• 유기물자원화
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• 제19권2호
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• pp.22-27
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• 2011

본 연구에서는 음식물류폐기물폐수와 양돈폐수를 특별히 전처리 하지 않고 3:7의 비율로 혼합하여 연속반응공정을 이용한 수소생산의 최적 인자를 도출하기 위해 연구를 수행하였다. 본 연구결과 수소발생량은 pH 5.5의 조건에서 가장 많이 발생하였으며, 이를 통해 음식물류폐기물과 양돈폐수의 혼합시의 수소생산의 최적 pH는 5.5 임을 확인하였다. HRT에 따른 수소발생량은 3일보다 4일의 경우에 높은 수소발생량을 보였으며, 이는 HRT값의 변화에 따라 수소발생미생물의 활성에 크게 관여하는 것으로 HRT역시 수소발생미생물에 중요한 인자로 작용한다고 판단된다. 유기물의 제거율은 운전 6일째에 최대 TS 52%, VS 71%, TSS 83%, VSS 89%의 제거율을 기록하였으며, 수소생산 공정을 통하여도 유기물의 제거가 가능함을 확인하였다.

• 한국환경과학회지
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• 제5권3호
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• pp.387-398
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• 1996

Granular sludge formation and it's activity change are the most important factors in achieving successful start-up and operation of UASB reactor. Nevertheless, the detailed mechanism is still unknown. On the basic of the experiments in laboratory-scale UASB reactor, the effect of hydrogen partial pressure on sludge granulation was evaluated. Size distribution method and specific metabolic activity of the sludge with the operation time were used as a means for estimating the degree of the sludge granulation. At the constant hydrogen loading, the granulation increased as starvation periods in hydrogen supply increased, resulting in high organic removal efficiency. It was evidient that hydrogen play very important role in granulation and sludge granulation was achieved through mutual symbiosis between hydrogen utilizing bacteria and hydrogen producing bacteria under the hydrogen dificient conditions. Key words : granular sludge, UASB reactor, hydrogen partial pressure.

• 한국수소및신에너지학회논문집
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• 제29권5호
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• pp.427-433
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• 2018

This study was performed to evaluate initial pH and substrate concentration on hydrogen fermentation of protein. The optimum initial pH and substrate concentration of hydrogen fermentation using protein was 8.0 and 1.0 g peptone/L, respectively. The maximum hydrogen yield at initial pH 8.0 and 1.0 g peptone/L was $19.2{\pm}0.8mL\;H_2/g$ peptone. As results of VFAs analysis, percentages of valerate was similar to hydrogen yield. Also, C. stickalandii, which was hydrogen and valerate producing bacteria, was dominated.

• 한국추진공학회:학술대회논문집
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• 한국추진공학회 2009년도 제33회 추계학술대회논문집
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• pp.23-26
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• 2009

수소의 일반적인 특성과 온도 변화에 따른 ortho-수소와 para-수소의 비율에 대하여 살펴보았다. 수소의 독특한 특성인 넓은 연소 영역, 낮은 점화 에너지, 낮은 최대역전온도 및 수소 취성을 소개하였다. 예냉과 팽창 엔진을 사용하는 액체 수소 제조 방법과 촉매를 이용한 ortho-para 변환을 살펴보았으며, 액체로켓 추진제로서의 특성과 고려해야 할 사항들을 검토하였다.

• 한국농공학회논문집
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• 제64권5호
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• pp.1-8
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• 2022

Hydrogen can be produced by gasification of biomass and other combustible fuels. Depending on oxydant agents, syngas or producer gas compositions become quite different. Since biomass has limited amount of hydrogen including moisture in it, the hydrogen concentration in the syngas is about 15% when air is supplied for oxidant agent. Experiments were conducted to investigate the channges in hydrogen concentrations in syngas with different oxidant agent conditions, fuel conditions, and external heat supply. Allothermal reaction resulted in higher concentrations of hydrogen with the supply of steam over air, reaching over 60%. Hydrogen is produced by water-gas and water-gas shift reactions. These reactions are endothermic and require enough heat. Autothermal reaction occurred in the downdraft gasifier used in the experiment did not provide enough heat in the reactions for hydrogen production. Steam seems a more desirable oxidant agent in producing the syngas with higher concentrations of hydrogen from biomass gasifications since nitrogen is included in syngas when air is used.

