91 research outputs found
Examining the effects of Lighting Effects on Peripheral Devices for Visual User Notifications
The ubiquitous and pervasive use of lighting effects embedded into peripheral hardware has gained popularity through it’s use in Triple-A video game titles such as Call of Duty and the availability of software development kits (SDK) from leading manufacturers. A preliminary NASA TLX experiment was performed to examine the effect that notifications displayed on a peripheral device has, in comparison to traditional dialog notifications. This research will prove useful to create notification design guidance for these devices
A Novel Biochemical Route for Fuels and Chemicals Production from Cellulosic Biomass
The conventional biochemical platform featuring enzymatic hydrolysis involves five key steps: pretreatment, cellulase production, enzymatic hydrolysis, fermentation, and product recovery. Sugars are produced as reactive intermediates for subsequent fermentation to fuels and chemicals. Herein, an alternative biochemical route is proposed. Pretreatment, enzymatic hydrolysis and cellulase production is consolidated into one single step, referred to as consolidated aerobic processing, and sugar aldonates are produced as the reactive intermediates for biofuels production by fermentation. In this study, we demonstrate the viability of consolidation of the enzymatic hydrolysis and cellulase production steps in the new route using Neurospora crassa as the model microorganism and the conversion of cellulose to ethanol as the model system. We intended to prove the two hypotheses: 1) cellulose can be directed to produce cellobionate by reducing β-glucosidase production and by enhancing cellobiose dehydrogenase production; and 2) both of the two hydrolysis products of cellobionate—glucose and gluconate—can be used as carbon sources for ethanol and other chemical production. Our results showed that knocking out multiple copies of β-glucosidase genes led to cellobionate production from cellulose, without jeopardizing the cellulose hydrolysis rate. Simulating cellobiose dehydrogenase over-expression by addition of exogenous cellobiose dehydrogenase led to more cellobionate production. Both of the two hydrolysis products of cellobionate: glucose and gluconate can be used by Escherichia coli KO 11 for efficient ethanol production. They were utilized simultaneously in glucose and gluconate co-fermentation. Gluconate was used even faster than glucose. The results support the viability of the two hypotheses that lay the foundation for the proposed new route
Biological and Non-Biological Methods for Lignocellulosic Biomass Deconstruction
Owing to their abundance and cost-effectiveness, lignocellulosic materials have
attracted increasing attention in clean energy technologies over the last decade.
However, the complex polymer structure in these residues makes it difficult to extract
the fermentable sugars. Therefore, various pretreatment regimes have been used
resulting in the breaking of lignocelluloses’ physical and chemical structures, thereby
enhancing the availability of the polysaccharides which are subsequently hydrolysed
into different biocommodities. This chapter provides an evaluation of some of the latest
exploited methodologies that are used in the pretreatment of lignocellulosic materials.
Moreover, the chapter discusses the advantages and disadvantages of each method
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