Showing total 204 results

1. Implications for the forestry and pulp and paper industry

Published

2024

2. Research on the Development Status of Biomass Energy Serving the Construction of Ecological Civilization: A Case Study in Henan Province, China.

Author

Xueqin Li, Shuhua Yang, Zhiwei Wang, Taoli Huhe, Yantao Yang, Peng Liu, Sheng Huang, Youqing Wu, and Tingzhou Lei

Subjects

BIOMASS energy, ENERGY development, ENERGY crops, ENERGY consumption, RESEARCH & development, BIOMASS conversion, HYDROGEN as fuel

Abstract

The development and utilization of biomass energy based on the thermochemical conversion of crop biomass to produce hydrogen are of great significance for promoting China's ecological civilization construction, energy revolution, and low-carbon economic development. Henan province is one of the largest agricultural and pasturage provinces in China. Based on the analysis of the status and trends of Henan's biomass energy (BE) development, this paper summarizes the present status of the construction of ecological civilization (CEC) and the factors restricting its development. Challenges in developing biomass energy are analyzed systematically, and strategies and key technical directions for future biomass energy development are discussed. Finally, the paper presents countermeasures and suggestions for CEC based on the development of BE, which will vigorously promote the development and utilization of BE and the process of CEC. This research provides a reference for the further development of BE and CEC in the future. [ABSTRACT FROM AUTHOR]

Published

2023

3. Policy Analysis of Biomass Recycling Supply Chain Considering Carbon and Pollution Emission Reduction—Taking China's Straw Subsidy Policy for Example.

Author

Yu, Long, Sun, Jingwen, Liu, Weina, Zhang, Wengang, Sun, Liao, and Wu, Jun

Subjects

EMISSIONS (Air pollution), GREENHOUSE gas mitigation, CARBON emissions, SUPPLY chains, POLICY analysis, BIOMASS energy

Abstract

In recent years, global environmental problems such as air pollution and the greenhouse effect have become more and more serious. The utilization of biomass energy not only can promote low-carbon transformation to establish a competitive advantage through value creation under the goals of carbon peaking and carbon neutrality but is also an important force in solving environmental problems. Government subsidy policies play an important role in promoting the development of biomass energy utilization. Taking straw as an example, this paper constructs a straw recycling supply chain system dynamics model consisting of farmers, acquisition stations, power plants, and pyrolysis plants based on a real-world case. Two types of straw processing, namely power generation and pyrolysis, are considered in the model. This paper analyzes the economic and environmental impacts of three subsidy policies, namely the unified rate policy, the linear growth policy, and a two-step policy, by comparing the profit, carbon, and pollution emission reduction benefits of the supply chain under different subsidy scenarios. The result shows that, among the three subsidy policies, the unified rate policy shows the best-promoting effect. The research results and policy implications in this paper could be a reference for governments trying to formulate subsidy policies for developing biomass energy utilization. [ABSTRACT FROM AUTHOR]

Published

2023

4. Estimation of biomass utilization potential in China and the impact on carbon peaking.

Author

Zhang, Caiqing, Nie, Jinghan, and Yan, Xiaohui

Subjects

BIOMASS estimation, ENERGY consumption, CARBON emissions, POWER resources, SUSTAINABLE development, BIOMASS energy, CARBON offsetting

Abstract

China has abundant agricultural and forestry waste resources that are crucial sources of energy for substituting fossil fuels and achieving the carbon peaking and carbon neutrality goals. These resources play an essential role in reducing carbon dioxide emissions and promoting sustainable development. This paper presents an estimation of the number of biomass resources that can be used for energy in 2020 by using parameters such as the grass-to-grain ratio coefficient and excretion coefficient. Moreover, the potential for conversion of biomass resources into biomass energy is evaluated by using parameters such as lower heating value and gas production coefficient. Finally, based on the whole life cycle theory, the potential of biomass energy utilization to reduce carbon dioxide emissions and its impact on carbon peaking is calculated. It was found that the total amount of fossil fuels that can be replaced by biomass energy is 256 million tons of standard coal. Utilizing biomass energy can reduce carbon dioxide emissions by approximately 520 million tons, with a peak impact of 4–6% on carbon peaking. The research results presented in this article can provide valuable data to support the promotion of green transformation in various regions. The findings can serve as a useful reference for formulating localized biomass utilization plans and designing effective emission reduction policies. [ABSTRACT FROM AUTHOR]

Published

2023

5. Pyrolysis Behavior and Kinetics of Typical Crop Straw in Henan Province at Different Heating Rates.

Author

Hu, Po, Hou, Chenghao, Lan, Xinyu, and Sheng, Honghao

Subjects

PYROLYSIS kinetics, WHEAT straw, STRAW, RICE straw, BIOMASS energy, ACTIVATION energy

Abstract

Straw, which is characterized by its low cost, large quantity, and rich supply of biomass energy, is often converted into energy that can be utilized in industrial production through pyrolysis technology. This paper examines the pyrolysis experiments of four kinds of straw (rice, wheat, peanut, and corn) from the Henan Province of China, conducted in an air environment with varying temperature-rise rates. Based on the experimental results, an analysis was conducted on the effect of the rate of temperature rise on the degree of straw pyrolysis and the pyrolysis characteristics of each type of straw. The activation energies of the pyrolysis reactions were calculated utilizing the Kissinger–Akahira–Sunose (KAS), Flynn–Wall–Ozawa (FWO), and Starink methods. It was concluded that the pyrolysis process of all four types of straw could roughly be classified into three stages: dehydration and drying stage, volatile release stage, and carbonization stage. Among the four types of straw evaluated, rice straw exhibited the most favorable combustion performance, while wheat straw demonstrated the best pyrolysis effect. Increasing the heating rate resulted in a pronounced thermal hysteresis effect during the straw's pyrolysis, as evidenced by the TG and DTG curves shifting toward higher temperatures. The reaction speed increased as the heating rate increased, and the amount of residual carbon displayed an upward trend. [ABSTRACT FROM AUTHOR]

Published

2023

6. Abstracts of Second- and Third-Place Undergraduate Papers.

Author

Hatzenbuhler, Heather

Subjects

SOLAR energy, SOLAR cells, BIOMASS energy

Abstract

The article provides information on the undergraduate research papers on agricultural and applied economics that secured second and third place. Zeke Bryant of University of Georgia, secured second place for "An Analysis of U.S. Tariffs on Chinese Solar Cells." Heather Hatzenbuhler of University of Georgia, secured third place for his research on "Biofuels: Rational, Policy Failures and a Way Forward for the State of Georgia."

Published

2013

7. Decarbonizing China's coal power with sustainable BECCS: a techno-spatial analysis.

Author

Sammarchi, Sergio, Li, Jia, Yang, Qiang, Yu, Jing, and Chen, Lei

Subjects

COAL-fired power plants, CARBON dioxide mitigation, AGRICULTURAL wastes, COAL, CO-combustion, PLANT capacity, CARBON offsetting

Abstract

This work investigates the decarbonization potential of large-scale implementation of BECCS (in the form of biomass co-firing and post-combustion amine-based CO2 capture) in over 150 existing coal-fired power plants in China, combining GIS-based geospatial analysis of biomass availability from agricultural residues and modelling of the techno-environmental performance of the retrofitted power plants. Using a 500-m resolution map of cropland in China, the availability of residual biomass at a radius of 25–100 km from each power plant is estimated. The biomass yield is then matched with the required input for a set of co-firing scenarios, identified by the optimal mix of different co-firing ratios (10%, 25%, and 40%) and increasing % of total plant's capacity to be retrofitted with the chosen BECCS system. Power generation performance and required biomass for the retrofitted plants are modelled in the Integrated Environmental Control Model (IECM). According to the results, the total decarbonization potential of the modelled large-scale implementation of BECCS ranges from 0.3 to 1.8 Gt CO2/yr (15–81% of BAU emissions), depending on the biomass collection radius. The Chinese provinces of Shandong, Jiangsu, Anhui, and Henan have the most potential for BECCS implementation, while coal-rich regions (e.g. Inner Mongolia) or highly developed coastal areas (Guangdong, Zhejiang) are constrained by local biomass availability. Overall, this work demonstrates the significant potential of the sustainable large-scale implementation of BECCS in China and provides suggestions to policymakers to include this technology in the portfolio of solutions towards carbon neutrality. [ABSTRACT FROM AUTHOR]

