Showing total 13 results

1. Exploring hydrogen geologic storage in China for future energy: Opportunities and challenges.

Author

Du, Zhengyang, Dai, Zhenxue, Yang, Zhijie, Zhan, Chuanjun, Chen, Wei, Cao, Mingxu, Thanh, Hung Vo, and Soltanian, Mohamad Reza

Subjects

*HYDROGEN storage, *ENERGY futures, *GEOLOGICAL carbon sequestration, *RENEWABLE energy sources, *WATER leakage, *GEOLOGICAL formations, *GAS fields

Abstract

Hydrogen, as a clean and efficient energy source, is important in achieving zero-CO 2 targets. This paper explores the potential of hydrogen geologic storage (HGS) in China for large-scale energy storage, crucial for stabilizing intermittent renewable energy sources and managing peak demand. Despite its promise, HGS faces challenges due to hydrogen's low density and viscosity, and its complex interactions with geological formations and microorganisms. This review offers a comprehensive overview of the current research status for HGS, with a particular focus on highlighting the main challenges confronting China. These difficulties and challenges primarily arise from complex geological conditions and the absence of fundamental parameters within potential reservoirs, including depleted oil/gas fields, salt caverns, and brine aquifers. Additionally, we have synthesized the current applications of machine learning (ML)as a potential solution. Key challenges are examined, such as the effects of operational parameters (e.g., cyclical injection-production and injection rates) on HGS efficiency, which can influence phenomena such as hydrogen fingering and caprock integrity. This review also looks into the insufficiently understood hydrogen-water-rock geochemical reactions under diverse temperatures and pressures, a gap that hampers the development of predictive numerical simulations and raises concerns about hydrogen leakage due to changes in porosity and permeability. Additionally, the paper addresses the limited knowledge about the metabolic mechanisms of subsurface microorganisms under extreme conditions, highlighting potential risks of hydrogen leakage and groundwater contamination. These microorganisms can metabolize hydrogen, producing gases such as CH 4 and H 2 S, which may cause steel corrosion. Furthermore, the study assesses the distribution and prospects of three primary methods for pure hydrogen storage in China, considering the current state of hydrogen development and relevant government policies. The role of ML in advancing HGS is also discussed, offering insights into future research directions. This review not only scrutinizes the scientific challenges of HGS but also underscores its potential, guiding future simulation and practical engineering applications in this field. • HGS is feasibility in China through policy examination and potential site analysis. • Geochemical and microbial reactions jeopardize to reservoir integrity and H 2 quality. • Elucidating the present application and future prospective for ML in HGS. • Summarizing the key challenges associated with achieving large-scale HGS. [ABSTRACT FROM AUTHOR]

Published

2024

2. Performance evaluation of aquavoltaics in China: Retrospect and prospect.

Author

Chen, Xin and Zhou, Wenjia

Subjects

*DATA envelopment analysis, *CARBON offsetting, *STATISTICAL correlation, *REGRESSION analysis, *TOBITS

Abstract

Aquavoltaic is an essential tool in overcoming the ground-based photovoltaic (PV) development barrier and achieving China's carbon neutrality target. After summarizing aquavoltaic technologies and global cases, this paper assesses the effectiveness of 292 aquavoltaic plants in China using the data envelopment analysis (DEA) method. Six essential input and output variables are included: installed capacity, power generation, occupied water area, construction cost, PV modules, and global horizontal irradiation to offer an appropriate measure of aquavoltaics efficiency in China. This study also performed correlation analysis for PV module type, PV mounting mode, and ownership based on a Tobit regression model. The results show that the efficiencies of China's aquavoltaics have improved significantly between 2014 and 2022, with the emergence and popularity of high-power PV modules playing a pivotal role. Furthermore, the regional study discovered provincial efficiency varies substantially. This paper also gives two reference indicators for new aquavoltaics in the future. • The global aquavoltaic technologies and cases were summarized. • The history and status quo of aquavoltaics in China were reviewed. • Aquavoltaics' energy efficiency has increased significantly in China. • The high-power PV modules have a positive impact on efficiency growth. [ABSTRACT FROM AUTHOR]

