Difference between revisions of "Bioenergy Decision Support Tool"

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The [[Bioenergy for Agricultural Production|Bioenergy]] Decision Support Tool (DST) provides stepwise guidance to decision makers in governments to develop [[File:Firewood burning.jpg|thumb|right|300px|Burning Firewood as a source of heat is a very old example for the use of bioenergy, © Louis Waweru]]sustainable bioenergy policies and strategies, and to assess investment proposals. It was created as an interactive tool in e-book form which provides the full text and can be printed.<br/>
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= Overview<br/> =
  
The UN-Energy Bioenergy Decision Support Tool (DST) was developed jointly by the Food and Agricultural Organization of the United Nations (FAO) and the United Nations Environment Programme (UNEP) under the framework of UN-Energy. UN-Energy is an UN agency-wide coordination mechanism on energy.<br/>
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The [http://www.bioenergydecisiontool.org/ Bioenergy Decision Support Tool (DST)]&nbsp;provides stepwise guidance to decision makers in governments to develop [[File:Firewood burning.jpg|thumb|right|300px|Burning Firewood as a source of heat is a very old example for the use of bioenergy, © Louis Waweru]]sustainable bioenergy policies and strategies, and to assess investment proposals. It was created as an interactive tool in e-book form which provides the full text and can be printed.<br/>
  
Using Bioenergy can be an effective way of creating power in developed as well as in underdeveloped and rural regions. Bioenergy can be used to produce energy in remote areas as happens in one of the Powering-Agriculture-Winners, [http://poweringag.org/2013-winners/camco Camco Clean Energy in rural Areas of Benin and Tanzania].<br/>
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The DST was developed jointly by the Food and Agricultural Organization of the United Nations (FAO) and the United Nations Environment Programme (UNEP) under the framework of UN-Energy.<br/>
  
 
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= The Techno–Economic Background<br/> =
 
= The Techno–Economic Background<br/> =
The '''Techno-Economic Background '''provides the basics of bioenergy, such as explanations and definitions of the various bioenergy technologies, the feedstocks and applications of bioenergy as well as examples for bioenergy production chains.<br/>
 
 
The chapter Techno-Economic Background contains the following parts:<br/>
 
 
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The [[Bioenergy: Techno-Economic Background|Techno-Economic Background]] provides the basics of bioenergy, such as explanations and definitions of the various bioenergy technologies, feedstocks and applications of bioenergy as well as examples for bioenergy production chains:<br/>
  
 
*Definitions and Terms<br/>
 
*Definitions and Terms<br/>
*[[Basics on Biomass|Biomass Resources]]<br/>
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*Biomass Resources<br/>
 
*Bioenergy Production Chain<br/>
 
*Bioenergy Production Chain<br/>
 
*Sectors and Applications<br/>
 
*Sectors and Applications<br/>
 
*Bioenergy Conversion Processes<br/>
 
*Bioenergy Conversion Processes<br/>
 
*Bioenergy Systems<br/>
 
*Bioenergy Systems<br/>
*[[Biofuels|Liquid and Gaseous Fuels]]<br/>
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*Liquid and Gaseous Fuels<br/>
<br/>
 
 
 
read more: [[Techno-Economic Background|Techno-Economic Background]]<br/>
 
  
 
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►Read More: [[Bioenergy: Techno-Economic Background|Techno-Economic Background]]
  
 
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= Designing a Strategy<br/> =
 
= Designing a Strategy<br/> =
'''Designing a Strategy '''answers important questions acting as cornerstones for the use of bioenergy: Who, Why, Which, What, Where and How?<br/>
 
 
The chapter designing a strategy contains the following parts:<br/>
 
 
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[[Bioenergy: Designing a Strategy|Designing a Strategy]] answers important questions acting as cornerstones for the use of bioenergy: Who, Why, Which, What, Where and How?<br/>
  
 
*Who is involved?<br/>
 
*Who is involved?<br/>
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*Where can bioenergy be geographically implemented?<br/>
 
*Where can bioenergy be geographically implemented?<br/>
 
*How can the best opportunities for smallholders and land owners be created?<br/>
 
*How can the best opportunities for smallholders and land owners be created?<br/>
<br/>
 
 
read more: [[Designing a Strategy|Designing a strategy]]<br/>
 
  
 
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<span style="line-height: 20.4px; font-size: 13.63px; background-color: rgb(255, 255, 255);">►R</span><span style="line-height: 20.4px; font-size: 13.63px; background-color: rgb(255, 255, 255);">ead More: </span> [[Bioenergy: Designing a Strategy|Designing a Strategy]]<br/>
  
 
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= Implementation and Operation<br/> =
 
