Difference between revisions of "Biomass Potential in the Indonesian Agroindustry"

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= Overview =
  
== Summary ==
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The study "[[:File:Biomass_Potential_Indosian_Agroindustry.pdf|Overview of the Waste-to-Energy Potential for Grid-connected Electricity Generation (Solid Biomass and Biogas) in Indonesia]]" by Lisa Conrad and Ikke Prasetyaning provides an overview of the potentials from biomass waste available from the agroindustry in [[Indonesia_Energy_Situation|Indonesia]] – for electricity generation and CO2 emission reductions. In its analyses the study looks at 1) theoretical, 2) technical, and 3) economic potential.
  
The study "Overview of the Waste-to-Energy Potential for Grid-connected Electricity Generation (Solid Biomass and Biogas) in Indonesia" by Lisa Conrad and Ikke Prasetyaning provides an overview of the potentials from biomass waste available from the agroindustry in Indonesia – for electricity generation and CO2 emission reductions. In its analyses the study looks at 1) theoretical, 2) technical, and 3) economic potential.
 
  
Since agro industries in the palm oil sector, in rice paddy and sugar cane count for 80% of all residues in the Indonesian agro industry, those three industries were investigated (palm oil crops 100 mt/ year, rice paddy 69 mt/ year, sugar cane 30 mt/ year.
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= Potential =
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Since agro industries in the palm oil sector, in rice paddy and sugar cane count for 80% of all residues in the Indonesian agro industry, those three industries were investigated (palm oil crops 100 mt/ year, rice paddy 69 mt/ year, sugar cane 30 mt/ year).
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== Theoretical Potential ==
  
 
In regards to '''theoretical potential''', those three commodities have a electricity generation potential of total 328 TWh per year with an equivalent power capacity of 46 GWe.
 
In regards to '''theoretical potential''', those three commodities have a electricity generation potential of total 328 TWh per year with an equivalent power capacity of 46 GWe.
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== Technical Potential ==
  
 
Considering grid availability, the '''technical potential''' of electricity production from the three industries is lower with 43 TWH, with a CO2 saving potential of approximately 39 mio tons per year. This potential of 43 TWh/year from the biomass/biogas power plant could meet Indonesia’s electricity demand of 174 TWh/year by 25%.
 
Considering grid availability, the '''technical potential''' of electricity production from the three industries is lower with 43 TWH, with a CO2 saving potential of approximately 39 mio tons per year. This potential of 43 TWh/year from the biomass/biogas power plant could meet Indonesia’s electricity demand of 174 TWh/year by 25%.
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However, this figure being significantly lower than the theoretical electricity generation potential of 328 TWh/year demonstrates that the availability of interconnected transmission grid is still a significant barrier in Indonesia.
 
However, this figure being significantly lower than the theoretical electricity generation potential of 328 TWh/year demonstrates that the availability of interconnected transmission grid is still a significant barrier in Indonesia.
  
To evaluate the '''economic bioenergy potential''' in Indonesia ownership of the industry sector as well as market selling price of the feedstock and the feed-in tariff are taken into account. Currently, only projects using biogas from palm oil effluents with very short distance to the grid and high processing capacities might be considered for evaluation of economic potential.
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== Economic Potential ==
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To evaluate the '''economic bioenergy potential''' in Indonesia ownership of the industry sector as well as market selling price of the feedstock and the [[Feed-in_Tariffs_(FIT)|feed-in tariff]] are taken into account. Currently, only projects using biogas from palm oil effluents with very short distance to the grid and high processing capacities might be considered for evaluation of economic potential.
  
 
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== Study ==
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= Download =
  
[[File:Biomass Potential Indosian Agroindustry.pdf|180px|Overview of the Waste-to-Energy Potential for Grid-connected Electricity Generation (Solid Biomass and Biogas) in Indonesia|alt=Overview of the Waste-to-Energy Potential for Grid-connected Electricity Generation (Solid Biomass and Biogas) in Indonesia]]
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[[File:Biomass Potential Indosian Agroindustry.pdf|thumb|left|180px|Overview of the Waste-to-Energy Potential for Grid-connected Electricity Generation (Solid Biomass and Biogas) in Indonesia|alt=Overview of the Waste-to-Energy Potential for Grid-connected Electricity Generation (Solid Biomass and Biogas) in Indonesia]]
  
 
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== See also ==
 
  
[https://energypedia.info/wiki/Portal:Solid_Biomass Solid Biomass Portal]
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= Further Information =
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*[[Portal:Water and Energy for Food|Water and Energy for Food (WE4F) portal on energypedia]]
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*[[Portal:Solid_Biomass|Solid Biomass Portal on energypedia]]
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*[[Portal:Biogas|Biogas Portal on energypedia]]
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*[[Indonesia_Energy_Situation|Indonesia Energy Situtation]]
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*[http://www.lcore-indonesia.or.id/ GIZ Programme: Least Cost Renewables in Indonesia (LCORE-INDO)]
  
[https://energypedia.info/wiki/Portal:Biogas Biogas Portal]
 
  
[[Indonesia Energy Situation|Indonesia Energy Situtation]]
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= References =
  
[http://www.lcore-indonesia.or.id/ GIZ Programme: Least Cost Renewables in Indonesia (LCORE-INDO)]
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<references />
  
 
[[Category:Waste-to-energy]]
 
[[Category:Waste-to-energy]]

Latest revision as of 19:00, 14 July 2020

Overview

The study "Overview of the Waste-to-Energy Potential for Grid-connected Electricity Generation (Solid Biomass and Biogas) in Indonesia" by Lisa Conrad and Ikke Prasetyaning provides an overview of the potentials from biomass waste available from the agroindustry in Indonesia – for electricity generation and CO2 emission reductions. In its analyses the study looks at 1) theoretical, 2) technical, and 3) economic potential.


Potential

Since agro industries in the palm oil sector, in rice paddy and sugar cane count for 80% of all residues in the Indonesian agro industry, those three industries were investigated (palm oil crops 100 mt/ year, rice paddy 69 mt/ year, sugar cane 30 mt/ year).


Theoretical Potential

In regards to theoretical potential, those three commodities have a electricity generation potential of total 328 TWh per year with an equivalent power capacity of 46 GWe.


Technical Potential

Considering grid availability, the technical potential of electricity production from the three industries is lower with 43 TWH, with a CO2 saving potential of approximately 39 mio tons per year. This potential of 43 TWh/year from the biomass/biogas power plant could meet Indonesia’s electricity demand of 174 TWh/year by 25%.

However, this figure being significantly lower than the theoretical electricity generation potential of 328 TWh/year demonstrates that the availability of interconnected transmission grid is still a significant barrier in Indonesia.


Economic Potential

To evaluate the economic bioenergy potential in Indonesia ownership of the industry sector as well as market selling price of the feedstock and the feed-in tariff are taken into account. Currently, only projects using biogas from palm oil effluents with very short distance to the grid and high processing capacities might be considered for evaluation of economic potential.


Download

Overview of the Waste-to-Energy Potential for Grid-connected Electricity Generation (Solid Biomass and Biogas) in Indonesia
Overview of the Waste-to-Energy Potential for Grid-connected Electricity Generation (Solid Biomass and Biogas) in Indonesia




Further Information


References