Effects of pH value and substrate concentration on hydrogen production from the anaerobic fermentation of glucose

Research on anaerobic fermentation biohydrogen production from molasses wastewater in a continuous stirred-tank reactor (CSTR) was conducted. Emphasis was focused on the rapid start-up of ethanol-type fermentation in biological hydrogen production reactor. It was found that an initial biomass of 17.71 g/L, temperature of 35°C±1°C, hydraulic retention time (HRT) of 6 h, the reactor could start-up the ethanol-type fermentation at the range of 2000-4000 mg/L and at pH from 3.23 to 4.39 in 12 days with COD (chemical oxygen demand), respectively. The content of hydrogen was 45.77% in the fermentation biogas and the COD removal was 8%. As the hydrogen production system experienced low pH (3.23-4.0), the ethanol-produce bacterial can resume easier compared with other fermentation bacteria which are difficult to restore. In addition, when the pH value ranged from 4.0 to 4.63, the hydrogen production increased with the content of ethanol in liquid fermentation products increased. However, it was detected that the yield of hydrogen decreased with a high content of ethanol in the pH value ranged from 3.23 to 4.0, which demonstrated pH value played the most important role on hydrogen production within low pH.

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Biohydrogen Production Using Anaerobic Fermentation at Various pH Values

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.512-515.570 ◽

2012 ◽

Vol 512-515 ◽

pp. 570-574

Author(s):

Ying Chen ◽

Kai Liu ◽

Qing Gu ◽

Min Liu

Keyword(s):

Hydrogen Production ◽

Propionic Acid ◽

Acid Production ◽

Production Efficiency ◽

Ph Value ◽

Anaerobic Fermentation ◽

Removal Rate ◽

Clean Energy ◽

Brown Sugar ◽

Ph Values

Hydrogen production with waste water can reduce pollution and produce clean energy at the same time. Hydrogen production is affected by many factors. In this experiment, with automatic fermentor, hydrogen and acid production, as well as organic removal rates from brown sugar wastewater by anaerobic cultures at various pH values, are studied. Results showed that the highest hydrogen production efficiency could be achieved when the pH value was maintained at 6.0. The maximum hydrogen production was 61.1mlH2/(g.VSS.d), and COD removal rate reached up to 33.8%, relatively higher than other pH values. The acid production was significantly improved under the condition of pH=4.5. However, the composition of VFAs was similar at the different pH values. The amount of acetic acid and butyric acid was account for about 90% of the final liquor products, and only a little propionic acid has being detected. The TOC removal rate in the system under different pH conditions are increase with pH value, but all below 10%. As the reaction proceeds, the propionic acid accumulation were also observed, higher pH could decrease the producing rate of it.

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Simultaneous effects of pH and substrate concentration on hydrogen production by acidogenic fermentation

Electronic Journal of Biotechnology ◽

10.2225/vol13-issue1-fulltext-6 ◽

2010 ◽

Vol 13 (1) ◽

Author(s):

Gonzalo Ruiz-Filippi ◽

Genoveva Cubillos ◽

Ramon Arrué ◽

David Jeison ◽

Rolando Chamy ◽

...

Keyword(s):

Hydrogen Production ◽

Substrate Concentration ◽

Acidogenic Fermentation ◽

Effects Of Ph

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Effect of Substrate Concentration on Hydrogen Production from Fermentation of Sugar Wastewater

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.409-410.235 ◽

2013 ◽

Vol 409-410 ◽

pp. 235-241

Author(s):

Zheng Zhou ◽

Kai Liu ◽

Qiu Yang He

Keyword(s):