= Implementation and Operation<br/> =
When developing a bioenergy strategy, one has to consider important aspects:Developing supporting policy framework, linking the strategy to existing/potential programs and organizing the set-up in order to successfully interact with technical, financial and administrative stakeholders.<br/>
 
 
The chapter Implementation and Operation contains the following parts:<br/>
 
 
<br/>
 
 
<br/>
 
  
 +
[[Bioenergy: Implementation and Operation|Implementation and Operation]] introduces to important aspects of bioenergy such as developing supporting policy framework, linking the strategy to existing/potential programs and organizing the set-up in order to successfully interact with technical, financial and administrative stakeholders:<br/>
  
 
*Resource Ownership: Types and Impacts<br/>
 
*Resource Ownership: Types and Impacts<br/>
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*Program Development<br/>
 
*Program Development<br/>
 
*Integrating with Energy and Resource Baselines<br/>
 
*Integrating with Energy and Resource Baselines<br/>
*Monitoring, Measurement, Reporting and Evaluation<br/>
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*Monitoring, Measurement, Reporting and Evaluation
<br/>
 
 
 
read more: [[Implementation and Operation|Implementation and Operation]]<br/>
 
  
 
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<span style="line-height: 20.4px; font-size: 13.63px; background-color: rgb(255, 255, 255);">►R</span><span style="line-height: 20.4px; font-size: 13.63px; background-color: rgb(255, 255, 255);">ead More:</span> [[Bioenergy: Implementation and Operation|Implementation and Operation]]
  
 
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= Project Screening<br/> =
 
= Project Screening<br/> =
Decisions on the allocation of land and granting operating licenses to bioenergy investments (inter alia those funded by international investors) become a more and more important theme for government authorities. Many of the same questions, which arose in the bioenergy strategy, need to be considered in order to make an informed and responsible decision on whether to go ahead with a particular investment project or what types of conditions to include in the eventual license agreement or how to form and implement a publicly funded bioenergy investment project. This section will examine the decision process for reviewing project proposals in order to fit the national bioenergy strategy with concrete projects.<br/>
 
 
The chapter Project Screening contains the following parts:<br/>
 
 
<br/>
 
 
<br/>
 
  
 +
Decisions on the allocation of land and granting operating licenses to bioenergy investments (inter alia those funded by international investors) become a more and more important theme for government authorities. Many of the same questions, which arose in the bioenergy strategy, need to be considered in order to make an informed and responsible decision on whether to go ahead with a particular investment project or what types of conditions to include in the eventual license agreement or how to form and implement a publicly funded bioenergy investment project. This section will examine the decision process for reviewing project proposals in order to fit the national bioenergy strategy with concrete projects:<br/>
  
 
*Defining the Project Proposals<br/>
 
*Defining the Project Proposals<br/>
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*Stakeholder Processes<br/>
 
*Stakeholder Processes<br/>
 
*Impact Assessment<br/>
 
*Impact Assessment<br/>
*Financial Viability<br/>
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*Financial Viability
<br/>
 
 
 
read more: [[Project Screening|Project Screening]]<br/>
 
  
 
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<span style="line-height: 20.4px; font-size: 13.63px; background-color: rgb(255, 255, 255);">►R</span><span style="line-height: 20.4px; font-size: 13.63px; background-color: rgb(255, 255, 255);">ead More</span>: [[Bioenergy: Project Screening|Project Screening]]
  
 
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= Land Resources<br/> =
 
= Land Resources<br/> =
<p style="margin: 0cm 0cm 10pt; text-align: justify;"><span lang="en-us">Increasing land pressures will require a good management of biofuels expansion in order to prevent loss of biodiversity and[[File:Hillside Deforestation in Rio de Janeiro.jpg|thumb|right|300px|Deforestation, carried out to gain land resources, can result in severe ecological damage, © Alex Rio Brazil]] damage to ecosystem. In this section, key drivers and analytical approaches associated with the allocation of land resources for bioenergy production as well as an overview of land use for bioenergy systems is provided. </span><br/></p><p style="margin: 0cm 0cm 10pt; text-align: justify;">The chapter Lan Resources contains the following parts:<br/></p>
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<p style="margin: 0cm 0cm 10pt; text-align: justify;"><span lang="en-us">Increasing land pressures will require a good management of biofuels expansion in order to prevent loss of biodiversity and[[File:Hillside Deforestation in Rio de Janeiro.jpg|thumb|right|300px|Deforestation, carried out to gain land resources, can result in severe ecological damage, © Alex Rio Brazil]] damage to ecosystem. In this section, key drivers and analytical approaches associated with the allocation of land resources for bioenergy production as well as an overview of land use for bioenergy systems is provided:</span><br/></p>
 