Published

2023

3. The potential strategy of promoting China's participation in arctic energy development.

Author

Liu, Yang, Kong, Zhaoyang, Jiang, Qingzhe, and Dong, Xiucheng

Subjects

*ENERGY development, *ENERGY consumption, *FOSSIL fuels, *PARTICIPATION, *INTERNATIONAL cooperation, *ENVIRONMENTAL risk, *CARBON offsetting

Abstract

As a non-Arctic country and a major energy consumer, China is increasingly interested in participating in Arctic energy development. This study aims to investigate potential strategies to promote China's participation in Arctic energy development. Accordingly, this study analyzes the strengths, weaknesses, opportunities, and threats (SWOT) of China's participation in Arctic energy development based on a discussion of the current status of Arctic energy development and the Arctic policies of major countries. In addition, this work develops strategies in accordance with the above analysis. The results show that China has strengths in terms of capital, energy demand, policy support, and international cooperation when participating in Arctic energy development, while its weaknesses include the lack of core technology and equipment, high carbon intensity of energy development, and geographical disadvantage. China faces opportunities stemming from conflicts among Arctic states, the advancement of global carbon neutrality, and the development of Arctic waterway while facing threats such as increased competition, international public opinion pressure, high development costs, environmental risks, and pandemic instability. Under an integrated framework, this work offers four strategies: Strength-Opportunity (SO), Strength-Threat (ST), Weakness-Opportunity (WO), and Weakness-Threat (WT). Finally, this study proposes specific measures in four areas, including strengthening policy support, promoting technical research and development, enhancing international cooperation, and improving enterprise competitiveness. [Display omitted] • This study examines China's participation in Arctic energy development. • This paper reviews the status of fossil and non-fossil energy in the Arctic. • This study compares the Arctic energy development strategies of major countries. • This study proposes four strategies, namely SO, ST, WO, and WT. [ABSTRACT FROM AUTHOR]

Published

2023

4. State-of-the-art review and future trends of development of tidal current energy converters in China.

Author

Si, Yulin, Liu, Xiaodong, Wang, Tao, Feng, Bo, Qian, Peng, Ma, Yong, and Zhang, Dahai

Subjects

*TIDAL currents, *TECHNOLOGY assessment, *TECHNOLOGICAL innovations, *COASTS, *POWER density

Abstract

Owing to its high resource predictability and power density, tidal current energy has garnered extensive attention worldwide, from both academia and industry, in the past decade. Currently, China is also accelerating the development of tidal current energy because of the abundant tidal current resources along the country's highly populated southeast coasts. The objective of this development is to meet the increasing power demands for coastal cities, islands, and various maritime applications. The tidal current energy conversion systems in China have undergone rapid technological advancements in the past ten years, particularly after the deployment of several large-sized tidal current turbines. Although several review papers have covered the evolution of tidal current energy converters (TCECs) in China since the 1980s, a comprehensive update of the past decade has not been systematically reported, which might be of significant interest to researchers, developers, and investors worldwide. In this paper, we present the state-of-the-art TCEC technological developments in China in terms of scale, efficiency, reliability, and other innovations. Their technology readiness level and problems are also discussed. It is found that TCEC development in China has been diverging toward two different directions: large-sized turbines for grid connection and small-scale turbines for diverse applications in marine environments. Finally, we present the current challenges and future trends of TCEC advancement in China. • Existing tidal current energy converters in China are reviewed. • Development trend of large-scale equipment and diversified applications is analyzed. • Challenges and suggestions for the tidal current energy technology are summarized. [ABSTRACT FROM AUTHOR]

