BeWhere

A model that optimizes the allocation of renewable energy systems from the local, regional, national or European level.


BeWhere is a techno-economic engineering model for renewable energy systems optimization. It identifies the localization, size and technology of the renewable energy system that should be applied in in a specific region.

The economy of the supply chain is calculated with respect to the economy of scale of the corresponding renewable energy system. 


FAST FACTS

  • BeWhere can calculate the economic and environmental benefits of substituting renewable energy for fossil-fuel-based production.

  • BeWhere can investigate the cost of CO2 capture and storage, a technology that could ultimately lead to negative carbon emissions. 

  • Participants in  IIASA's Young Scientists Summer Program have contributed to the development of BeWhere since 2008.

About BEWHERE

BeWhere was developed at IIASA and Luleå University of Technology, Sweden, from 2006 onwards. In 2010 it was expanded by IIASA from the local and national levels to the EU27 level.

The model is under constant development. It now works for the allocation of solar, wind, hydro and bioenergy production plants. Under the bioenergy umbrella, the model can be applied for wood waste, crop residues, lignocellulosic industrial waste and three different biofuel technologies (second-generation ethanol, methanol, and Fischer-Tropsch diesel). IIASA has implemented the Austrian, Finish and Swedish  forestry wood market at a very detailed level in BeWhere. This now functions as a key methodology at the aggregated EU27 level.

 © IIASA






Background

First-generation biofuels from sugar, starch, and vegetable oil did not achieve the greenhouse gas emission reductions hoped for. Some also had the added disadvantage of competing for land with food production. Growing "food" like corn crops to produce ethanol for vehicles has been heavily criticized. Second-generation biofuels using non-food crops or sources such as forestry residues, municipal waste, algae, biomass grown on non-arable land, or certified wood, are a more sustainable source of biofuel production. However, very large production plants are required to make production costs competitive.

Challenges


Reaching economies of scale for biofuels can cause logistical problems. Biomass feedstock is often located in the countryside, while production plants are frequently close to ports to facilitate transport by water.  The transportation of feedstock from the countryside to the production plant can cause heavy traffic, producing adverse social and environmental effects.

This is why the optimal geographical location and size of the production plant with respect to feedstock and demand location needs to be determined, prior to plant investment and construction, and this can be done using BeWhere.



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Last edited: 02 June 2015

CONTACT DETAILS

Sylvain Leduc

Research Scholar

Ecosystems Services and Management

T +43(0) 2236 807 267

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International Institute for Applied Systems Analysis (IIASA)
Schlossplatz 1, A-2361 Laxenburg, Austria
Phone: (+43 2236) 807 0 Fax:(+43 2236) 71 313