*Land Use Efficiency<br/>
 
*Land Use Efficiency<br/>
 
*Land Resource Assessment<br/>
 
*Land Resource Assessment<br/>
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*High Biodiversity Environments<br/>
 
*High Biodiversity Environments<br/>
 
*Marginal and Degraded Lands<br/>
 
*Marginal and Degraded Lands<br/>
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read more: [[Land Resources|Land Resources]]<br/>
 
 
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►Read More: [[Bioenergy: Land Resources|Land Resources]]
  
 
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= People and Processes<br/> =
 
= People and Processes<br/> =
In order to ensure a good planning of a bioenergy project, it is important to define the roles of the various actors engaged. In this section, deeper background knowledge is provided on some of the people-process systems that are important in the design and implementation of a bioenergy strategy.<br/>
 
 
The chapter People and processes contains the following parts:<br/>
 
 
<br/>
 
 
<br/>
 
  
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In order to ensure a good planning of a bioenergy project, it is important to define the roles of the various actors engaged. In this section, deeper background knowledge is provided on some of the people-process systems that are important in the design and implementation of a bioenergy strategy:
  
 
*Participation of Stakeholders<br/>
 
*Participation of Stakeholders<br/>
 
*Governance<br/>
 
*Governance<br/>
 
*Community Engagements in Projects<br/>
 
*Community Engagements in Projects<br/>
*MMRE<br/>
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*MMRE
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read more: [[People and Processes|People and Processes]]<br/>
 
  
 
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►Read More: [[Bioenergy: People and Processes|People and Processes]]<br/>
  
 
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= Deployment and Good Practices<br/> =
  
= Deployment and Good Practices<br/> =
 
 
The success of deployed bioenergy technologies depends on the institutional mechanisms and the supporting infrastructure. Good practices make the operation of bioenergy systems more sustainable. Combining effective deployment and good practice supports the implementation and success of bioenergy strategies. In this section, an overview of good practices in agriculture and forestry is presented. It also gives concrete examples of innovative deployment and/or good practice.<br/>
 
The success of deployed bioenergy technologies depends on the institutional mechanisms and the supporting infrastructure. Good practices make the operation of bioenergy systems more sustainable. Combining effective deployment and good practice supports the implementation and success of bioenergy strategies. In this section, an overview of good practices in agriculture and forestry is presented. It also gives concrete examples of innovative deployment and/or good practice.<br/>
  
The chapter Deployment and Good practises contains the following parts:<br/>
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The chapter [[Bioenergy: Deployment and Good Practices|Deployment and Good Practices]] contains the following parts:
 
 
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*Deployment of Bioenergy Systems<br/>
 
*Deployment of Bioenergy Systems<br/>
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*Sustainable Agricultural Practices<br/>
 
*Sustainable Agricultural Practices<br/>
 
*Sustainable Forest Management<br/>
 
*Sustainable Forest Management<br/>
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read more: [[Deployment and Good Practices|Deployment and Good Pactices]]<br/>
 
  
 
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►Read More: [[Bioenergy: Deployment and Good Practices|Deployment and Good Practices]]<br/>
  
 
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= Evaluating Impacts<br/> =
 
= Evaluating Impacts<br/> =
Questions for key environmental and socio-economic impacts are provided in this module and will help to examine impacts from bioenergy systems. They are grouped into four main categories:<br/>
 
 
<br/>
 
 
<br/>
 
  
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Questions for key environmental and socio-economic impacts are provided in this module and will help to examine impacts from bioenergy systems. They are grouped into four main categories:
  
 
*Food security
 
*Food security
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*Climate and emissions
 
*Climate and emissions
 
*Socio-economic impacts
 
*Socio-economic impacts
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The impacts and questions reviewed are most appropriate for the evaluation of large-scale projects.<br/>
 
The impacts and questions reviewed are most appropriate for the evaluation of large-scale projects.<br/>
  
 
<br/>
 
<br/>
  
read more: [[Evaluating Impacts|Evaluating Impacts]]<br/>
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►Read More: [[Bioenergy: Evaluating Impacts|Evaluating Impacts]]
  
 
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= Further Information<br/> =
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*[http://www.bioenergydecisiontool.org/ Bioenergy Decision Tool]<br/>
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*[http://www.unep.org/ UNEP]<br/>
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*[[Portal:Bioenergy|Bioenergy Portal on energypedia]]<br/>
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[[Category:Tools]]
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[[Category:Bioenergy]]
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[[Category:Biomass]]
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[[Category:Biofuel]]
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[[Category:Powering_Agriculture]]
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[[Category:Wood_Energy]]
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[[Category:Rural_Development]]

Latest revision as of 14:54, 26 June 2018

Overview

The Bioenergy Decision Support Tool (DST) provides stepwise guidance to decision makers in governments to develop

Burning Firewood as a source of heat is a very old example for the use of bioenergy, © Louis Waweru

sustainable bioenergy policies and strategies, and to assess investment proposals. It was created as an interactive tool in e-book form which provides the full text and can be printed.

