2023/7/26/ · Extractive fermentation is a potential process intensification integrated with aqueous two-phase extraction for simultaneous in-situ product recovery during
2023/10/15/ · The specific energy density of the symmetric capacitors based on carbon materials produced by second alcoholic fermentation reached an extremely high value of 117 Wh kg −1 (vs. 900 W kg −1) with the EMIMBF 4 ionic liquid electrolyte. Moreover, two-button supercapacitors with such carbon electrode could light a high-power LED (3 W,
2012/3/1/ · To overcome this limitation, efforts have been made to improve energy conversion efficiency by integrating with other technologies before and after dark fermentation (Zhang et al., 2020).
At different rates of agitation and aeration as well as headspace pressure, we can predict the energy efficiency of oxygen transfer, a key process parameter for economical production of industrial enzymes. An inverse relationship between the productivity and energy efficiency of the process was found. This modeling approach can be used by
2024/6/1/ · Finally, it is converted to ethanol by considering 100% glucose sugar with 100% efficiency of the fermentation process via fermenting microbes. Milling processes are energy-intensive, requiring 4.0–12.5 MJ/kg, while steam explosion treatment is more energy-efficient at 0.2–0.6 MJ/kg [104]. Thus, it is essential to adjust the process to ...
2018/6/15/ · The energy conversion efficiency significantly enhanced from 10.14% (dark fermentation) to 24.06% (coupled system). In continuous operation, energy production was steady and efficient, and the average hydrogen production rate of 741.4 mL L −1 d −1 and average lipid concentration of 0.4 g L −1 were obtained. This study
2017/5/1/ · The energy consumption in the coupled process with mechanical vapor compression was illustrated in Fig. 3. It could be seen that compared with the coupled process with cold temperature condensation, the coupled process Senqing Fan et al. / Energy Procedia 105 ( 2017 ) 933 – 938 937 with mechanical vapor compression was
2024/1/4/ · Besides improving energy efficiency of the overall recovery process, implementation of heat pumps is a significant step towards (green) electrification of the chemical industry and reduction of greenhouse gas emissions. Process systems engineering perspectives on eco-efficient downstream processing of volatile
DOI: 10.1016/j.biortech.2017.09.037 Corpus ID: 31548761; Potential use and the energy conversion efficiency analysis of fermentation effluents from photo and dark fermentative bio-hydrogen production.
2020/2/1/ · Saccharomyces cerevisiae is a robust microbial platform widely used in biofuel production, based on its amenability to systems and synthetic biology tools. The critical challenges for the efficient microbial conversion of lignocellulosic biomass by engineered S. cerevisiae include heterologous expression of cellulolytic enzymes, co
In biochemistry, fermentation is narrowly defined as the extraction of energy from carbohydrates in the absence of oxygen, while in food production, it may more broadly
2023/12/1/ · Beyond the utilization of SCP from trace gas fermentation as a more sustainable protein source in microfoods, projections for 2050 propose that 10-19% of the protein demand in livestock feed can be substituted by microbial protein ( Pikaar et al., 2018 ), i.e. " microfeed ".
Energy efficient fermenter: Fully jacketed (tank floor heat jacket available) Encapsulated 2” thick chloride-free insulation with fully welded 12 ga polished skin Dimpled cooling/heating jackets Gusseted 12” temperature well, Sample port, Racking port Sump style drain Sloping bottom Pomace door Options: Stainless legs with adjustable foot pads or anchor pads for
2018/5/29/ · This work demonstrated that plasma agitation has the capacity to rapidly induce desirable metabolic changes in S. cerevisiae after a single brief treatment, leading