Published

2022

5. A review of publicly available data sources for models to study renewables integration in China's power system.

Author

Zhang, Xiaodong, Patino-Echeverri, Dalia, Li, Mingquan, and Wu, Libo

Subjects

*ELECTRIC power systems, *DATA modeling, *ELECTRIC power, *PERFORMANCE technology, *ENERGY policy

Abstract

The ongoing transformation of the world's energy system requires detailed power-system models that help plan a cost-effective and reliable integration of variable renewables and demand-side resources. The quality and depth of the results of these models depend on the existence of trustworthy, complete, and high-resolution data on extant electric power assets and the demand they serve, wind and solar resources, and projections on costs and performance of technologies that could be developed during the next three decades. This paper assesses the quality of China's power system's publicly available data compared to the U.S. It concludes that despite growing use of power system models to inform and analyze Chinese energy policy, the availability of necessary data is still a significant barrier that severely limits the transparency, replicability, relevance, and usefulness of their results. • Ongoing energy system transformation requires detailed power-system models. • Usefulness of models' results depends on reliable, complete high-resolution data. • Paper proposes criteria to assess the quality of publicly available data for models. • Publicly available data for China's electric power system is scant and low quality. • Filling data gaps will inform decisions for a sustainable electric power system. [ABSTRACT FROM AUTHOR]

Published

2022

6. Water saving potential for large-scale photovoltaic power generation in China: Based on life cycle assessment.

Author

Yang, Qing, Huang, Tianyue, Chen, Fuying, Uche, Javier, Wang, Yuxuan, Yuan, Peng, Zhang, Yinya, and Li, Jianlan

Subjects

*PHOTOVOLTAIC power generation, *WATER consumption, *PRODUCT life cycle assessment, *EVAPOTRANSPIRATION, *PHOTOVOLTAIC power systems, *WATER supply

Abstract

While large-scale photovoltaic is regarded as a water saving generation technology, it comes with direct water consumption and embodied indirect water consumption associated with the manufacture of system equipment and building materials during construction. However, few studies have quantified the water consumptive use for photovoltaic generation from a life cycle perspective. In this context, this paper carefully calculated the life cycle water consumption for large-scale photovoltaic power generation in China and identified the hot spots in its supply chain. The results show the life cycle water consumption per kW installed capacity of large-scale photovoltaic plants is 20,419 L. Photovoltaic panel production and the Balance of System together make up over 85% of the total. The application of recycling technologies to the photovoltaic system is promised to cut down the total water consumption by another 13%. Then the water consumption intensity of large-scale photovoltaic power generation in China is presented at the provincial resolution in the range of 0.45–1.52 L/kWh, which is significantly lower than that of current power generation in China. In addition, considering the power generation structure in China in recent years, the water saving potential under the maximum photovoltaic scenario in China during the year 2015–2017 could reach 3.75%, 4.04%, and 4.27% of China's national water supply. Finally, the regional water stress index is also introduced to explore the influence of water consumption on locally available water resources. This study could enable policymakers to better relate the development of large-scale photovoltaics to water saving strategies. • A more updated and comprehensive LCA study for PV water consumption is conducted. • Under the landfilling scenario, the water consumption of PV plants is 20,419 L/kWp. • Replacing China's electricity supply with PV brings water saving potential. [ABSTRACT FROM AUTHOR]

