The Availability and Economic Analyses of Using Marginal Land for Bioenergy Production in China

  • Yuqi Chen
  • Xiubin Li
  • Xudong Guo
  • Chunyan Lv
Chapter

Abstract

Using marginal land for bioenergy production was considered an important strategy to promote this clean energy in China. In order to analyze the availability and economic feasibility of this strategy, this study used the latest official land use data to assess the bioenergy potentials of five species of energy plants on the marginal land, including Manihot esculenta, Jatropha curcas, Helianthus tuberous L, Pistacia chinensis, and Xanthoceras sorbifolia Bunge. The results indicate that 289.71 million ha of marginal land are available to cultivate these five energy plants and can produce 24.45 million tons bioethanol and 8.77 million tons of biodiesel. Based on field survey data and literature reviews, we found that both farmers and bioenergy plants have less enthusiasm for bioenergy production due to poor economic returns, albeit sufficient marginal land for energy plants.

Keywords

Bioenergy Marginal land Energy plants Economic benefits China 

Notes

Acknowledgment

The study is funded by the ministry of land and resources public welfare scientific research special project (No. 201311125) and the National Natural Science Foundation of China (No. 41201567).

References

  1. Chang S, Zhao L, Govinda TR et al (2012) Biofuels development in China: technology options and policies needed to meet the 2020 target. Energy Policy 51:64–79CrossRefGoogle Scholar
  2. Chen H, Xu M, Guo Q et al (2015) A review on present situation and development of biofuels in China. J Energy Inst.  https://doi.org/10.1016/j.joei.2015.01.022
  3. Chen W, Wu F, Zhang J (2016) Potential production of non-food biofuels in China. Renew Energy 85:939–944CrossRefGoogle Scholar
  4. Fang J, Pu W, Zhang H (2010) The development status of Cassava industry ant home and abroad. Chinese Agric Sci Bull 26(16):353–361. (in Chinese)Google Scholar
  5. Fu C, Wu F (2014) The estimation of producing potential of fuel ethanol and its developing strategy in China. J Nat Resour 29(8):1430–1440. (in Chinese)Google Scholar
  6. Gelfand I, Sahajpal R, Zhang X et al (2013) Sustainable bioenergy production from marginal lands in the US Midwest. Nature 493(7433):514–517CrossRefGoogle Scholar
  7. Ji X, Long X (2016) A review of the ecological and socioeconomic effects of biofuel and energy policy recommendations. Renew Sust Energ Rev 61:41–52CrossRefGoogle Scholar
  8. Kang S, Wilfred PM, Wang D et al (2013) Hierarchical marginal land assessment for land use planning. Land Use Policy 30:106–113CrossRefGoogle Scholar
  9. Li Z (2008) The development, problem and policy suggestions of bio-ethanol. China Biotechnol 28(7):139–142Google Scholar
  10. Lin C, Li Y, Liu J et al (2007) A study on the diversity and exploiting prospect of energy plant resources. J Henan Agric Sci 36(12):17–21Google Scholar
  11. Liu G, Liu Y, Huang C et al (2010) Phychemical properties and preparation of bio-diesel with five categories of woody plant seeds oil. Acta Agric Univ Jiangxiensis 32(2):0339–0344. (in Chinese)Google Scholar
  12. Qiu H, Huang J (2008) Global bio-energy development and its impact on the prices of agricultural products [J]. World Environ 4:19–21. (In Chinese)Google Scholar
  13. Swinton SM, Babcock BA, James LK et al (2011) Higher US crop prices trigger little area expansion so marginal land for biofuel crops is limited. Energy Policy 39:5254–5258CrossRefGoogle Scholar
  14. Tang Y, Xie J, Geng S (2010) Marginal land-based biomass energy production in China. J Integr Plant Biol 52(1):112–121CrossRefGoogle Scholar
  15. Tian Y, Zhao L, Meng H et al (2009) Estimation of un-used land potential for biofuels development in (the) People’s Republic of China. Appl Energy 86:S77–S85CrossRefGoogle Scholar
  16. Wang Q (2011) Time for commercializing non-food biofuel in China. Renew Sust Energ Rev 15:621–629CrossRefGoogle Scholar
  17. Wang F, Shi X (2015) Geospatial analysis for utilizing the marginal land in regional biofuel industry: a case study in Guangdong Province, China. Biomass Bioenergy 83:302–310CrossRefGoogle Scholar
  18. Wang L, Yang H, Feng Z et al (2012) Potential capacity of cassava planting in Guangxi: assessment of natural suitability and socio-economic restrictions. Resour Sci 34(1):150–158Google Scholar
  19. Wu W, Huang J (2010) Economic feasibility analysis of Jatropha Curcas plant for biodiesel production. China Rural Econ 7:56–63. (In Chinese)Google Scholar
  20. Wu W, Huang J, Deng X (2009) Potential land for plantation of Jatropha curcas as feedstocks for biodiesel in China. Sci China Ser D-Earth Sci.  https://doi.org/10.1007/s11430-009-0204-y. (in Chinese)
  21. Xie G, Guo X, Wang X et al (2007) An overview and perspectives of energy crop resources. Resour Sci 29(5):74–80. (in Chinese)Google Scholar
  22. Zhang X (2012) The growth adaptability of Xanthoceras Srbifolia Bge of different seed source region and its salt tolerance in Shendong Mining Area. Master thesis of Inner Mongolia Agricultural University. 05. (in Chinese)Google Scholar
  23. Zhang Q, Ma J, Qiu G et al (2012) Potential energy production from algae on marginal land in China. Bioresour Technol 109:252–260CrossRefGoogle Scholar
  24. Zhang Z, Zhang Y, Luo J et al (2015) Economic benefit analysis of industrialized planting of Helianthus tuberous L in Jiangsu Coastal Region. J Jiangsu Agric Sci 43(8):480–483. (in Chinese)Google Scholar
  25. Zhao L, Chang S, Wang H et al (2015) Long-term projections of liquid biofuels in China: uncertainties and potential benefits. Energy 83:37–54CrossRefGoogle Scholar
  26. Zhuang D, Jiang D, Liu L et al (2011) Assessment of bioenergy potential on marginal land in China. Renew Sust Energ Rev 15:1050–1056CrossRefGoogle Scholar

Copyright information

© Springer International Publishing AG, part of Springer Nature 2018

Authors and Affiliations

  • Yuqi Chen
    • 1
  • Xiubin Li
    • 1
  • Xudong Guo
    • 1
  • Chunyan Lv
    • 1
  1. 1.China Land Surveying and Planning Institute, Key Laboratory of Land Use, Ministry of Land and ResourceBeijingChina

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