{"id":4533,"date":"2017-01-29T01:00:46","date_gmt":"2017-01-29T01:00:46","guid":{"rendered":"http:\/\/task38.ieabioenergy.com\/?page_id=4533"},"modified":"2019-02-11T05:06:07","modified_gmt":"2019-02-11T05:06:07","slug":"workshops","status":"publish","type":"page","link":"https:\/\/task38.ieabioenergy.com\/workshops\/","title":{"rendered":"Workshops"},"content":{"rendered":"
Task 38 holds regular workshops in participating countries, often in conjunction with other IEA bioenergy tasks.<\/p>\n
\u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0\u00a0Uppsala, Sweden 2018<\/a> Angers, France 2017<\/a> Gothenburg, Sweden May 2017<\/a> V\u00e4xj\u00f6, Sweden January 2017<\/a> Southeastern USA April 2016<\/a> Berlin, Germany October 2015<\/a> Berlin, Germany October 2015<\/a> V\u00e4xj\u00f6, Sweden May 2015<\/a> Helsinki, Finland December 2014<\/a> Copenhagen, Denmark May 2014<\/a> Hunter Valley, Australia November 2013<\/a> Vienna, Austria, November 2012<\/a> Vienna, Austria, November 2012<\/a> Argonne, USA, April 2012\u00a0<\/a> Campinas, Brazil, September 2011<\/a> Brussels, Belgium, March 2010<\/a> Helsinki, Finland, 30 March, 2009<\/a> Salzburg, Austria, 5 February, 2008\u00a0<\/a> Dubrovnik, Croatia, 25 October, 2007\u00a0<\/a> Berlin, Germany, 11 May, 2007<\/a> Trondheim, Norway, 5-6 April, 2006<\/a> Dublin, Ireland, 25 April, 2005<\/a> Victoria, Canada, 15 September, 2004<\/a> Sydney, Australia, 26 March, 2004<\/a> Rotorua, New Zealand, 22 -23 March, 2004<\/a> \u00d6stersund, Sweden, September 30 – October 1, 2003<\/a> Amsterdam, Netherlands, 19 June 2002<\/a> Graz, Austria, 22-24 April 2002<\/a> Edinburgh, U.K., 12-13 November 2001<\/a> Canberra, Australia, 26-30 March 2001<\/a> Joensuu, Finland, 28 September 2000<\/a> Zagreb, Croatia, 22-26 May 2000<\/a> Gatlinburg, TN, USA, 27-30 September 1999<\/a> Nokia, Finland, 8 – 10 September 1998<\/a> Rotorua, New Zealand, 9 and 13 March 1998<\/a> Uppsala, Sweden, 29 – 30 September 1997<\/a> Vancouver, Canada, 30 – 31 May 1997<\/a>
\u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 \u00a0 Consequences for Climate and Bioenergy of Land Sector Carbon Accounting Under the Paris Agreement<\/p>\n
Understanding Climate Change Effects of Forest biomass and Bioenergy Systems<\/p>\n
Understanding the Climate Effects of Bioenergy Systems<\/p>\n
Forest Modelling Workshop<\/p>\n
Bioenergy in the Southeastern United States<\/p>\n
Joint Meeting Task 38 – Task 43: Climate Change Effects of Bioenergy<\/p>\n
Quantifying Climate Change Effects of Bioenergy<\/p>\n
Climate Change Effects of Biomass and Bioenergy Systems<\/p>\n
Forest-based Bioenergy<\/p>\n
Forests, Bioenergy and Climate Change Mitigation<\/p>\n
Building the Future – Biomass for the Environment, Economy and Society<\/p>\n
Impact of Timing of GHG emissions<\/p>\n
Linking Policy, Science and Industry<\/p>\n
How to present the timing of emissions from bioenergy in LCA and GHG accounting<\/p>\n
Quantifying and managing land use effects of bioenergy<\/p>\n
Greenhouse gas emissions from bioenergy systems: impacts of timing, issues of responsibility<\/p>\n
Land Use Changes due to Bioenergy Quantifying and Managing Climate Change and Other Environmental Impacts<\/p>\n
Transportation biofuels: For greenhouse gas mitigation, energy security or other reasons?<\/p>\n
Joint IEA Bioenergy Task 29, Task 38 and Task 40 Expert Consultation<\/p>\n
Policies and Instruments to Promote Bioenergy and Bioproducts for GHG Mitigation<\/p>\n
Greenhouse gas credits trade versus biomass trade \u00e2\u20ac\u201c weighing the benefits<\/p>\n
Greenhouse Gas Aspects of Biomass Cascading – Reuse, Recycling and Energy Generation<\/p>\n
Forest Carbon Accounting, Carbon Offset Trading and Opportunities to Enhance Bioenergy<\/p>\n
Bioenergy Australia Meeting<\/p>\n
The Role of Carbon Sequestration and Bioenergy in National and International Greenhouse-Gas Markets<\/p>\n
Efficient Use of Biomass for Greenhouse Mitigation<\/p>\n
Biomass Trade: Economic and Greenhouse Gas Considerations (biotrade)<\/p>\n
The economics of substitution management to reduce net GHG emissions &
Forest-based carbon mitigation projects: dealing with permanence, leakage, additionality, uncertainties, and socio-economic and environmental issues<\/p>\n
Successful strategies for biomass-based GHG emissions reduction and mitigation: translating research into policy and implementation<\/p>\n
Carbon accounting and emissions trading related to bioenergy, wood products and carbon sequestration<\/p>\n
Land-Use, Land-Use Change and Forestry: the road to COP6<\/p>\n
Modelling Workshop: Bioenergy, Greenhouse Gases and Carbon Sequestration<\/p>\n
Bioenergy for mitigation of CO2 emissions: the power, transportation, and industrial sectors<\/p>\n
Between COP3 and COP4: The Role of Bioenergy in Achieving the Targets Stipulated in the Kyoto Protocol<\/p>\n
Effects of the Kyoto Protocol on forestry and bioenergy projects for mitigation of net carbon emissions<\/p>\n
Implementation of Solid Biofuels for Carbon Dioxide Mitigation<\/p>\n
Forestry, Forest Products and Energy: Greening the Greenhouse<\/p>\n