Abstract
Butanol, produced via traditional acetone-butanol-ethanol (ABE) fermentation, suffers from low yield and productivity. In this article, a non-ABE butanol production process is reviewed. Clostridium pasteurianum has a non-biphasic metabolism, alternatively producing 1,3-propanediol (PDO)-butanol-ethanol, referred to as PBE fermentation. This review discusses the advantages of PBE fermentation with an emphasis on applications using biodiesel-derived crude glycerol, currently an inexpensive and readily available feedstock. To address the process design challenges, various strategies have been employed and are examined and reviewed; genetic engineering and mutagenesis of C. pasteurianum, characterization and pretreatment of crude glycerol and various fermentation strategies such as bioreactor design and configuration, increasing cell density and in-situ product removal. Where research deficiencies exist for PBE fermentation, the process solutions as employed for ABE fermentation are reviewed and their suitability for PBE is discussed. Each of the obstacles against high butanol production has multiple solutions, which are reviewed with the end-goal of an integrated process for continuous high level butanol production and recovery using C. pasteurianum and biodiesel-derived crude glycerol.
Highlights
Continuous mass consumption of fossil fuels has led to high levels of greenhouse gas emissions (GHG), with little doubt in the scientific community on its dramatic impact on the world’s climate [1,2].biofuels are considered an attractive option to break dependence on petroleum-based fuels, as mobility is a major part of the world’s energy system
This review aims to present recently published data on Clostridium pasteurianum as an alternative microbe for biobutanol production from crude glycerol and relevant challenges for industrial fermentative conversion
This resulted in 89.1 g L1 of crude glycerol consumption and 24.6 g L1 of butanol production with more than 50% of the butanol extracted into the biodiesel phase
Summary
Tahereh Sarchami 1 , Garret Munch 1 , Erin Johnson 1 , Sascha Kießlich 1,2 and Lars Rehmann 1,3, *.
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