Beijing-Tianjin-Hebei region.
- Author
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Li, Yanxia, Liu, Hao, Lyu, Chen, Yang, Nan, and Liu, Zhongliang
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CITY traffic ,CARBON emissions ,MOTOR vehicles ,ROAD construction ,SMALL cities ,TRAFFIC flow - Abstract
In China, road traffic carbon emissions and their share in total carbon emissions have significantly increased. In the context of double carbon, the Beijing-Tianjin-Hebei region, the largest urban agglomeration in northern China, is receiving more and more attention. Due to the unbalanced development in Beijing-Tianjin-Hebei urban agglomeration, this thesis presents three computational models to calculate road traffic carbon emissions for large, medium-sized, and small cities and intercity traffic arteries based on the road network. The results show that in 2019, Beijing has the highest road carbon emissions reaching 19.91 million t CO
2 which is almost three times that of Shijiazhuang, the capital city of Hebei province. Dwellers' commuting usually results in an increase of 2.9%, 3.3%, and 4.5% on weekdays compared with weekends for Tianjin, Shijiazhuang, and Beijing, respectively. As for the intercity road, the daily traffic flow is about 1.92 million vehicles, leading to total carbon emissions of 22.97 million t CO2 . In addition, the reduction potential of carbon emissions in Beijing is evaluated. If the average road speed is increased to 0.9Vf (road design speed) during the morning rush hour in Beijing from 7 a.m. to 8 a.m., the road emission reduction could reach 57.85%. [ABSTRACT FROM AUTHOR]- Published
- 2023
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9. Research and Application of the Mutual Feedback Mechanism of a Regional Natural-Social Dualistic Water Cycle: A Case Study in Beijing–Tianjin–Hebei, China.
- Author
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Chang, Huanyu, Sang, Xuefeng, He, Guohua, Wang, Qingming, Jiang, Shan, He, Fan, Li, Haihong, and Zhao, Yong
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HYDROLOGIC cycle ,WATER rights ,DRINKING (Physiology) ,RUNOFF ,WATER supply - Abstract
With the intensification of human activities, the natural water cycle has a significant nature-society dual feature, and identifying the mutual feedback mechanism between natural and social water cycles is an important basis for a more accurate simulation of the dualistic water cycle. In this study, two indexes of cumulative runoff change rate and social water cycle feedback rate are put forward, representing the degree of change in socio-hydrological unit runoff under the mutual feedback of the natural social water cycle in all upstream regions, and the degree influence of the water intake, consumption, and discharge process of the social water cycle on the natural water cycle in the socio-hydrological unit, respectively. Taking the Beijing–Tianjin–Hebei region, which is marked by strong human activities, as the study area, the 2035 natural-social dualistic water cycles were simulated by a water allocation and simulation (WAS) model. Different water supply types and use structures cause the social water cycle to increase or decrease local runoff in different areas. The social water cycle feedback rate is greater than 1 in Beijing and Tianjin, and less than 0.25 in the mountainous areas and the Hebei plain, indicating that the social water cycle of each unit in the Beijing–Tianjin–Hebei region increases or decreases local runoff due to different water supply types and use structures. The cumulative runoff change rate in this region was 0.66, indicating that the overall runoff was attenuated due to the social water cycle, and runoff attenuation was greater in the south than the north. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
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10. Accessing the Heat Exposure Risk in Beijing–Tianjin–Hebei Region Based on Heat Island Footprint Analysis.
- Author
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Fu, Xuecheng, Yao, Lei, and Sun, Shuo
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RISK exposure ,URBAN heat islands - Abstract
The urbanization process leads to the enhancement of the urban heat island (UHI) effect, and the high temperature brought by it exacerbates the risk of heat exposure and seriously endangers human health. Analyzing the spatiotemporal characteristics and levels of heat exposure risk is important for formulating heat risk prevention and control measures. Therefore, this study analyzes the spatiotemporal characteristics of heat exposure risk based on the UHI footprint (FP) and explores the relationship between it and urbanization factors in the Beijing–Tianjin–Hebei (BTH) region from 2000 to 2020, and obtains the following conclusions: (1) The BTH region suffers from severe UHI problems, with FP ranging from 6.05 km (Chengde) to 32.51 km (Beijing), and the majority of cities show significant trends of FP increase. (2) With the increase in FP, massive populations are exposed within the heat risk areas, with the average annual population at risk across cities ranging from 269,826 (Chengde) to 166,020,390 (Beijing), with a predominance of people exposed to high risk (more than 65% of the total) and generally showing increasing trends. (3) The population at risk of heat exposure is significantly correlated with urbanization factors, indicating that urbanization is an important reason for the increase in the risk population and the enhancement of the risk level. These results suggest that with the continuous urbanization process, the heat exposure risk problem faced by cities in the BTH region will persist and gradually worsen, which must be paid attention to and effective mitigation measures must be taken. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
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