The DST was developed jointly by the Food and Agricultural Organization of the United Nations (FAO) and the United Nations Environment Programme (UNEP) under the framework of UN-Energy.



The Techno–Economic Background

The Techno-Economic Background provides the basics of bioenergy, such as explanations and definitions of the various bioenergy technologies, feedstocks and applications of bioenergy as well as examples for bioenergy production chains:

  • Definitions and Terms
  • Biomass Resources
  • Bioenergy Production Chain
  • Sectors and Applications
  • Bioenergy Conversion Processes
  • Bioenergy Systems
  • Liquid and Gaseous Fuels


►Read More: Techno-Economic Background


Designing a Strategy

Designing a Strategy answers important questions acting as cornerstones for the use of bioenergy: Who, Why, Which, What, Where and How?

  • Who is involved?
  • Why should actors pursue a bioenergy strategy?
  • Which sectors demand bioenergy?
  • What bioenergy feedstocks and technologies should be pursued to meet national objectives?
  • Where can bioenergy be geographically implemented?
  • How can the best opportunities for smallholders and land owners be created?


►Read More: Designing a Strategy


Implementation and Operation

Implementation and Operation introduces to important aspects of bioenergy such as developing supporting policy framework, linking the strategy to existing/potential programs and organizing the set-up in order to successfully interact with technical, financial and administrative stakeholders:

  • Resource Ownership: Types and Impacts
  • Small-Scale Schemes: Opportunities and Risks
  • Devising an Implementation Strategy
  • Establishing Legal and Regulatory Frameworks
  • Program Development
  • Integrating with Energy and Resource Baselines
  • Monitoring, Measurement, Reporting and Evaluation


►Read More: Implementation and Operation



Project Screening

Decisions on the allocation of land and granting operating licenses to bioenergy investments (inter alia those funded by international investors) become a more and more important theme for government authorities. Many of the same questions, which arose in the bioenergy strategy, need to be considered in order to make an informed and responsible decision on whether to go ahead with a particular investment project or what types of conditions to include in the eventual license agreement or how to form and implement a publicly funded bioenergy investment project. This section will examine the decision process for reviewing project proposals in order to fit the national bioenergy strategy with concrete projects:

  • Defining the Project Proposals
  • Evaluating Compability with Bioenergy Strategy
  • Stakeholder Processes
  • Impact Assessment
  • Financial Viability


►Read More: Project Screening



Land Resources

Increasing land pressures will require a good management of biofuels expansion in order to prevent loss of biodiversity and

Deforestation, carried out to gain land resources, can result in severe ecological damage, © Alex Rio Brazil

damage to ecosystem. In this section, key drivers and analytical approaches associated with the allocation of land resources for bioenergy production as well as an overview of land use for bioenergy systems is provided:

  • Land Use Efficiency
  • Land Resource Assessment
  • High Carbon Content Environments
  • High Biodiversity Environments
  • Marginal and Degraded Lands


►Read More: Land Resources


People and Processes

In order to ensure a good planning of a bioenergy project, it is important to define the roles of the various actors engaged. In this section, deeper background knowledge is provided on some of the people-process systems that are important in the design and implementation of a bioenergy strategy:

  • Participation of Stakeholders
  • Governance
  • Community Engagements in Projects
  • MMRE


►Read More: People and Processes


Deployment and Good Practices

The success of deployed bioenergy technologies depends on the institutional mechanisms and the supporting infrastructure. Good practices make the operation of bioenergy systems more sustainable. Combining effective deployment and good practice supports the implementation and success of bioenergy strategies. In this section, an overview of good practices in agriculture and forestry is presented. It also gives concrete examples of innovative deployment and/or good practice.

The chapter Deployment and Good Practices contains the following parts:

  • Deployment of Bioenergy Systems
  • Integrated Food Energy Systems
  • Co-Products
  • Sustainable Agricultural Practices
  • Sustainable Forest Management


►Read More: Deployment and Good Practices


Evaluating Impacts

Questions for key environmental and socio-economic impacts are provided in this module and will help to examine impacts from bioenergy systems. They are grouped into four main categories:

  • Food security
  • Environment and natural resources
  • Climate and emissions
  • Socio-economic impacts

The impacts and questions reviewed are most appropriate for the evaluation of large-scale projects.


►Read More: Evaluating Impacts


Further Information

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