Growth and Hydrogen Production Characteristics of HPB B49

Li Ran Yue; Yong Feng Li; Nan Qi Ren; Yong Ming Hui; Jian Zheng Li

doi:10.4028/www.scientific.net/AMR.156-157.1444

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A 3D FEM Methodology for the Full-Scale Air Hammer Bit, Teeth and Rock Contact Analysis
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Experimental and Theoretical Study on Properties of the Fayalite Mineral in Coal Ash
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A 3D FEM Methodology for Air Hammer Bit Design
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Catalytic Activity of Ba Doped Ta₂O₅ for Methylene Blue Degradation under Visible Light
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Growth and Hydrogen Production Characteristics of HPB B49
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Thermal Effects of a Large Scale Bridge Tower Based on Field Measurement
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Simulation on Temperature Distribution of Composite Bridge Deck Plate
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On Improvements of Rubberized Concrete with Organosulfur Compounds
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Research on the Load Distribution of Throwing Ends in Vertical Shaft Impact Crusher
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 156-157Growth and Hydrogen Production Characteristics of...

Growth and Hydrogen Production Characteristics of HPB B49

Abstract:

Biohydrogen production technology by fermentation uses biomass as raw materials to produce the renewable hydrogen energy. H2-producing bacteria(HPB) plays an important part in Biohydrogen production technology by fermentation。In this paper study on growth and Hydrogen production characteristics of HPB B49.Research has shown:⑴.Glucose concentration 10 g/L was the fittest substrate concentration of HPB B49 growth and hydrogen production;⑵Enzyme system growth of hydrogen-producing bacterium B49 at different growth phases influences hydrogen production;.⑶35 was the fittest temperature for cell growth and hydrogen production;⑷The fittest growth pH for hydrogen producing bacterium B49 was 4.5, while that for cell hydrogen production was 4.0;(5). This bacterium strain could be used as engineering bacterium in the different substrate hydrogen-producing experiments.

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Advanced Materials Research (Volumes 156-157)

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1444-1449

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https://doi.org/10.4028/www.scientific.net/AMR.156-157.1444

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October 2010

Authors:

Li Ran Yue, Yong Feng Li, Nan Qi Ren, Yong Ming Hui, Jian Zheng Li

Keywords:

Growth, HPB B49, Hydrogen Production

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