Economic impacts of bio-refinery and resource cascading systems: an applied general equilibrium analysis for Poland
Fossil fuels used for fertilizers and other chemical production account for around 15% of total fossil fuel consumption. Often, many of the chemical compounds that have a complex synthesis route in the petrochemical industry can be produced from biomass origin. If the demand for biomass starts to increase in the chemical sector as well, this might have an impact on other biomass purchasers e.g. energy sector. Naturally it might increase the pressure on land and agricultural commodities. According to our analysis the novel technologies could well become competitive, resulting in a reduction of the supply of biomass to other sectors and an increase of the price of agricultural commodities.
Abstract
Due to more stringent energy and climate policies, it is expected that many traditional chemicals will be replaced by their biomass-based substitutes, bio-chemicals. These innovations, however, can influence land allocation since the demand for land dedicated to specific crops might increase. Moreover, it can have an influence on traditional agricultural production. In this paper, we use an applied general equilibrium framework, in which we include two different bio-refinery processes and incorporate so-called cascading mechanisms. The bio-refinery processes use grass, as one of the major inputs, to produce bio-nylon and propane-diol (1,3PDO) to substitute currently produced fossil fuel-based nylon and ethane-diol. We examine the impact of specific climate policies on the bioelectricity share in total electricity production, land allocation, and production quantities and prices of selected commodities. The novel technologies become competitive, with an increased stringency of climate policies. This switch, however, does not induce a higher share of bioelectricity. The cascade does stimulate the production of bioelectricity, but it induces more of a shift in inputs in the bioelectricity sector (from biomass to the cascaded bio-nylon and 1, 3PDO) than an increase in production level of bioelectricity. We conclude that dedicated biomass crops will remain the main option for bioelectricity production: the contribution of the biomass systems remains limited. Moreover, the bioelectricity sector looses a competition for land for biomass production with bio-refineries.
Authors
Specifications
- Publication title
- Economic impacts of bio-refinery and resource cascading systems: an applied general equilibrium analysis for Poland
- Publication date
- 31 December 2007
- Publication type
- Publication
- Magazine
- Biotechnol J 2007; 2(12):1535-46
- Product number
- 92200