Published

2022

7. Empirical evidence based effectiveness assessment of policy regimes for wind power development in China.

Author

Liu, Tingting, Chen, Zhe, and Xu, Jiuping

Subjects

*WIND power, *RENEWABLE energy sources, *PANEL analysis, *ENERGY security

Abstract

As a renewable energy, wind power has been improving energy structures and assisting in the maintenance of strategic energy security. Based on provincial level panel data from 2000 to 2018, this paper developed models to evaluate the effects of different policies on newly installed wind power capacity and investigated the market reform influences on wind development in eight spot market pilots. It was found that on a national level, while the pricing and government guideline policies significantly promoted wind power growth, present market reforms were having an opposite effect. The results also suggested that from a resource endowment heterogeneity perspective, there was a significant difference in the wind capacity promotion policy performances. Additionally, of the eight spot market pilots, market designs had led to a significant reduction in new wind power installations in Gansu and Inner Mongolia, and no significant wind power development effects were found in the other pilots. Based on the research results, a discussion on policy use and suggestions on policy improvements are given. • Effectiveness of different representative wind power policies are examined. • The panel models are developed using data that covers 30 provinces over 2000–2018. • Policy effectiveness varies by policy types and wind resource levels. • The current market designs show little impact on wind power development. • Implications on policy use and improvement suggestions are given. [ABSTRACT FROM AUTHOR]

Published

2022

8. The coordination of pumped hydro storage, electric vehicles, and climate policy in imperfect electricity markets: Insights from China.

Author

Wesseh, Presley K., Benjamin, Nelson I., and Lin, Boqiang

Subjects

*ELECTRICITY markets, *GOVERNMENT policy on climate change, *POWER resources, *ELECTRIC power production, *STORAGE, *ELECTRIC vehicles

Abstract

An understanding of how storage technologies coordinate with other power resources to deliver value for electricity market participants in compliance with climate policy will be vital as policy makers seek to decarbonize electricity generation in a cost-effective way. This paper adopts a game-theoretic electricity market model to evaluate the interaction between pumped hydro storage, electric vehicles, and climate policy under a range of assumptions regarding market power and ownership of generation and storage assets. Using data from the Chinese electricity market, it shows that climate policy may not incentivize storage utilization especially when firms that hold a dominant position in storage operation own a limited portfolio of generation assets. In addition, electric vehicles may not improve consumers' welfare in the presence of pumped hydro storage when perfect competition exists in the market. These results have significant implications for public policy. • A game-theoretic electricity market model is evaluated for China. • The interaction between storage, electric vehicles, and climate policy is studied. • Climate policy may not incentivize storage use depending on the ownership of assets. • The benefits of electric vehicles decline in the presence of pumped hydro storage. • Perfect competition may not always create the best choices for consumers. [ABSTRACT FROM AUTHOR]

Published

2022

9. China's response to nuclear safety pre- and post-Fukushima: An interdisciplinary analysis.

Author

Lam, Jacqueline C.K., Cheung, Lawrence Y.L., Han, Yang, and Wang, Shanshan

Subjects

*FUKUSHIMA Nuclear Accident, Fukushima, Japan, 2011, *NUCLEAR accidents, *NUCLEAR energy, *SAFETY regulations, *SAFETY standards, *DISCOURSE analysis, *NEWSPAPER publishing

Abstract

The Fukushima Daiichi nuclear disaster has rekindled the world's attention to nuclear safety following the devastating nuclear accidents that occurred in the Three Mile Island and Chernobyl. As China continues to expand in nuclear power development, how it views and responds to nuclear safety carries significant implications on its nuclear safety and security in the future. This paper examines the Chinese authorities' response to nuclear safety pre- and post-Fukushima, based on (1) a longitudinal big-data discourse analysis of the Chinese newspaper articles published during the period 2008–2017, and (2) an in-depth comprehensive review of nuclear safety performance and safety governance based on credential and publicly available documents and websites, both locally and internationally. Our assessment reveals that (i) China's concerns over nuclear safety and accident surged immediately following the Fukushima crisis. Increasing attention towards nuclear emergency response has been observed since 2014, (ii) China has displayed strengths in reactor design and safety operation, and (iii) its safety governance has been constrained by institutional fragmentation, inadequate transparency, inadequate safety professionals, lack of a strong safety culture, amid its ongoing plans to increase nuclear capacity three-fold by 2050. To improve nuclear safety, China may further strengthen its safety standards, safety management and monitoring, improve institutional arrangements, increase the ratio of safety professionals, intensify its safety culture and transparency, develop process-based safety regulations, and champion international collaboration to keep itself abreast of the latest international best practices. • China's concerns over nuclear safety surged after the Fukushima crisis. • China displayed strengths in reactor technology design and safety operation. • China can benefit from better safety management culture, institutional integration and and and regulatory design, etc. [ABSTRACT FROM AUTHOR]