Published

2024

8. Lipase from Yarrowia lipolytica : Prospects as an Industrial Biocatalyst for Biotechnological Applications.

Author

da Silva, Jessica Lopes, Sales, Misael Bessa, de Castro Bizerra, Viviane, Nobre, Millena Mara Rabelo, de Sousa Braz, Ana Kátia, da Silva Sousa, Patrick, Cavalcante, Antônio L. G., Melo, Rafael L. F., Gonçalves De Sousa Junior, Paulo, Neto, Francisco S., da Fonseca, Aluísio Marques, and Santos, José Cleiton Sousa dos

Subjects

ENZYMES, LIPASES, WASTE treatment, FOOD industry, BIOREMEDIATION, BIOMASS energy

Abstract

This paper aims to present the advances related to the biotechnological application of lipases Y. lipolytica, presenting their properties and more efficient ways to use them in different industrial applications. Waste treatment and bioremediation highlight recent studies and advances and the interest in large-scale applications in the food sector and biofuel production. The USA and China, two major world powers in industy, are of utmost importance in the search for the improvement in the development and properties of a controlled system for the large-scale production of a significant number of applications of lipase from Y. lipolytica. [ABSTRACT FROM AUTHOR]

Published

2023

9. Research on Legal Promotion Mechanism of Biomass Energy Development under "Carbon Peaking and Carbon Neutrality" Targets in China.

Author

Song, Dongdong and Rui, Jing

Subjects

ENERGY development, CARBON offsetting, RENEWABLE energy sources, BIOMASS energy industries, LEGAL research

Abstract

In order to achieve the goal of carbon peaking and carbon neutralization, we must vigorously develop renewable energy. As one of the important renewable energy sources, the development and utilization of biomass energy has a high cost, and it is difficult to compete with traditional fossil energy in the early stage of development. Therefore, it is necessary for the government to escort the development of the biomass energy industry through legal means. First of all, on the basis of fully analyzing the development prospects of China's biomass energy, the article sorts out the laws and regulations related to biomass energy in China, and finds the shortcomings. Secondly, this paper draws on the institutional experience of the United States, Brazil, Sweden and other countries with relatively developed biomass energy industry, and provides suggestions for improvement from three aspects: law, policy and administrative system, with a view to supporting China's development of biomass energy industry and realizing the "dual carbon target" theoretically. [ABSTRACT FROM AUTHOR]

Published

2023

10. Off-farm work and rural residential energy transition: a farm-household model and empirical evidence from China.

Author

Sun, Dingqiang, Yang, Xinyue, and Qiu, Huanguang

Subjects

BIOMASS energy, ENERGY consumption, PANEL analysis, SERVICE industries, RURAL industries

Abstract

Purpose: This paper aims to examine the role of off-farm work in the rural residential energy transition in China. Design/methodology/approach: To guide this empirical work, the authors present a simple farm-household model to explain rural energy consumption. The authors then empirically assess three main mechanisms through which off-farm work can speed up energy transition in rural China using panel data methods. Findings: The study shows that income growth from off-farm work can reduce the consumption of traditional biomass energy and facilitate a shift to commercial energy. The losses of labor available for on-farm production raise the shadow price of non-tradable biomass energy and further dampen the demand for traditional biomass energy. More importantly, the authors find that working in service sectors can significantly promote the consumption of commercial energy by rural households. The sectoral exposure effect indicates that a new working environment may influence rural households' energy preferences and thus accelerate the transition away from traditional biomass energy. Originality/value: Previous studies focus mainly on the income effect of off-farm work on rural energy consumption. The authors first identify three related but essentially different effects of off-farm work on rural energy transition in China. This study provides new insights into the process of energy consumption transition in rural China. [ABSTRACT FROM AUTHOR]

Published

2022

11. Environmental Comparison of Straw Applications Based on a Life Cycle Assessment Model and Emergy Evaluation.

Author

Juan Gao, Chaopu Ti, and Ning Chen

Subjects

STRAW, EMERGY (Sustainability), BIOMASS energy, BIOMATERIALS, AIR pollution

Abstract

Straw is considered to be a renewable resource for bioenergy and biomaterial. However, about 70% of straw is burned in fields, which causes serious air pollution in China. In this study, a life cycle assessment (LCA) model, together with emergy evaluation, was built to compare four straw applications after harvest vs. direct burning, including bioethanol (BE), combined heat and power plant (CHP), corrugated base paper (CP), and medium-density fiberboard (MDF). The results showed that BE and MDF would avoid greenhouse gas (GHG) emissions by 82% and 36%, respectively, while CHP and CP would emit 57% and 152% more GHG, respectively, compared with direct straw burning. Bioethanol had the highest renewability indicator (RI) of 47.7%, and MDF obtained the greatest profit of 657 Yuan·bale-1. The applications CHP and CP had low RI (< 10.3%) and profit (< 180 Yuan·bale-1). Due to water recycling and electrical power as a coproduct, BE had the lowest value (3 ? 1011 sej·Yuan-1) of EmPM (emergy per unit money profit); the EmPM value of CP was 18.6 times higher than that of BE. The four straw applications would also greatly reduce particles emission (57 to 98%) to air. BE was judged to be the most environmentally friendly application among the four straw applications. Imposing a carbon tax would encourage investment in BE, but discourage the applications CHP and CP. [ABSTRACT FROM AUTHOR]

Published

2015

12. Biofuels or hybrid vehicles? A scenario perspective in China.

Author

He, Ling-Yun, Hou, Lin-Qian, Lin, Hai, and Du, Shao-Fu

Subjects

BIOMASS energy, HYBRID electric vehicles, GREENHOUSE gases, ENERGY consumption, EMISSION control

Abstract

Rapid growth of passenger vehicles considerably increases greenhouse gas emission and fuel consumption in China. This paper thereby intends to analyze the potentials of the mitigation of energy use and environmental emission in China’s road passenger transportation sector by assessing two available approaches, i.e. biofuel and hybrid vehicle strategies. It was found that biofuel is effective for emission reduction in only three subsubsectors. A synthesis strategy is thereby proposed to meet the state policy goals. [ABSTRACT FROM AUTHOR]

Published

2016

13. Algae based biofuels.

Author

Dixon, Robert

Subjects

BIOMASS energy, MICROALGAE

Abstract

An introduction is presented in which the editor discusses various reports within the issue on topics including the production of biofuels from microalgae, sustainable production of algae based biofuel in China, and algal biofuel production.

