Process Design and Refinement for Bioproduction of Sustainable Butanol
Description
This document outlines the research work done by Shona Becwar in the process design and refinement for the production of sustainable butanol from Clostridium, along with the required background knowledge on the subject. The process that the microbiological organisms go through to produce butanol must be an oxygen free environment for up to 21 days with multiple perforations made into the environment in this period. There was not previously a cost effective method to do this, even in small scale. It was determined that using a butyl rubber septa would allow for the environment to be sustained during the growth process. The pervaporation process was losing butanol product at a rate of approximately 60%, changing the tubing from silicon to stainless steel allowed for a mere 7% loss during the separation process, greatly increasing the prospective of upscaling this process. These improvements to the sustainable butanol production process will allow for a more efficient, therefore more economically competitive product which can be used as a drop in equivalent to the current butanol market.
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2016-05
Agent
- Author (aut): Becwar, Shona Marie
- Thesis director: Nielsen, David R.
- Committee member: Staggs, Kyle
- Contributor (ctb): Chemical Engineering Program
- Contributor (ctb): Barrett, The Honors College