Competing uses for China's straw: the economic and carbon abatement potential of biochar

Abbie Clare*, Simon Shackley, Stephen Joseph, James Hammond, Genxing Pan, Anthony Bloom

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract / Description of output

China is under pressure to improve its agricultural productivity to keep up with the demands of a growing population with increasingly resource-intensive diets. This productivity improvement must occur against a backdrop of carbon intensity reduction targets, and a highly fragmented, nutrient-inefficient farming system. Moreover, the Chinese government increasingly recognizes the need to rationalize the management of the 800 million tonnes of agricultural crop straw that China produces each year, up to 40% of which is burned in-field as a waste. Biochar produced from these residues and applied to land could contribute to China's agricultural productivity, resource use efficiency and carbon reduction goals. However competing uses for China's straw residues are rapidly emerging, particularly from bioenergy generation. Therefore it is important to understand the relative economic viability and carbon abatement potential of directing agricultural residues to biochar rather than bioenergy. Using cost-benefit analysis (CBA) and life-cycle analysis (LCA), this paper therefore compares the economic viability and carbon abatement potential of biochar production via pyrolysis, with that of bioenergy production via briquetting and gasification. Straw reincorporation and in-field straw burning are used as baseline scenarios. We find that briquetting straw for heat energy is the most cost-effective carbon abatement technology, requiring a subsidy of $7 MgCO(2)e(-1) abated. However China's current bioelectricity subsidy scheme makes gasification (NPV $12.6 million) more financially attractive for investors than both briquetting (NPV $7.34 million), and pyrolysis ($-1.84 million). The direct carbon abatement potential of pyrolysis (1.06 MgCO(2)e per odt straw) is also lower than that of briquetting (1.35 MgCO(2)e per odt straw) and gasification (1.16 MgCO(2)e per odt straw). However indirect carbon abatement processes arising from biochar application could significantly improve the carbon abatement potential of the pyrolysis scenario. Likewise, increasing the agronomic value of biochar is essential for the pyrolysis scenario to compete as an economically viable, cost-effective mitigation technology.

Original languageEnglish
Pages (from-to)1272-1282
Number of pages11
JournalGCB Bioenergy
Volume7
Issue number6
DOIs
Publication statusPublished - Nov 2015

Keywords / Materials (for Non-textual outputs)

  • biochar
  • bioenergy
  • biomass
  • briquetting
  • China
  • gasification
  • pyrolysis
  • LIFE-CYCLE ASSESSMENT
  • ORGANIC-CARBON
  • BLACK CARBON
  • CROP PRODUCTIVITY
  • CONTAMINATED SOILS
  • POWER-GENERATION
  • USE EFFICIENCY
  • CLIMATE-CHANGE
  • FOOD SECURITY
  • RURAL CHINA

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