Published

2013

14. Application and performance analysis of 100% renewable energy systems serving low-density communities.

Author

Chen, Xiaofei, Xiao, Jinmei, Yuan, Jiaqi, Xiao, Ziwei, and Gang, Wenjie

Subjects

*RENEWABLE energy sources, *ECONOMIC indicators, *BIOMASS energy, *POWER resources, *PAYBACK periods

Abstract

Distributed energy systems are becoming increasingly popular worldwide. The 100% renewable energy system can be an important energy supply alternative to reduce the carbon emissions and address energy shortage, especially for remote areas. However, the performance of 100% renewable energy system (RES) at community level needs further detailed analysis, which is affected by the climates, availability of renewable energy and local energy markets. This paper proposes a design optimization framework of 100% renewable energy systems for low-density communities and investigates the system performance. To investigate the integration and performance of 100% RES, thirty typical cities located in different regions of China were chosen considering different climates, geographical features, and renewable energy distributions. By taking the economic performance as the optimization objective, the optimal design for the 100% RES is obtained, and the energy and economic performance is analyzed. Results show that, under the current energy market conditions, the 100% RES is feasible for low-density communities in most regions of China. The payback periods of the systems in most cities are less than six years. When the cost of PV is reduced by half considering future technological developments, the payback period of a 100% RES can be reduced by 30%–60%. This paper would provide design suggestions and application recommendations in regard to promoting 100% RES in China. • Application of 100% renewable energy system at community level is studied. • 30 zones are selected considering climates, renewable energy sources and markets. • Solar energy and biomass can contribute to over 90% of the total energy supply. • Investment of 100% RES can be paid back in 6 years for most regions. • Payback periods can be reduced by 30%–60% when PV technology is further developed. [ABSTRACT FROM AUTHOR]

Published

2021

15. Potential for Bioenergy Production from Sugarcane in China.

Author

Peng, Ling, Jackson, Phillip, Li, Qi-wei, and Deng, Hai-hua

Subjects

BIOMASS energy, ECONOMIC development, RENEWABLE energy sources, SUGARCANE, CLEAN energy, LIGNOCELLULOSE

Abstract

There has been rapid economic development in China in recent decades, and demand for energy has consequently been increasing rapidly. Development and utilisation of clean and renewable energy has been promoted by the Chinese government to help sustain long-term and stable development. Sugarcane is being increasingly used in several countries as feedstock for renewable energy products, and is a major and expanding crop in southern China. In this paper, we discuss the potential of sugarcane as a feedstock for bioenergy production in China. It includes a review of (1) the existing sugarcane industry in China and key bio-physical factors affecting the extent to which sugarcane-based industries could supply feedstock for renewable energy production in China, (2) the economic and policy factors which are likely to affect production of bioenergy from sugarcane in China, and (3) recommendations on actions and policies that may assist with appropriate development of bioenergy production from sugarcane in China. Existing and expected future economic conditions are unlikely to favour production of biofuel from the sugar component in cane. However, the fibre component of cane remains an under-utilised resource component. A conclusion is made that sugarcane fibre has potential to contribute towards renewable electricity production in China. However, at present, favourable incentives do not exist to encourage this production. It is suggested that policies to facilitate cost-effective production of renewable electricity by sugar mills, consistent with national objectives regarding production of renewable energy, be considered by governments. Priorities for future research are in improving biomass yields per unit area of land and technologies for low-cost conversion of lignocellulosic biomass into biofuel. [ABSTRACT FROM AUTHOR]

Published

2014

16. Marginal lands for bioenergy in China; an outlook in status, potential and management.

Author

Qaseem, Mirza Faisal and Wu, Ai-Min

Subjects

RENEWABLE energy costs, FIVE year plans, LAND use, POLICY sciences, BIOMASS energy

Abstract

Energy consumption and CO2 emissions have been increasing continuously over the past few decades in China and there is a pressing need to replace the fossil fuel‐based economy with an efficient low‐carbon system, tailor‐made to future requirements. China is starting an energy transition with the aim of building an energy system for the future. China has made tremendous progress in increasing the amount of renewable energy and reducing the cost of renewable energy over the last 20 years. According to the 14th 5 year plan, China aims to incorporate 20% of renewable energy to the primary energy mix and attain 27% reduction in CO2 emissions. Bioenergy crops constitute a significant proportion of biomass‐based bioenergy and have recently been promoted by the Chinese Government to help overcome food and fuel conflict. Steps are being taken to promote bioenergy crops on marginal lands in China, and various regions across the country with soil marginality have been evaluated for bioenergy crop cultivation. The present paper reviews the status of bioenergy in China and the potential status of marginal lands from different regions of China. It also elaborates on some of the policies, subsidies and incentives allocated by the Chinese Government for the promotion of biomass‐based energy. Land management and plant improvement strategies were discussed, which are effective in making marginal lands suitable for bioenergy crop cultivation. Managing planting strategies, intercropping and crop rotation are effective management practices used in China for the utilization of marginal lands. A national investigation is desirable for creating an inventory of technical and economic potential of biomass feedstocks that could be planted on marginal lands. This would assist with highlighting the pros and cons of using marginal lands for bioenergy production and effective policy making. [ABSTRACT FROM AUTHOR]

Published

2021

17. Microalgal biofuels in China: The past, progress and prospects.

Author

Chen, Hui, Wang, Xinyang, and Wang, Qiang

Subjects

BIOMASS energy, RENEWABLE energy sources, BIOMASS production, FOREST declines

Abstract

Global efforts to develop renewable energy include a focus on biofuels, especially algal‐based biofuels. As the world's largest developing country, China is striving to develop a range of renewable energy sources. Here, we performed an informatics analysis to monitor the development of microalgal biofuels in China by analyzing energy policies related to microalgal biomass and biofuel production and funding inputs and scientific research projects in this field. China has already made substantial contributions to the microalgal biofuel industry worldwide. Despite recent declines in research and investment due to the overall economic environment, microalgal energy research and applications technologies have tremendous prospects. We summarize progress in research on microalgal biomass and biofuel production, focusing on microalgal culture patterns and the production of energy, including efforts in China to promote the industrialization of microalgal biofuels. Finally, we explore possible solutions to bottlenecks that must be overcome before microalgal biofuels can be widely used and discuss future prospects. In addition to serving as a theoretical reference for researchers and decision makers in China and beyond, the information presented in this review article can be used to guide the industrialization of microalgal‐based biofuel production. [ABSTRACT FROM AUTHOR]

Published

2020

18. Biofuels and the policy implications for China.

Author

Qi Wang and Zhihong Tian

Subjects

BIOMASS energy, BIOMASS energy industries, TRADE regulation, INTERVENTION (Federal government), GOVERNMENT policy

Abstract

The paper explores China's biofuel policy and compares biofuel development in China and the rest of the world. It is argued that biofuel development depends on financial support, price intervention, and trade barriers, which all call for government support. China's biofuel industry is developing fast but under strict control. China should refer to other countries' experiences and make policy decisions according to national strategies and local conditions. [ABSTRACT FROM AUTHOR]

Published

2011

19. Analyzing impacts of bioenergy expansion in China using strategic environmental assessment.

Author

Owens, Gene M.

Subjects

BIOMASS energy, PUBLIC investments, LOANS, BIOGAS, BIOMASS chemicals, RENEWABLE energy sources, AGRICULTURAL industries, ENVIRONMENTAL policy

Abstract

Purpose - The purpose of this paper is to examine the several methodologies and activities taken to assess the environmental impacts of a $33 million pilot project undertaken through a loan from the Asian Development Bank (ADB) jointly with significant Chinese government investments. The ADB biogas utilization project has supported construction of over 7,500 biogas digesters in more than 140 rural villages. An additional 10,000 biogas digesters are programmed as well as significant investment in biogas production through large-scale animal agribusinesses. The latter will be supported through investments utilizing the Clean Development Mechanism (CDM). Design/methodology/approach - The paper provides a longitudinal perspective by: looking at the project's Initial Environmental Examination (IEE) undertaken at appraisal; assessing the ongoing energy and environmental monitoring plan currently under way; and examining the potential for the use of Strategic Environmental Assessment (SEA) as a tool for integrating environmental policy considerations on a regional or provincial level in China. Findings - Improved technologies for application of renewable energy - in particular successful application and adoption of biogas digesters at the village level - offer the potential to promote sustainable, cost-effective growth in agriculture with concurrent positive environmental impacts. Practical implications - Based on the relative success of ongoing efforts to promote the adoption of biomass technologies, a significant expansion of the bioenergy program is under consideration by the Ministry of Agriculture. Originality/value - The case study suggests that there is potential for use of SEA as a tool for the establishment of regional or provincial environmental priorities by taking account of information on the economic, social and environmental benefits, costs and risks of adopting a national strategy for biomass utilization. SEA is a recent innovation in China and must be adapted to local conditions. [ABSTRACT FROM AUTHOR]