Published

2022

10. How does production substitution affect China's embodied carbon emissions in exports?

Author

Tang, Zhipeng, Yu, Haojie, and Zou, Jialing

Subjects

*CARBON emissions, *PRODUCTION increases, *CARBON nanofibers, *FINANCIAL crises

Abstract

As it is the world's top exporter of goods and a carbon emitter, a reduction in China's embodied carbon emissions in exports (ECEE) can help reduce its total carbon emissions. In the post-2008 financial crisis era, the adjustment of the industrial structure has emerged as a powerful tool for reducing carbon emissions. However, it is unclear whether changes in China's production structure have reduced its ECEE and how production substitution affects this reduction. This paper proposes an approach based on a three-tier structural decomposition analysis (SDA) to evaluate the effects of production substitution on China's ECEE from 1997 to 2017. The results indicate that production substitution led to a reduction in China's ECEE whereas changes in production levels increased them. Furthermore, from 1997 to 2017, intra-group production substitution increased China's ECEE while inter-group production substitution reduced it. In the context of inter-group production substitution, the substitution of energy-intensive production with non-energy-intensive production is key to reducing China's ECEE. These findings provide a deeper understanding for how changes in the industrial structure and production substitution affect China's ECEE. • The effect of production substitution on China's ECEE is explored. • A three-tier SDA approach is developed to evaluate the effects of production substitution on China's ECEE. • Intra-group production substitution increased China's ECEE while inter-group production substitution reduced it. • Substitution of energy-intensive production by non-energy-intensive production is the key factor in reducing China's ECEE. [ABSTRACT FROM AUTHOR]

Published

2022

11. Print media representations of carbon capture utilization and storage (CCUS) technology in China.

Author

Jiang, Kai, Ashworth, Peta, Zhang, Shiyi, and Hu, Guoping

Subjects

*CARBON sequestration, *ELECTRONIC newspapers, *GREENHOUSE gas mitigation, *VALUE chains, *SCIENTIFIC communication, *REDUCTION potential, *CARBON offsetting, *CLEAN energy

Abstract

Carbon Capture Utilization and Storage (CCUS) technology is an essential component to decarbonize society and reach carbon neutrality. Its success depends on not only technological advances but also people's reaction to it. This study applied traditional content analysis to uncover the CCUS reporting landscape and employed the Socio-Political Evaluation of Energy Deployment (SPEED) framework to explore how different aspects of the CCUS value chain were discussed in Chinese newspapers. A total of 492 news items from November 21st 2002 to May 8th 2021 were identified and analyzed. Results showed that news coverage of CCUS technology in China started in 2005. The media explained the nature and sources of carbon dioxide (CO 2), framed CCUS by various terms, for example, " greengen " and " a clean energy technology ", as well as demonstrated various tones in CCUS. The analysis found 71.3% (N = 351) of newsletters took an affirmative stance towards CCUS. It was also revealed that environmental frames appeared in almost every article, while much less attention was paid to other issues. Moreover, this research demonstrated that CCUS-related policies were driving media coverage closely year by year. However, current news presentations were inadequate due to technical misperceptions and a lack of comprehensive coverage. Therefore, this research proposed a science-for-the-community communication strategy that involved several key factors such as policy guidance, newspaper functions at different levels, journalist training, direct engagement of the public as well as student education. • This paper pioneered to investigate Chinese newspaper coverage of CCUS technology. • The frequency of CCUS inclusion in newspapers was somehow affected by policies in China. • CCUS reporting revolved its emission reduction potential, and CCUS influences on health and safety issues were limited framed. • The current CCUS reporting landscape had misperceptions and lacked comprehensive coverage of the value chain. • A science-for-the-community communication strategy that can make media communication effective was proposed. [ABSTRACT FROM AUTHOR]

