Quantitative assessment of bioenergy from crop stalk resources in Inner Mongolia, China

► We quantified the amount and distribution of crop stalk resources in Inner Mongolia. ► We assessed biofuelable crop stalks and proposed possible bioenergy strategies in the region. ► About 34% of crop stalks – 26.14million tons/year between 2004 and 2008 – were biofuelable. ► The stalk production...

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Bibliographic Details
Published in:Applied energy 2012-05, Vol.93, p.305-318
Main Authors: Liu, Jin, Wu, Jianguo, Liu, Fengqiao, Han, Xingguo
Format: Article
Language:English
Subjects:
Applied sciences
Bioenergy
biofuels
corn stover
Crop residues
cropping systems
Energy
Exact sciences and technology
grain crops
Inner Mongolia Autonomous Region (IMAR)
Multifunctional production
Resource evaluation
Sustainable development
yields
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Summary:► We quantified the amount and distribution of crop stalk resources in Inner Mongolia. ► We assessed biofuelable crop stalks and proposed possible bioenergy strategies in the region. ► About 34% of crop stalks – 26.14million tons/year between 2004 and 2008 – were biofuelable. ► The stalk production was higher in the east and west, but lower in the middle. ► Inner Mongolia has potential to develop bioenergy to improve its current energy structure. Inner Mongolia Autonomous Region (IMAR) is one of China’s strategic energy bases for the 21st century. While bioenergy in IMAR may play an important role in securing future energy supply, little research has been done so far, particularly for crop stalk resources as a potential source of bioenergy in this region. In this study we systematically analyzed the temporal and spatial patterns of crop stalk resources, evaluated the bioenergy potential of crop stalk resources, and explored possible pathways of developing stalk-based energy strategies in Inner Mongolia. Our results show that the total crop stalk yield in IMAR increased consistently from 1980 to 2008, with an average annual increase of 16.3%. Between 2004 and 2008, 26.14million tons of crop stalks were produced each year in IMAR, 8.82million tons of which could be used for biofuel production. Grain crops contributed most to the total amount of stalks for energy production, of which corn stalks were the largest contributor, accounting for 62% of the total crop stalk yield. Based on the current trend, crop stalk yields may continue to increase in the future. Geographically, the abundance of biofuelable crop stalk resources, either on a per capita or per unit of area basis, had a spatial pattern of “high on East and West and low in the middle”. Our findings suggest that IMAR has the potential for developing stalk-based bioenergy to improve its current overwhelmingly coal-dominated energy structure. However, more detailed and comprehensive studies are needed to figure out how exactly such bioenergy development should be carried out in a way that would promote the regional sustainability of Inner Mongolia – i.e., simultaneously providing social, economic, and ecological benefits.
ISSN:0306-2619
1872-9118
DOI:10.1016/j.apenergy.2011.12.059