Published

2007

20. Energy Utilization Potential of Wheat Straw in an Ecological Balance—A Case Study of Henan Province in China.

Author

Zhichen, Lyu and Xuantong, Zhu

Subjects

WHEAT straw, ENERGY crops, POTENTIAL energy, BIOMASS energy, SOIL classification, CROP development

Abstract

Minimum volume of straw should be retained in collecting wheat straw in order to obtain sustainable agricultural biomass energy and measure the energy utilization potential of wheat straw when considering ecological balance. Based on relevant literature, this paper calculates the minimum, medium, and maximum volume of wheat straw retention in various types of soil and designs three different scenarios of minimum, medium, and maximum wheat straw retention. Taking Henan province in China as a case, this paper calculates the potential of wheat straw for energy utilization using linear regression method and scenario analysis, with consideration of influencing factors such as the harvest coefficient and combustion ratio of wheat straw. The results show that the energy utilization potential of wheat straw in Henan province in 2020, 2030, 2050 are 13.77, 16.48, 22.54 million tons of coal equivalent (TCEs), respectively, in the minimum retention scenario, assuming that wheat straw is not directly used for combustion. Excessive straw left in the field causes resource waste and produces CH4 and other greenhouse gases. This paper finds that energy potential of wheat straw for energy utilization is limited when ecological balance is considered, however, it is beneficial to the sustainable development of crop biomass energy. [ABSTRACT FROM AUTHOR]

Published

2019

21. Predicting bioenergy power generation structure using a newly developed grey compositional data model: A case study in China.

Author

Zhang, Kai, Yin, Kedong, and Yang, Wendong

Subjects

*DATA modeling, *BIOGAS production, *FORECASTING, *PHOTOVOLTAIC power generation, *EMPIRICAL research, *BIOMASS energy, *CARBON offsetting

Abstract

Accurate short-term prediction of bioenergy power generation structure can optimize the bioenergy structure and help achieve carbon neutrality. However, there are currently few related studies, and most of them present long-term predictions on the development potential of bioenergy, which cannot meet the modeling requirements of predicting structure. Hence, the Fractional-order-accumulation grey Compositional data Model with Particle swarm is proposed in this paper (PFCM (1,1)) for forecasting bioenergy power generation structure. The proposed model satisfies the modeling requirements by introducing the fractional accumulation operator to ensure the prediction accuracy, and constructing the spherical mapping space to reduce the data dimension. The empirical studies prove that the newly developed model performs better than other models, which is successfully employed to predict bioenergy power generation structure of China for 2020–2024. The results show that the share of renewable municipal waste in bioenergy power generation will exceed that of solid biofuels by 2023 and the share of biogas power generation has not changed much. Furthermore, although the total amount of bioenergy power generation in China is growing rapidly, unbalanced development and small share of power are two important challenges. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2022

22. Effect of economic indicators, biomass energy on human development in China.

Author

Hung, Ngo Thai

Subjects

BIOMASS energy, ECONOMIC indicators, ENERGY development, GRANGER causality test, GLOBAL Financial Crisis, 2008-2009

Abstract

Previous studies ignored the distinction between short, medium, and long term by decomposing macroeconomic variables and human development index at different time scales. We re-visit the causal association between biomass energy (BIO), economic growth (GDP), trade openness (TRO), industrialization (IND), foreign direct investment (FDI), and human development (HDI) in China on a quarterly scale by scale basis for the period 1990 to 2019 using the tools of wavelet, i.e., wavelet correlation, wavelet coherence and scale by scale Granger causality test. The main findings uncover that IND, TRO, GDP, and BIO positively drive the HDI at low and medium frequencies, while FDI negatively impacts HDI during the sample period. Additionally, there is a bidirectional relationship between GDP and HDI at different time and frequency domains. Specifically, we discover that the positive co-movement is more robust in the aftermath of the global financial crisis, particularly for HDI, BIO, GDP, and TRO at medium frequencies throughout the period under research. Our empirical insights have significant implications for achieving human development sustainability in China. [ABSTRACT FROM AUTHOR]

Published

2022

23. Different sources of rural household energy consumption and influencing factors in Dazu, China.

Author

Jin, Jianjun, He, Rui, Kuang, Foyuan, Wan, Xinyu, and Ning, Jing

Subjects

ENERGY consumption, HOUSEHOLDS, BIOMASS energy, RURAL electrification, ENERGY policy, HOUSEHOLD appliances

Abstract

Rural household energy consumption is an important component of national energy consumption. This paper explores the rural household energy consumption status and influencing factors on different sources of rural household energy consumption in western China. Using data from a survey of 240 households conducted in 2017, this study finds that rural households' energy consumption structure in the study area is a combination of traditional biomass energy and commercial energy sources. Fuelwood is the most commonly used fuel in the study area, while modern energy sources only occupy a low proportion. Rural household energy consumption is influenced by various factors. Individual perceptions of climate change, social trust and networks, and households' socio-economic and demographic factors (gender, age, education, income per capita, household size, household location, and number of household appliances) are identified as having significant effects on rural households' consumption of biomass and commercial energies. The research results provide implications for policy makers to formulate related rural energy policies to improve the rural energy consumption structure and future energy policy design in China and other developing countries. [ABSTRACT FROM AUTHOR]

Published

2019

24. Comparative Assessment and Obstacles in the Advancement of Renewable Energy in India and China.

Author

Kumar, Pankaj, Sharma, Himanshu, Pal, Nitai, and Sadhu, Pradip Kumar

Subjects

RESOURCE exploitation, POWER resources, CLEAN energy, ENERGY industries, SUSTAINABLE development & the environment

Abstract

Copyright of Problems of Sustainable Development / Problemy Ekorozwoju is the property of Faculty of Environmental Engineering and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

25. Future scenarios of variable renewable energies and flexibility requirements for thermal power plants in China.

Author

Ye, Liang-Cheng, Lin, Hai Xiang, and Tukker, Arnold

Subjects

*ELECTRICITY, *ENERGY economics, *HEAT storage, *BIOMASS energy

Abstract

Abstract In 2017 about 37% of the world's wind turbines and 50% of the world's photovoltaic (PV) panels are installed in China. But at the same time a huge amount of wind power and PV power is wasted mainly because of insufficient flexibility of thermal power which is the dominant source in China's electricity system. This paper aims to assess the flexibility requirements for thermal power plants to accommodate large-scale variable renewable energies (VREs). This paper constructs three scenarios for the reference year of 2030, where VREs account for 16%, 19% and 22% in the electricity system respectively, and simulates corresponding residual load time series (residual load = load − hydropower − nuclear power − wind power − PV power). We find that the current average 1%/min ramp rate of thermal power plants is basically sufficient to deal with ramps in residual load in the future. But the current average 60% minimum load level of thermal power plants has to be improved to 40% or even 30%, otherwise the economic losses of VREs curtailment will be as high as 947.2 × 10 8 – 1632.0 × 10 8 CNY per year in the future. It is necessary and beneficial for the central authority to invest in retrofitting the existing huge thermal power plants to improve their minimum load level. Highlights • This paper simulates the future VREs scenarios for the year of 2030. • 1%/min ramp rate of thermal power is sufficient to follow ramps in residual load. • Minimum load level of thermal power has to be improved to 40% or even 30%. • It is a huge economic benefit to improve minimum load level of thermal power. [ABSTRACT FROM AUTHOR]

Published

2019

26. Rural households' willingness to accept compensation for energy utilization of crop straw in China.

Author

He, Ke, Zhang, Junbiao, and Zeng, Yangmei

Subjects

*UTILIZATION of straw, *RURAL population, *COMPENSATION management, *BIOMASS energy, *BIOGAS production, *SUSTAINABLE development