• 한국미생물·생명공학회지
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• 제17권1호
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• pp.74-80
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• 1989

광합성 세균의 수소생성 향상을 위한 노력의 일환으로 수소생성능이 좋은 Rhodopseudomonas E15-1 을 고정화하여 수소생성에 적당한 조건을 조사하였다. 담체로 4%의 alginate를 사용하였을 때 수소생성량이 많았으며 고정화함에 따라 산소. 질소에 대한 억제효과를 덜 받았다. Alginate 고정화 세포는 그 지름을 2mm 이하로 하는 것이 겔내로의 확산저항이 적으므로 적당했다. 여러가지 유기물을 활용하여 수소를 생성할 수 있었으며 특히 citrate, fumarate와 malate 같은 유기산의 경우 30mM의 농도가 수소생성에 있어서 적당하였다. 또한 고정화세포를 이용한 계속적인 수소생성에 있어서 20일부터 활성이 감소하기는 하나 겔의 구조적 안정성은 30일까지 유지되었다.

• KSBB Journal
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• 제18권2호
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• pp.149-154
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• 2003

수소를 생산하기 위하여 자연계로부터 분리된 균주는 Enterebacter cloacae로 동정되었으며 이 균주를 YJ-1으로 명명하였다. 수소발생량을 기준하여 이 균주의 최적 성장조건을 살펴본 바, 회분식 배양에서 $35^{\circ}C$, pH 7.5로 나타났다. 따라서 탄소원의 농도를 변화시킨 결과, 최대의 수소생산은 2% glucose, 4% sucrose, 5% fructose에서 각각 950 mL/L, 1000 mL/L, 948 mL/L을 얻어졌으며, 초기에 비해 2.5배 높은 생산량을 얻을 수 있었다. 유기산 축척에 따른 pH 저하를 막기 위해 완충제인 phosphate를 첨가한 결과, 50 mM에서 가장 높은 수소를 생산할 수 있었다. 반회분식 배양으로 50%의 새로운 배지를 8 hr 간격으로 치환하여 48시간동안 수행한 결과 1920 mL/L의 수소를 생산할 수 있었다. Yeast extract는 균체성장에 중요한 성분으로서 0.5%에서 최대의 수소를 생산할 수 있었다. 발효 중 생성된 유기산은 대부분 formic acid, acetic acid이고 적은 양의 propionic acid가 생성되었다.

• 한국수소및신에너지학회논문집
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• 제17권1호
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• pp.90-97
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• 2006

Hydrogen is used as a chemical feedstock in several important industrial processes, including oil refineries and petro-chemical production. But, nowadays hydrogen is focused as energy carrier on the rising of problems such as exhaustion of fossil fuel and environmental pollution. Thermochemical hydrogen production by nuclear energy has potential to efficiently produce large quantities of hydrogen without producing greenhouse gases, and research of nuclear hydrogen, therefore, has been worked with goal to demonstrate commercial production in 2020. The oil refineries and petro-chemical plant are very large, centralized producers and users of industrial hydrogen, and high-potential early market for hydrogen produced by nuclear energy. Therefore, it is essential to investigate and analyze for state of domestic hydrogen market focused on industrial users. Hydrogen market of petro-chemical industry as demand site was investigated and worked for demand forecast of hydrogen in 2020. Also we suggested possible supply plans of nuclear hydrogen considered regional characteristics and then it can be provided basis for determination of optimal capacity of nuclear hydrogen plant in 2020.

• 신재생에너지
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• 제20권1호
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• pp.175-181
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• 2024

This study analyzed the hydrogen conversion rate and microbial community in conjunction with changes in carbohydrate concentration during hydrogen fermentation using food waste, and presented comprehensive research results for the condition 80 g Carbo COD/L, which showed the highest efficiency with a carbohydrate removal rate of 98.1% and a hydrogen conversion rate of 1.76 mol H₂/mol. The microbial community analysis found that Clostridium sp., widely known as a hydrogen-producing microorganism, was released in 80 g Carbo COD/L and confirmed that it was a dominant species at 98.1%. Conversely, in 100 g Carbo. Under COD/L conditions, Leuconostoc sp. showed the maximun prevalence, which is believed to hinder hydrogen production.

• 한국수소및신에너지학회논문집
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• 제17권2호
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• pp.218-226
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• 2006

It can be obtained from hydrocarbon and water, specially production of hydrogen from natural gas is most commercial and economical process among the hydrogen production methods, and has been used widely. However, conventional hydrogen production methods are dependent on fossil fuel such as natural gas and coal, and it may be faced with problems such as exhaustion of fossil fuels, production of greenhouse gas and increase of feedstock price. Thermochemical hydrogen production by nuclear energy has potential to efficiently produce large quantities of hydrogen without producing greenhouse gases. However, nuclear hydrogen must be economical comparing with conventional hydrogen production method. Therefore, hydrogen production cost was analyzed and estimated for nuclear hydrogen as well as conventional hydrogen production such as natural gas reforming and coal gasification in various range.