Hydrogen Production ◽

Production Rate ◽

Substrate Concentration ◽

Anaerobic Fermentation ◽

Sewage Treatment Plant ◽

Treatment Plant ◽

Gas Production ◽

Production Performance ◽

Volatile Acid ◽

Hydrogen Production Rate

The biological hydrogen production by the sugar wastewater is an effective way to achieve the reclamation. In this paper, the effect of substrate concentration on the hydrogen production is discussed through employing the self-made continuous flow anaerobic fermentation hydrogen production reactor, taking the sludge in urban sewage treatment plant as the inoculated sludge and the simulated sugar wastewater as the substrate. The experimental results show that the best hydrogen production effect can be obtained when the temperature is (37±1) °C, HRT is 7h, the water alkalinity is around 530mg/L and the substrate concentration is 5000mg/L, namely the organic load is 60kgCOD/(m3·d). The volumes of gas production and hydrogen production both reach the maximum. The average values are respectively 36.2L/d and 21.8L/d. The obtained hydrogen production rate is 0.93kgCOD/(m3·d). During the whole process, the proportion of volatile acid composition remains stable, which is the butyric acid-type fermentation. When the concentration of COD is increased to 6000-8000mg/L, the ability of hydrogen production of system will be significantly dropped due to the increase of pH of system. The hydrogen production performance can be restored through artificially and timely lowering the water alkalinity. However, the hydrogen production rate will be decreased compared to the previous situation.

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Kinetic Study on the Effect of Substrate and Micronutrient Inhibition during Anaerobic Fermentation of Biohydrogen

International Journal of Current Science Research and Review ◽

10.47191/ijcsrr/v5-i1-03 ◽

2022 ◽

Vol 05 (01) ◽

Author(s):

Nurul Sakinah Engliman ◽

Keyword(s):

Hydrogen Production ◽

Kinetic Study ◽

Substrate Concentration ◽

Iron Nanoparticles ◽

Anaerobic Fermentation ◽

Substrate Inhibition ◽

Economic Feasibility ◽

Inhibition Effect ◽

Production Of Hydrogen ◽

Substrate Ph

There are several factors that influence the production of biohydrogen by dark fermentation including inoculum seeds, type and concentration of substrate, pH, temperature, presence of micronutrient and reactor configuration. Previous research has proven that the concentration of substrate and the presence of micronutrient will influence the yield and productivity of biohydrogen production. However, improvement of yield and productivity of the process can only be achieved once the system is under the optimum amount of substrate and micronutrient. Therefore, the best way to determine the effect of substrate concentration and presence of micronutrient is through kinetic study that was done using Monod model along with Andrews model. Besides that, the substrate inhibition effect also will be evaluated to determine the maximum substrate that needs to be supplied for maximum hydrogen production, and thus supplied the information for economic feasibility for fermentation process. In the meantime, the inhibition effect of adding the iron nanoparticles also had been evaluated in order to understand the interaction effect between iron nanoparticles and bacteria in term of catabolism reaction. It was found that increasing the substrate concentration more than 10 g/l will cause the inhibition to the system, in which it will slow down the reaction process and reduced the production of hydrogen. While the presence of iron NPs more than its optimum value (200 mg/l) will inhibit the bacterial growth and hence, affect the hydrogen production. For both cases, when the inhibition occurred at the respective concentration, it was found that the metabolic pathway was shifted to produce more hydrogen-consuming metabolite such as propionate acid, and thus, dropped the hydrogen production.

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DIP quality influenced by process water quality

TAPPI Journal ◽

10.32964/tj13.9.51 ◽

2014 ◽

Vol 13 (9) ◽

pp. 51-60

Author(s):

DENNIS VOSS ◽

HANS-JOACHIM PUTZ ◽

SAMUEL SCHABEL

Keyword(s):

Water Quality ◽

Surface Tension ◽

Ph Value ◽

Water Hardness ◽

Process Water ◽

Test Results ◽

Negative Effects ◽

Water Parameters ◽

Effects Of Ph ◽

Contamination Levels

The need for deinking mills to reduce their fresh water consumption has resulted in higher loads of various contaminants in the process water. Lower recovered paper quality also leads to higher contamination levels in the mills. This higher load has an influence on achievable target brightness. The objective of the work was to determine and explain the main reasons for relatively poor deinked pulp quality or poor deinking potential based on the influence of recovered paper composition and process water quality. The process water parameters significantly affect the deinking potential of recovered paper. The test results showed the negative effects of increased water hardness. For standard recovered paper mixtures, flotation selectivity is higher with increasing flotation pH-value. Good results were realized for standard recovered paper with low hardness, low surface tension, and high pH-value. The results for recovered paper containing flexo newsprint could be slightly improved with low hardness, low surface tension, and low pH-value. The results of the test program using design of experiments showed interacting effects of pH-value and surface tension on luminosity and flotation selectivity.

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