Title:
Economic Evaluation of Decentralized Pyrolysis for the Production of Bio-Oil as an Energy Carrier for Improved Logistics towards a Large Centralized Gasification Plant
Author(s):
Braimakis, K., Atsonios, K., Panopoulos, K., Karellas, S., Kakaras, E.
Document(s):
Paper
Abstract:
In the recent years, the upgrade of low energy density solid biomass to liquid biooil from 0.3 tn/m3 to 1.2 tn/m3 [1] and from 5.4 GJ/m3 to 20.4 GJ/m3 [2], [3] through the fast pyrolysis process has become extensively researched. In the present study, the potential of biomasstobiooil conversion as an intermediate process step to increase product energy density and subsequently decrease transportrelated costs is examined. The scheme under investigation consists of two steps; 1) decentralized biooil production from biomass gathered from a circular surface and 2) transportation of the produced biooil to a central destination (biorefinery, power plant etc.). The supply chain is compared to one based on direct solid biomass transportation from the circular source to the central plant. The best case scenario of the biomasstobiooil conversion scheme involves an 80 dry tn/h fast pyrolysis unit and utilization of the byproduct char for electricity production, while the biooil is transported by pipeline. For central transportation distances ranging from 100 to 500 km, the centralized unit yard cost of woodchipsderived biooil is equal to 0.0300.035 €/kWhth, while the respective cost for directly transported biomass varies between 0.0150.024 €/kWhth. It can therefore be concluded that the capital and operating costs of fast pyrolysis units are still high, to hindering any benefits from cost effective transportation of the bio oil.
Keywords:
bio-oil, cost analysis, fast pyrolysis, production cost, transportation cost
Topic:
R&D on Biomass Conversion Technologies for Heating, Electricity and Chemicals
Subtopic:
Pyrolysis and other biomass liquefaction technologies
Event:
21st European Biomass Conference and Exhibition
Session:
2CO.1.5
Pages:
527 - 539
ISBN:
978-88-89407-53-0
Paper DOI:
10.5071/21stEUBCE2013-2CO.1.5
Price:
FREE