Abstract

Abstract Many studies have investigated energy utilization of crop straw; however, there has been little analysis in the literature from the perspective of willingness to accept compensation. This study is one of the first studies to introduce the variable trust into the Unified Theory of Acceptance and Use of Technology, and it mainly the factors influencing rural households' willingness to accept compensation for energy utilization of crop straw. The results show that a certain amount of compensation—approximately 0.95%–1.62% of the average family annual income —encourages households to participate in energy utilization of crop straw. This means that a reasonable compensation standard is an important means of coordinating the relationship between economic development and protection of the natural environment. This paper also finds that, in addition to the factors (time cost expectation , economic cost expectation, influence from persons with high education , influence from persons with high income) in the original Unified Theory of Acceptance and Use of Technology model, trust in neighbors, as one aspect of the interpersonal trust, and trust in village cadres, as one aspect of the institutional trust, all exert a significant influence on rural households' willingness to accept. This paper therefore recommends linking energy utilization of crop straw to broader attempts to strengthen trust. Highlights • Rural households' willingness to accept compensation for energy utilization of crop straw is the focus. • Trust is introduced into the Unified Theory of Acceptance and Use of Technology. • Interpersonal trust and institutional trust significantly influence households' willingness to accept compensation. • Proper compensation helps households adopting energy utilization of crop straw. [ABSTRACT FROM AUTHOR]

Published

2018

27. Public preferences for biomass electricity in China.

Author

Zhao, Xiaoli, Cai, Qiong, Li, Shujie, and Ma, Chunbo

Subjects

*BIOMASS energy, *CLEAN energy, *DISCRETE choice models, *ELECTRIC power production, *ENVIRONMENTAL impact analysis

Abstract

The Chinese government has made significant effort to promote biomass based electricity generation in recent years. Yet, little is known about consumers’ preferences for biomass electricity and associated environmental impacts. This paper uses discrete choice experiments (DCE) to investigate Chinese consumers’ preference for electricity generated from various biomass sources. Based on 548 responses, the paper finds that Chinese households are willing to pay a premium of around 27 Yuan per month or 0.20 Yuan per kilowatt hour (kWh) to replace coal-fired electricity. Among the various biomass sources, electricity generated from agricultural and forestry biomass is most preferred, followed by biogas electricity and waste-to-energy. It is also found that respondents have a significant willingness to pay for reducing haze. Consumers’ household structure and environmental awareness also affect their preference for biomass electricity. These results have significant implications for the prioritization, design and communication of biomass promoting schemes. [ABSTRACT FROM AUTHOR]

Published

2018

28. Assessment of potential biomass energy production in China towards 2030 and 2050.

Author

Zhao, Guangling

Subjects

BIOMASS energy, ENERGY industries, WASTE management, ENERGY consumption, WASTE products as fuel, HEAT

Abstract

The objective of this paper is to provide a more detailed picture of potential biomass energy production in the Chinese energy system towards 2030 and 2050. Biomass for bioenergy feedstocks comes from five sources, which are agricultural crop residues, forest residues and industrial wood waste, energy crops and woody crops, animal manure, and municipal solid waste. The potential biomass production is predicted based on the resource availability. In the process of identifying biomass resources production, assumptions are made regarding arable land, marginal land, crops yields, forest growth rate, and meat consumption and waste production. Four scenarios were designed to describe the potential biomass energy production to elaborate the role of biomass energy in the Chinese energy system in 2030. The assessment shows that under certain restrictions on land availability, the maximum potential biomass energy productions are estimated to be 18,833 and 24,901 PJ in 2030 and 2050. [ABSTRACT FROM AUTHOR]

Published

2018

29. China’s plans and policies for reducing CO 2 emission from biomass-fired power plants: Modeling and economic study.

Author

Liu, Zhenling

Subjects

ENERGY policy, CARBON sequestration, BIOMASS energy, POWER plants, ENERGY density

Abstract

The main strategies for biomass utilization are the development of biomass-fired power plants, which can minimize the emissions and pollutants from fossil fuels combustion, the improvement of energy density from biomass materials, and the economic development, especially in the rural areas. In the present paper, an economic study of catalytic biomass combustion was carried out to determine the potential of catalysts for CO2capture. The effects of catalyst type and feed input (Mfeed(kg/h)) on CO2concentration and total plant cost (TPC) were studied. Results were showed that on increasing Mfeedfrom 500 kg/h to 2500 kg/h, TPC increases from 2125 kEuro2014to 6428 kEuro2014for CaCO3, from 2270 kEuro2014to 7734 kEuro2014for MgCO3, and from 2410 kEuro2014to 7927 kEuro2014for CaCO3-MgCO3, due to an enhancement in the size of burner with increasing Mfeed. [ABSTRACT FROM PUBLISHER]

Published

2017

30. Analyzing the risk spillovers of international crude oil on China's corn and biofuel ethanol markets: A transition toward green economy and environmental sustainability.

Author

Zhang, Jin, Lin, Zhenqing, and Li, Jinkai

Subjects

PETROLEUM, SUSTAINABLE development, SUSTAINABILITY, BIOMASS energy, COVID-19 pandemic, CORN

Abstract

This study aims to analyze the risk spillover effects between the global crude oil market and the biofuel ethanol and corn markets in China, employing a DCC-GARCH-Copula-CoVaR model and basing the weekly price data from 2012 to 2021. The empirical results revealed that there were dynamic conditional correlations among international crude oil, China's biofuel ethanol, and corn markets. Following the COVID-19 outbreak, the CoVaR and ΔCoVaR changed, which caused a sharp increase in the mean values and volatility. Additionally, China's biofuel ethanol market is more vulnerable to the risk spillovers from the international crude oil market than China's corn market. However, China's markets do not appear to have obvious risk spillover effects on the global market. The implications of the results are discussed in financial market supervision, including the risk management and portfolio adjustment. [ABSTRACT FROM AUTHOR]

Published

2024

31. Potential production and distribution of microalgae in China.

Author

Zhou, Xinping, Yuan, Shuo, Wu, Cai, Song, Bao, and Peng, Shanling

Subjects

MICROALGAE, BIOMASS energy, CARBON dioxide, SOLAR radiation, BIOMASS production, ENERGY consumption

Abstract

Microalgae are considered a promising biofuel resource to fix carbon dioxide (CO2), which can support social development and environmental improvement in the future. In this paper, characteristics of microalgae growth with two parameters of solar radiation and ambient temperature are investigated based on industrial-scale microalgae bulk growth model of Quinn et al. By using this model, the potential biomass production of microalgae in China is estimated based on data of the available untilled lands and the weather to be 7.38 × 109 tonnes. This is 2.4 times larger than China's energy consumption of 3.08 × 109 tonnes standard coal equivalent in 2010, and satisfies that predicted with an exponentially increasing trend for 2020, and 89% of the amount predicted for 2030. The annual total CO2 emissions reduced is estimated to be 13.5 × 109 tonnes, which can improve the natural environment besides supplying sustainable production in China. [ABSTRACT FROM AUTHOR]

Published

2013

32. Best practices for the sustainable production of algae-based biofuel in China.

Author

DuPont, Andre

Subjects

BEST practices, BIOMASS energy, ALGAE, SUSTAINABLE development

Abstract

This paper focuses on developing countries that are striving to understand the requirements for the sustainable, commercial development of algae for the production of biofuels. The paper will review the sustainable development of biofuel production, including the major issues that must be addressed before embarking on the path to sustainable biofuel production. The sustainable production of biofuel should be implemented with an ecologically friendly perspective to ensure that future generations will enjoy prosperity of the planet that we share. We can find more than one path for the development of biofuel production from algae but sustainable development must be stressed to ensure prosperity for future generations. [ABSTRACT FROM AUTHOR]

Published

2013

33. Industrial straw utilization in China: Simulation and analysis of the dynamics of technology application and competition.

