Abstract
Political, economic and ecological reasons have recently been leading to efforts to replace fossil hydrocarbons
and their products in a sustainable way. In order to replace fossil-based polymers, photoautotrophically produced
polyhydroxybutryrates (PHBs), which are intracellular carbon storage products of nutrient-deprived
microorganisms, seem to be a promising, biobased and biodegradable alternative. Although laboratory and pilot
scale experiments have already been performed, no economic evaluation has been carried out so far.
Consequently, valid claims on PHB production costs and the influence of different parameters, such as intracellular
PHB-content, choice of cultivation system or location, cannot be made. In this study potential demonstration
plants, equipped with different photoautotrophic cultivation systems and located at two sites, were
designed to identify key parameters for a successful economic realization and implementation. Material and
energy balances were determined to reveal specific PHB production costs for four different scenarios. Raw
material and operating supply costs, expenditures for plant construction and operation as well as product
amounts were determined using literature data for specified results from laboratory and pilot scale experiments.
The lowest calculated PHB production price (24 Euro kg−1) accomplished in a thin-layer-system plant located in
Southern Europe with 60% PHB-content of the produced biomass is significantly higher than the current market
price of heterotrophically produced PHB. The most important cost factors in all scenarios are cultivation and
harvesting costs accounting for 62 to 72% of the total specific production costs, followed by maintenance costs
with a cost share of 11 to 14%. Therefore, the choice of a suitable cultivation system is the key driving factor for
an economic PHB-production due to the currently high investment costs for photosynthetic biomass production
systems. Specific production costs for a Southern compared to a Central European location amount to almost half
of the costs.
Original language | English |
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Pages (from-to) | 1-10 |
Number of pages | 10 |
Journal | Algal Research-Biomass Biofuels And Bioproducts |
Volume | 41 |
Issue number | 101558 |
DOIs | |
Publication status | Published - 2019 |
Research Field
- Efficiency in Industrial Processes and Systems