Published

2022

12. Factors affecting the calculation of wind power potentials: A case study of China.

Author

Franke, Katja, Sensfuß, Frank, Deac, Gerda, Kleinschmitt, Christoph, and Ragwitz, Mario

Subjects

*WIND power, *CLIMATE change, *CHINA studies, *WIND turbines, *AIR pollution

Abstract

In order to mitigate global climate change and air pollution, the Chinese government has assigned high priority to expanding low-carbon power generation in China. Recent studies have shown that wind power is one of the most promising renewable energy option in China. Although many studies have estimated the generation potential of onshore wind power, their results vary widely from 1783 TWh to 39,000 TWh. Therefore, we examine the different assumptions in these papers and identify three main factors influencing the results. The three influencing factors are: weather data set, land utilisation factor, and wind turbine configuration. For our model-based analysis, we define a reference scenario which is used to compare the results. Our analysis shows using a different weather data set increases the generation potential to roughly 35,000 TWh. This is 54% higher than the generation potential of the reference scenario. The land utilisation factor also has a large influence, ranging between −10% and −51%. The studies' assumptions and data should be subjected to careful scrutiny, as the calculated wind power potentials are widely used to develop decarbonisation strategies for the energy system. • Study results on wind power potentials in China vary from 1783 TWh to 39,000 TWh • Influencing factors: weather data set, land utilisation, and wind turbine configuration. • Model-based sensitivity analysis with nine scenario settings. • Chosen weather data set has the highest impact on the calculated results with a variation of 54%. [ABSTRACT FROM AUTHOR]

Published

2021

13. Comparison of sectoral low-carbon transition pathways in China under the nationally determined contribution and 2 °C targets.

Author

Liu, Junling, Yin, Mingjian, Xia-Hou, Qinrui, Wang, Ke, and Zou, Ji

Subjects

*CARBON sequestration, *ENERGY industries, *TRANSPORTATION industry, *INFRASTRUCTURE funds, *ROAD maps, *GREENHOUSE gas mitigation, *ENERGY intensity (Economics)

Abstract

National climate targets must be decomposed into key areas to guide mitigation actions. This paper presents a comparative study of China's low-carbon transition pathways at the sectoral level under the nationally determined contribution (NDC) and 2 °C targets, using the energy system model and detailed sectoral information. The results show that each sector plays different roles in terms of emission trends, mitigation potentials, technology roadmaps, investment requirements, and mitigation costs. The power sector is expected to contribute around 50% of the total mitigation. The industry sector has better cost-effective performance, with high mitigation potential and low investment requirement. By contrast, the transport and power sectors account for around 90% of total investment demand. The building and transport sectors have substantial mitigation opportunities that can be realized through technologies with negative mitigation costs. Conversely, the industry sector faces challenges in promoting carbon capture and storage, which has the highest mitigation cost. Compared with the sectoral transition pathways under the NDC target, the 2 °C scenario requires a rapid near-term decarbonization of the power sector and additional emission reductions in end-use sectors. This decarbonization is possible through comprehensive deployment of advanced low-carbon technologies as well as measures that increase investments in low-carbon infrastructure and decrease investments in fossil fuel-based technologies in the power and transport sectors. Therefore, it is important to thoroughly understand the sectoral transition pathways under different climate targets in order to coordinate inter-sectoral actions and resources in a cost-effective manner. • A quantitative study of sectoral low-carbon transition pathways in China was done. • Sectors perform differently in emissions trends, mitigation potential, and cost. • The performance of each sector changes over time and based on climate targets. • Different climate targets imply different technology roadmaps. [ABSTRACT FROM AUTHOR]

Published

2021