Author

Li, Qiang, Chen, Dingjiang, Zhu, Bing, and Hu, Shanying

Subjects

UTILIZATION of straw, INDUSTRIAL applications, ECONOMIC competition, BIOMASS energy, ETHANOL as fuel, PAPERMAKING machinery, INDUSTRIALIZATION, COMPUTER simulation

Abstract

Abstract: Many regions of China have abundant straw resources for industrial utilization. Although there has been an emerging trend of using straw resources for bioenergy in China, there is little study of the dynamics of straw utilization in industry. This study develops an agent-based model to simulate the dynamics of industrial utilization of redundant straw in a virtual area of 10,000 square kilometers. The dynamics of three typical industrial straw utilization technologies applied in enterprise are simulated: bioethanol, power generation, and paper making. Four scenarios are established to compare changes in the total scale and proportion of enterprise caused by collection technologies and subsidy to bioethanol. The results show that the final industrial consumption of straw is approximately 60% in the basic scenario, whereas the highest proportion is almost 90% in the other scenarios. The largest share of straw is consumed by power generation in scenarios with low bioethanol subsidies and is close to bioethanol in scenarios with high bioethanol subsidies. The industrial structure varies due to changes in collection technologies and bioethanol subsidies in the scenario analysis. The industrialization of bioethanol is also determined by technological maturity time. Some policy implications to improve industrial straw utilization are discussed based on the results. [Copyright &y& Elsevier]

Published

2012

34. Equivalent Black Carbon Aerosol Properties and Their Relationship with the Heating Season in Urban Environments.

Author

Chen, Wei, Song, Ge, Zhao, Haimeng, Sun, Shanlin, and Wu, Yi

Subjects

CARBONACEOUS aerosols, CARBON-black, URBAN ecology (Sociology), AEROSOLS, BIOMASS burning, BIOMASS energy

Abstract

Black carbon (BC) aerosols have a considerable impact on humans because they not only cause environmental pollution and reduce visibility but also harm human health. During the heating season in northern China, a large amount of coal is burned for heating, producing a large amount of BC. There are few studies on BC properties during the heating season. In this paper, BC is measured optically, so it is referred to as equivalent black carbon (EBC). This paper investigated EBC properties in depth during the heating and nonheating seasons of a typical urban environment in China with two years of EBC measurements. The results show that: (1) EBC aerosol concentrations during the heating season were significantly higher than those during the nonheating season. (2) The main sources of EBC aerosols throughout the year are liquid sources. During the heating season, solid sources (coal and biomass combustion) are dominant. (3) The proportion of brown carbon (BrC) produced by biomass energy during the heating season is greater than that during the nonheating season. (4) The resulting backward trajectory indicates that a large portion of the high EBC aerosol concentration sources originate from northern and northwestern China. Our results reveal that the characteristics and sources of EBC in the urban environment of northern China vary widely, suggesting that different measures should be taken to reduce BC aerosol concentrations during heating and nonheating seasons. [ABSTRACT FROM AUTHOR]

Published

2021

35. Economic and Technical Efficiency of the Biomass Industry in China: A Network Data Envelopment Analysis Model Involving Externalities.

Author

Qingyou Yan, Youwei Wan, Jingye Yuan, Jieting Yin, Baležentis, Tomas, and Streimikiene, Dalia

Subjects

BIOMASS energy industries, BIOMASS energy, DATA envelopment analysis, PROPERTY rights, AGRICULTURAL industries

Abstract

This paper proposes the network data envelopment analysis (DEA) model accounting for negative externalities and applies it for decomposition of profit inefficiency in the biomass-agriculture circular system (Bio-AG system). A circular structure of the Bio-AG system which is different from the previously applied network structures is assumed. Since the negative externalities (i.e., pollutant emissions from the biomass industry) occur in the Bio-AG system, the property rights are taken into consideration to model the externalities-adjusted profits. Therefore, the changes in profits due to changes in the property rights (assuming no property rights, allocating property rights to agricultural sector, and allocating property rights to biomass power generation sector) are quantified. Further, the decomposition shows that the biomass power generation sector is less affected by technical inefficiency if contrasted to allocative inefficiency in terms of the profit loss. The findings suggest that the biomass power generation technology influences the profits of the biomass industry. What is more, the inefficient allocation of resources is now the key factor undermining performance of the biomass industry. Therefore, the government should adopt measures to improve the allocation of resources and prevent excessive investments or development of less efficient technologies. [ABSTRACT FROM AUTHOR]

Published

2017

36. Temporal and spacial dynamics of bioenergy-related CO2 emissions and underlying forces analysis in China.

Author

Yang, Jing, Song, Kaihui, Hou, Jian, Zhang, Peidong, and Wu, Jinhu

Subjects

*CARBON dioxide mitigation, *EMISSIONS (Air pollution), *BIOMASS energy, *ENERGY consumption

Abstract

Abstract: With increasing attention on energy shortage and global warming, bioenergy is a promising alternative energy to mitigate CO 2 emissions. Despite the environmental friendly potential, a certain quantity of bioenergy-related CO 2 is still emitted in China. This paper investigates the temporal dynamics of bioenergy-related CO 2 emissions in 2000–2010 in China, and explores the underlying influence factors based on logarithmic mean Divisia index (LMDI). Then the core results are verified with a GIS-based approach from a spacial perspective. The results show that four impact factors: emission intensity, energy structure, energy efficiency and economic development have different impacts on bioenergy-related CO 2 emissions, of which economic development is the major factor contributing to its increase, while energy efficiency is the major determinant for the decline. Per capita bioenergy-related CO 2 emissions in different areas are verified in accordance with either economic development factor or energy efficiency factor to some extent. To achieve the dual purpose of sustainable development and CO 2 emissions reduction, this paper provides a practical policy framework for rural bioenergy and economic development. [ABSTRACT FROM AUTHOR]

Published

2017

37. Modeling of China's cassava-based bioethanol supply chain operation and coordination.

Author

Ye, Fei, Li, Yina, Lin, Qiang, and Zhan, Yuanzhu

Subjects

*CASSAVA, *ETHANOL as fuel, *SUPPLY chains, *BIOMASS energy

Abstract

As a useful alternative to petroleum-based fuel, biofuels are playing an increasingly important role due to their economic, environmental, and social benefits. Cassava is viewed as an important and highly attractive nonedible feedstock for the production of biofuels. In this paper, a game-theoretic approach is proposed to explore decision behavior within a cassava-based bioethanol supply chain under the condition of yield uncertainty. In addition, a production cost sharing contract is proposed to overcome the double marginalization effect due to competition between supply chain players. With data from China's cassava-based bioethanol industry, the paper analyzes the effects of the farmer's capacity, risk aversion, yield uncertainty, the conversion ratio, the bioethanol's market price and ethanol plant's operation cost on optimal decisions within the supply chain and its overall performance. In addition, the effectiveness of the proposed production cost sharing contract is tested, and the results show that it can enhance the supply of cassava, increase the utility of the whole supply chain and reduce the level of greenhouse gas (GHG) emissions. The implications are set out for policy makers regarding how to promote the development of the biofuel industry, to guarantee the supply of feedstock, to reduce GHG emissions and to promote rural development. [ABSTRACT FROM AUTHOR]

Published

2017

38. Challenges and Societal Perceptions on Sustainable Bioenergy Development in China, India, and the Philippines: Policy Implications.

Author

Magcale-Macandog, Damasa B., Macandog, Paula Beatrice M., Acosta, Lilibeth A., Kumar, K. S. Kavi, Xuefeng Cui, Eugenio, Elena A., and Salvacion, Arnold R.

