Biochar-based bioenergy and its environmental impact in Northwestern Ontario Canada: A review

被引:5
作者
Krish Homagain [1 ]
Chander Shahi [1 ]
Nancy Luckai [1 ]
Mahadev Sharma [2 ]
机构
[1] Faculty of Natural Resources Management, Lakehead University, 955 Oliver Road, Thunder Bay, ON, Canada P7B 5E1
[2] Ministry of Natural Resources, Ontario Forest Research Institute (OFRI), 1235 Queen St E, Sault Ste. Marie, ON, Canada P6A 2E5
来源
Journal of Forestry Research | 2014年 / 25卷 / 04期
关键词
biomass; life cycle assessment; LCA; CO2; carbon sequestration; greenhouse gas emissions; soil amendment;
D O I
暂无
中图分类号
S216 [生物能(生物质能)的应用];
学科分类号
080702 ;
摘要
Biochar is normally produced as a by-product of bioenergy. However, if biochar is produced as a co-product with bioenergy from sustainably managed forests and used for soil amendment, it could provide a carbon neutral or even carbon negative solution for current environmental degradation problems. In this paper, we present a comprehensive review of biochar production as a co-product of bioenergy and its implications. We focus on biochar production with reference to biomass availability and sustainability and on biochar utilization for its soil amendment and greenhouse gas emissions reduction properties. Past studies confirm that northwestern Ontario has a sustainable and sufficient supply of biomass feedstock that can be used to produce bioenergy, with biochar as a co-product that can replace fossil fuel consumption, increase soil productivity and sequester carbon in the long run. For the next step, we recommend that comprehensive life cycle assessment of biochar-based bioenergy production, from raw material collection to biochar application, with an extensive economic assessment is necessary for making this technology commercially viable in northwestern Ontario.
引用
收藏
页码:737 / 748
页数:12
相关论文
共 59 条
  • [1] Transgenic woody plants for biofuel[J]. Wei Tang,Anna Y.Tang.Journal of Forestry Research. 2014(02)
  • [2] Life cycle assessment of biochar cofiring with coal[J] . Yu-Fong Huang,Pei-Te Chiueh,Fu-Siang Syu,Shang-Lien Lo.Bioresource Technology . 2013
  • [3] Assessing potential of biochar for increasing water‐holding capacity of sandy soils[J] . Andres S. Basso,Fernando E. Miguez,David A. Laird,Robert Horton,Mark Westgate.GCB Bioenergy . 2012 (2)
  • [4] Coarse Woody Debris Dynamics Following Biomass Harvesting: Tracking Carbon and Nitrogen Patterns During Early Stand Development in Upland Black Spruce Ecosystems[J] . Scott Wiebe,Dave Morris,Nancy Luckai,Doug Reid.International Journal of Forest Engineering . 2012 (1)
  • [5] Biochar: A Synthesis of Its Agronomic Impact beyond Carbon Sequestration[J] . Spokas,Kurt A,Cantrell,Keri B,M Novak,Jeffrey,Archer,David W,Ippolito,James A,Collins,Harold P,Boateng,Akwasi A,Lima,Isabel M,Lamb,Marshall C,McAloon,Andrew J,Lentz,Rodrick D,Nichols,Kristine A.Journal of Environmental Quality . 2012 (4)
  • [6] Pyrolysis biochar systems for recovering biodegradable materials: A life cycle carbon assessment[J] . Rodrigo Ibarrola,Simon Shackley,James Hammond.Waste Management . 2011 (5)
  • [7] Life-Cycle Assessment of Pyrolysis Bio-Oil Production*[J] . Steele,Philip,Puettmann,Maureen E,Penmetsa,Venkata Kanthi,Cooper,Jerome E.Forest Products Journal . 2012 (4)
  • [8] Environmental footprints of British Columbia wood pellets from a simplified life cycle analysis
    Pa, Ann
    Craven, Jill S.
    Bi, Xiaotao T.
    Melin, Staffan
    Sokhansanj, Shahab
    [J]. INTERNATIONAL JOURNAL OF LIFE CYCLE ASSESSMENT, 2012, 17 (02) : 220 - 231
  • [9] Financial feasibility of increasing carbon sequestration in harvested wood products in Mississippi[J] . Prakash Nepal,Robert K. Grala,Donald L. Grebner.Forest Policy and Economics . 2011 (1)
  • [10] Economic analysis of biomass power generation schemes under renewable energy initiative with Renewable Portfolio Standards (RPS) in Korea
    Moon, Ji-Hong
    Lee, Jeung-Woo
    Lee, Uen-Do
    [J]. BIORESOURCE TECHNOLOGY, 2011, 102 (20) : 9550 - 9557
123456