Subjects

BIOMASS energy, ENERGY development, SUSTAINABLE development, ETHANOL as fuel

Published

2021

39. Forest Biomass Energy Resources in China: Quantity and Distribution.

Author

Caixia Zhang, Leiming Zhang, and Gaodi Xie

Subjects

FOREST biomass, RENEWABLE energy sources, FOREST policy, FOREST management, WOOD products

Abstract

As one of the most important renewable and sustainable energy sources, the forest biomass energy resource has always been the focus of attention of scholars and policy makers. However, its potential is still uncertain in China, especially with respect to its spatial distribution. In this paper, the quantity and distribution of Chinese forest biomass energy resources are explored based mainly on forestry statistics data rather than forest resource inventory data used by most previous studies. The results show that the forest biomass energy resource in China was 169 million tons in 2010, of which wood felling and bucking residue (WFBR),wood processing residue (WPR), bamboo processing residue, fuel wood and firewood used by farmers accounted for 38%, 37%, 6%, 4% and 15%, respectively. The highest resource was located in East China, accounting for nearly 39.0% of the national amount, followed by the Southwest and South China regions, which accounted for 17.4% and 16.3%, respectively. At the provincial scale, Shandong has the highest distribution, accounting for 11.9% of total resources, followed by Guangxi and Fujian accounting for 10.3% and 10.2%, respectively. The actual wood-processing residue (AWPR) estimated from the actual production of different wood products (considering the wood transferred between regions) showed apparent differences from the local wood processing residue (LWPR), which assumes that no wood has been transferredbetween regions. Due to the large contribution of WPR to total forestry bioenergy resources, the estimation of AWPR will provide a more accurate evaluation of the total amount and the spatial distribution of forest biomass energy resources in China. [ABSTRACT FROM AUTHOR]

Published

2015

40. Bioenergy and Food Supply: A Spatial-Agent Dynamic Model of Agricultural Land Use for Jiangsu Province in China.

Author

Kesheng Shu, Schneider, Uwe A., and Scheffran, Jürgen

Subjects

BIOMASS energy, FOOD supply, FARMS, LAND use, FEEDSTOCK, BIOMASS production

Abstract

In this paper we develop an agent-based model to explore a feasible way of simultaneously providing sufficient food and bioenergy feedstocks in China. Concerns over the competition for agricultural land resources between food and bioenergy supply hinder the further development of bioenergy, especially in China, the country that needs tofeed the world's largest population. Prior research has suggested the introduction of energy crops and reviewed the resulting agricultural land use change in China. However, there is a lack of quantitative studies which estimate the value, contribution, and impact of bioenergy for specific conditions at the county level and provide adequate information to guide local practices. Tofill this gap, we choose the Jiangsu Province in China as a case study, build up a spatial-agent dynamic model of agricultural land use, and perform a sensitivity analysis for important parameters. The simulation results show that straw from conventional crops generally dominates Jiangsu's biomass supply with a contribution above 85%. The sensitivity analyses reveal severe consequences of bioenergy targets for local land use. For Jiangsu Province, reclaimed mudflats, an alternative to arable lands for energy crop plantation, help to secure the local biomass supply and to alleviate the land use conflict between food and biomass production. [ABSTRACT FROM AUTHOR]

Published

2015

41. Driving and Influencing Factors of Biomass Energy Utilization from the Perspective of Farmers.

Author

Minghao Liu, Zhaoyong Sun, Qian Li, Zheng Wei, and Baorui Liang

Subjects

*BIOMASS energy, *ENERGY consumption, *RENEWABLE energy sources, *ENERGY development, *AGRICULTURAL development, *RURAL electrification

Abstract

Biomass energy is one of the most important renewable energy sources. Full utilization of this energy helps to optimize agricultural development, improve our living environment, and replace some non-renewable energy sources, thereby promoting the eco-environment across the country. However, biomass energy has not been extensively utilized in rural areas of China. Many farmers are not very enthusiastic about the use of biomass energy. Many scholars have tried to boost the willingness of farmers to utilize biomass energy. Therefore, this paper collects the relevant data from six aspects, namely, environmental factor, cost factor, income factor, behavior factor, policy factor, and personal factor, and constructs a binary logistic regression model. On this basis, the driving and influencing factors of biomass energy utilization were empirically analyzed from the perspective of farmers. The results show that the development of biomass energy is mainly affected by the farmers' awareness of national energy strategy, the relevant costs of biomass utilization, and the attitude of family members and village committee. The research provides an important reference for further promotion of biomass energy, elevation of its utilization efficiency, and optimization of energy structure in rural China. [ABSTRACT FROM AUTHOR]

Published

2021

42. Comprehensive utilization of Chinese medicine residues for industry and environment protection: Turning waste into treasure.

Author

Lu, Qiang and Li, Cailan

Subjects

*CHINESE medicine, *ENVIRONMENTAL protection, *DRUG disposal, *HERBAL medicine, *BIOMASS energy, *POLLUTION

Abstract

Chinese herbal medicine has a long history spanning more than 2000 years, and it is widely used to prevent and treat diseases in China and even in Southeast Asia. Given the popularity of Chinese herbal medicine and the continuous development of the pharmaceutical industry, large amounts of Chinese medicine residues are produced in China every year. Chinese medicine residues are mainly made up of medicinal plant materials intended for human utilization that are subsequently discharged, lost, degraded or contaminated. The traditional methods of disposal of Chinese medicine residues include incineration, stacking and burying. However, these methods not only affect the ecological environment but also cause a great waste of Chinese medicine residues. In the past few years, the utilization of Chinese medicine residues for industry and environment protection has aroused widespread concern. Extensive studies have explored Chinese medicine residues, especially with regard to energy generation applications. In this work, the origin, chemical composition and potential of Chinese medicine residues in terms of energy generation, paper making, composite material preparation, re-extraction of bioactive components and environmental protection are summarized. This review is aimed at providing an overview of the current progress on the utilization of Chinese medicine residues for industry and environment protection and discussing the existing problems and future development. • Developing biomass energy is a promising solution for Chinese medicine residue. • Chinese medicine residue is a potential material for producing paper and composite. • Re-extraction of bioactive components is necessary for Chinese medicine residue. • Chinese medicine residue can be used to curb environmental pollution. [ABSTRACT FROM AUTHOR]

Published

2021

43. Distributed heating/centralized monitoring mode of biomass briquette fuel in Chinese northern rural areas.

Author

Liu, Liansheng, Wang, Dongji, Gao, Liwei, and Duan, Runze

Subjects

*BRIQUETS, *RURAL geography, *BIOMASS energy, *FUEL, *BIOMASS

Abstract

There are abundant crop straws in Chinese rural areas, but they are loose structure, low energy density and scattered distribution. Biomass densification technology is one of the effective ways to solve these problems. So the paper proposes a novel distributed heating/centralized monitoring mode of the biomass briquette fuel for rural areas. The mode includes the energy service station, the internet platform and the farmer households. A bidirectional C2S (Customer to Supplier) relationship between the energy service station and the farmer households is formed. The biomass briquette fuels are bartered using the crop straws instead of using money between the farmer households and the energy service station. The optimal service radius is calculated in different climate rons. The results are 4.75 km in extremely cold ron, 1.71 km in cold plain ron, 2.36 km in cold mountain ron. The use-scale of 1000 households is regarded as the standard for the promotion and application of the mode. The sensitivity analysis is that briquetting cost is the peak. At last, some suggestions are proposed, which will promote the future development of the briquette heating in China. • A mode of distributed heating/centralized monitoring is proposed in China. • A bidirectional C2S (Customer to Supplier) relationship is formed. • The optimal use-scale and optimal radius of the mode are calculated. • The "Internet + biomass energy network" is builds in rural area. • Some policies are suggested for the further development of biomass heating. [ABSTRACT FROM AUTHOR]

Published

2020

44. Biomass Energy for Rural Cooking in China: The Semi- Gasification Stove.

Author

Bo, Yang and Fei-ling, Shen

Subjects

BIOMASS energy, BIOMASS gasification, RURAL geography, FARMERS, TAR, COOKING equipment, COMBUSTION

Abstract

Biomass energy as a renewable energy increasingly attracts global attention. An in-depth applied research was made on biomass energy for cooking in China's rural areas in this paper. And a novel biomass semi-gasification technology wasproposed. This technology does not produce tar which causes serious environmental pollution compared with the biomass gasification technology, and has higher efficiency than the biomass direct combustion technology. This technology has a strong theoretical and practical significance in optimizing the rural energy structure, improving the rural ecological environment, and improving the production and living quality of the farmers in China. [ABSTRACT FROM AUTHOR]

Published

2014

45. Comparison of China's Biomass Combustion Power Generation with Different Installed Capacities.

Author

Zhu, Xiaocheng, Zhang, Yanru, Wang, Zhenzhong, and Pan, Xunzhang

Subjects

BIOMASS burning, INTERNAL rate of return, BIOMASS energy, ELECTRICITY

Abstract

As a major technical route to utilize biomass energy, biomass combustion power generation (BCPG) has been shown to be of environmental and economic significance. According to the operating experience, the installed capacity has a decisive impact on the operation and economic return of BCPG projects. In China, an installed capacity of either 30 MW or 12 MW is often chosen for constructing a BCPG project. To explore which one is more suitable for China, this paper uses actual operating data to compare the operation performance and techno-economics of two representative BCPG projects with an installed capacity of 30 MW and 12 MW. The results show that the operation situation and electricity production of the 30 MW project are better than those of the 12 MW project. The 30 MW project has a lower biomass consumption than the 12 MW project to produce per unit of electricity. The Internal Rate of Return (IRR) of the 30 MW project is greater than the industry benchmark in China and is almost three times the IRR of the 12 MW project. Therefore, it is recommended to construct BCPG projects with installed capacity of 30 MW in China. [ABSTRACT FROM AUTHOR]

Published

2022

46. Will the development of bioenergy in China create a food security problem? Modeling with fuel ethanol as an example

Author

Wu, Fangwei, Zhang, Deyuan, and Zhang, Jinghua

Subjects

*RENEWABLE energy sources, *BIOMASS energy, *FOOD security, *FOOD safety, *ETHANOL as fuel, *CORN industry, *CORN prices, *PROBLEM solving, *GOVERNMENT policy

Abstract

Abstract: This paper uses fuel ethanol from corn as an example to establish a theoretical model and framework to explore possible impacts of developing bioenergy on food security in China under short run and long run dynamic equilibriums with import supplements. From the three aspects including “fighting for food with people”, “fighting for land with food”, and international trade safety, the conditions that create food safety problems are discussed. In a closed economy, when the decrease in direct or indirect demand for corn caused by corn price rise is larger than the demand increase due to income increase, or when corn demand increase caused by fuel ethanol price rise is larger than the corn demand decrease caused by the decrease in government price subsidy for fuel ethanol, food security problem will appear. Food security problem can be solved by implementing trade policy when a stable import source is available. Otherwise the subsidies, substitutes, technology, etc. should be used to increase the rate of self-supply. Moreover, considering the status quo of corn market, the paper puts forward a set of policies of income and price subsidy, substitutes, and trade and technology to solve the problems. [Copyright &y& Elsevier]

Published

2012

47. China’s wind, biomass and solar power generation: What the situation tells us?

Author

Xingang, Zhao, Jieyu, Wang, Xiaomeng, Liu, and Pingkuo, Liu

Subjects

*WIND power, *BIOMASS energy, *SOLAR energy, *ENERGY shortages, *FOSSIL fuels, *DECISION making, DEVELOPING countries

Abstract

Abstract: As the largest developing country, China has abundant wind, biomass and solar energy resources. Under the large demand for electricity and the shortage of fossil energy, it is essential to develop renewable energy generation in China. This paper analyzes the resources, scale, market operation, profitability and policies of China’s wind, biomass and solar power generation and gives a discussion of the investment risks in the current situation. It is expected that the analysis in this paper could be helpful for the potential investors to make decision. [Copyright &y& Elsevier]

Published

2012

48. A Hybrid Life-Cycle Assessment of Nonrenewable Energy and Greenhouse-Gas Emissions of a Village-Level Biomass Gasification Project in China.

Author

Changbo Wang, Lixiao Zhang, Shuying Yang, and Mingyue Pang

Subjects

NONRENEWABLE natural resources, BIOMASS energy, BIOMASS gasification, FOSSIL fuels, GREENHOUSE gas mitigation

Abstract

Small-scale bio-energy projects have been launched in rural areas of China and are considered as alternatives to fossil-fuel energy. However, energetic and environmental evaluation of these projects has rarely been carried out, though it is necessary for their long-term development. A village-level biomass gasification project provides an example. A hybrid life-cycle assessment (LCA) of its total nonrenewable energy (NE) cost and associated greenhouse gas (GHG) emissions is presented in this paper. The results show that the total energy cost for one joule of biomass gas output from the project is 2.93 J, of which 0.89 J is from nonrenewable energy, and the related GHG emission cost is 1.17 × 10-4 g CO2-eq over its designed life cycle of 20 years. To provide equivalent effective calorific value for cooking work, the utilization of one joule of biomass gas will lead to more life cycle NE cost by 0.07 J and more GHG emissions by 8.92 × 10-5 g CO2-eq compared to natural gas taking into consideration of the difference in combustion efficiency and calorific value. The small-scale bio-energy project has fallen into dilemma, i.e., struggling for survival, and for a more successful future development of village-level gasification projects, much effort is needed to tide over the plight of its development, such as high cost and low efficiency caused by decentralized construction, technical shortcomings and low utilization rate of by-products. [ABSTRACT FROM AUTHOR]

Published

2012

49. Analysis of the relationship between international cooperation and scientific publications in energy R&D in China

Author

Liping, Duan

Subjects

*INTERNATIONAL cooperation, *RESEARCH & development, *HYDROGEN as fuel, *BIOMASS energy, *INTERGOVERNMENTAL cooperation, *WIND power, *BIBLIOMETRICS

Abstract

Abstract: Energy is important for China and for the whole world. Previously, the huge investment in energy-related research and commercialisation made it possible for China to cooperate with its international partners in various channels, and programs involving international cooperation and co-published papers increased annually. In this paper, through the review of intergovernmental cooperation programs and bibliometric analysis of the top energy journals, it was found that: (1) intergovernmental cooperation and non-governmental cooperation are two effective channels for energy R&D. (2) In these two channels, most participants of international cooperation are universities and institutes, and the most important partner countries are the US, Japan, and European Countries. (3) Industries began to be involved in international cooperation gradually. (4) For different areas, the degree of cooperation is not the same. Some areas have been more fruitful in cooperation, some are just beginning hydrogen energy, fuel energy and applied energy are the main co-publication areas with Chinese involvement; while wind energy, solar energy, fuel cells and bio-energy are new areas for China and there has not been so much co-publication until now. [Copyright &y& Elsevier]

Published

2011

50. Available Resources for Algal Biofuel Development in China.

Author

Shuhao Huo, Renjie Dong, Zhongming Wang, Changle Pang, Zhenhong Yuan, Shunni Zhu, and Li Chen

Subjects

MICROALGAE, BIOMASS energy, GREENHOUSE gases prevention, ENERGY security

Abstract

Microalgal biofuel research in China has made noticeable progress, and algae cultivation for biofuel production is considered to be an important contribution to Greenhouse Gas (GHG) mitigation and energy security. In this paper, the algal biofuel potentiality in China was reviewed from the points of view of algal biodiversity, algal culture collection, GHGs (especially CO2) mitigation, and the availability of the required sunlight, wastewater and land resources. The cultivation of microalgae utilizing power plants gas with large amounts of CO2 and wastewaters from urban households, industry and animal husbandry are suitable for large scale production in China. Land is hardly a limitation for algae cultivation. [ABSTRACT FROM AUTHOR]

Published

2011