• 상하수도학회지
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• 제28권1호
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• pp.55-60
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• 2014

Food waste leachate (FWL) is a serious pollutant waste coming from the food waste recycling facilities in Korea. FWL has a high organic matter content and high COD to nitrogen (COD/N) ratio, which can disturb efficient methane production in the anaerobic digestion of FWL. In the present study a microalga, Clorella vulgaris (C.V), was used as co-substrate for the FWL anaerobic digestion in order to supply nutrients, decrease the COD/N ratio and increase its methane yield. Different co-digestion mixtures (COD/N ratios) were studied by using biochemical methane potential test and modified Gompertz equation for kinetic study. Mixed substrate of FWL and C. vulgaris in the co-digestion clearly showed more the biomethane yield than the sole substrates. The maximum methane production, 827.7 mL-$CH_4$/g-VS added, was obtained for COD/N ratio of 24/1, whereas the highest improvement of methane yield was found for COD/N ratio of 15/1.

• 한국환경농학회지
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• 제41권2호
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• pp.71-81
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• 2022

BACKGROUND: Animal manures are one of the biggest sources of greenhouse gases and improper manage-ment of animal wastes contributes to the increasing greenhouse gases in the atmosphere. Con-verting greenhouse gases generated from animal manures to energy is one way of contributing to the net-zero carbon emissions. METHODS AND RESULTS: The potential for methane production from cow manure (CM) was studied by measuring the methane yield using the biochemical methane potential (BMP) test. In particular, the effect of co-digestion using rice straw (RM) on the methane production was studied. The methane yields from the co-digestion of CM and RS were statistically similar to that from the mono-digestion of CM or RS. But there was a synergy effect at the CM:RS ratio of 1:2 and 1:1. This can be attributed to the increased C/N ratio. The changed microbial community structure with the addition of substrates (CM, RS) probably led to the increase in the methane produc-tion. CONCLUSION(S): The methane production potential of the particular CM used in this study was not improved by the addition of RS as a co-substrate. The addition of substrates to the anaerobic sludge promoted the increase in the microbial species having synergetic relationship with methano-gens, and this can partially explain the increase in the methane production with the addition of substrates. Overall, there are needs for further studies to improve the methane yield from CM.

• 한국신재생에너지학회:학술대회논문집
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• 한국신재생에너지학회 2008년도 추계학술대회 논문집
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• pp.79-82
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• 2008

Anaerobic biodegradability(AB), which can be determined with the ultimate methane yield by the decomposition of organic materials, is one of the important parameters for the design and the operation of anaerobic digestion plant. In this study, Biochemical Methane Potential(BMP) test has been carried out to evaluate the methane yield of animal manures, such as pig and cattle slurries, and different forage crops cultivated at the reclaimed tideland, such as maize, sorghum, barley, rye, Italian ryegrass(IRG), rape, rush and sludge produced from slaughterhouse wastewater treatment plant(SWTP). In the ultimate methane yield of animal manure, that of pig slurry(no used a EM) was 407 $mlCH_4/gVS_{fed}$ higher than 242 $mlCH_4/gVS_{fed}$ of cattle slurry. The ultimate methane yield of spike-crop rye was 442.36 $mlCH_4/gVS_{fed}$ the highest among different forage crops, the other showed the value above a methane yield of 300 $mlCH_4/gVS_{fed}$. The forage crop could be used as a good substrate to improve the methane production in anaerobic co-digestion together with animal manure.

• 유기물자원화
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• 제22권3호
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• pp.11-22
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• 2014

음식물 쓰레기는 산완충능(buffer capacity)이 충분하지 않아 포집과 운송기간 동안 유기산이 축적될 수 있고 몰리브덴이나 코발트와 같은 미량원소가 부족할 수 있기 때문에 가축분뇨는 음식물 쓰레기와 혼합소화 시 부족한 메탄생성량을 보충할 수 있는 혼합기질로서 적합한 것으로 판단된다. 본 논문에서는 성공적인 혐기공정 설계 및 안정적 운영을 위한 우리 나라 유래 대상기질의 실제성상 특징과 메탄가스 발생사이의 상관성을 알아보고자 하였다. 서울시의 8개 기초자치단체(강남, 강동, 송파, 영등포, 관악, 구로, 동작, 용산)의 음식물 쓰레기 중간 집하장이나 처리시설에서 음식물 쓰레기를 채취하였다. 음식물 쓰레기의 고형물 함량은 평균 16%를 보였고 잠재 메탄발생량은 평균 $446.6STP-m{\ell}/g-VS$로서 $334.8{\sim}567.5STP-m{\ell}/g-VS$의 범위를 가진다. 우분의 고형물 함량과 잠재메탄 발생량은 각각 평균 26%과 $280.6STP-m{\ell}/g-VS$로 타나났다. 잠재 메탄발생량은 고위발열량, 지방 함량, 탄소함량, 수소함량과 양의 상관관계를 가지고 탄수화물 함량과 음의 상관관계를 가지는 것으로 나타났다($r^2>0.8$). 따라서 이러한 기질특성 분석결과를 통해 잠재 메탄발생량을 비교적 정확하게 예측하였다. 본 연구에서는 단일 기질과 잠재 메탄발생량을 분석하였으나 향후는 최대 메탄발생량을 위하여 혼합기질 (음식물쓰레기, 가축분뇨, 수분조절제 등)의 최적조합을 결정하는 연구가 수행하여야 할 것으로 여겨진다.

• Animal Bioscience
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• 제36권5호
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• pp.818-828
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• 2023

Objective: The purpose of this study was to analyze the effect of the hydrothermal pretreatment of anaerobic digestion sludge cake (ADSC) of cattle manure on the solubilization of organic matter and the methane yield to improve the anaerobic digestion efficiency of cattle manure collected from the sawdust pens of cattle. Methods: Anaerobic digestion sludge cake of cattle manure was thermally pretreated at 160℃, 180℃, 200℃, and 220℃ by a hydrothermal pressure reactor, and the biochemical methane potential of ADSC hydrolysate was analyzed. Methane yield recovered by the hydrothermal pretreatment of ADCS was estimated based on mass balance. Results: The chemical oxygen demand solubilization degree (COD_s) of the hydrothermal hydrolysate increased to 63.56%, 67.13%, 70.07%, and 66.14% at the hydrothermal reaction temperatures of 160℃, 180℃, 200℃, and 220℃, respectively. Considering the volatile solids content obtained after the hydrothermal pretreatment, the methane of 10.2 Nm³/ton-ADSC was recovered from ADSC of 1.0 ton, and methane yields of ADSC hydrolysate increased to 15.6, 18.0, 17.4, and 17.2 Nm³/ton-ADSC. Conclusion: Therefore, the optimal hydrothermal reaction temperature that yielded the maximum methane yield was 180℃ based on mass balance, and the methane yield from cattle manure containing sawdust was improved by the hydrothermal pretreatment of ADSC.

• 한국환경농학회지
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• 제27권2호
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• pp.145-149
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• 2008

Anaerobic co-digestion of swine manure and food waste for biogas production was performed in serum bottles at various volatile solids(VS) contents and mixing ratios of two substrates(swine manure:food waste=$100:0{\sim}0:100$). Through kinetic mode of surface methodology, the methane production was fitted to a Gompertz equation. The ultimate methane production potential of swine manure alone was lower than that of food waste regardless of VS contents. However, it was appeared that maximum methane production potentials in 80 : 20 of the mixing rate at VS 3% was enhanced at 144.7%, compared to its only swine manure. The potential increased up to 815.71 ml/g VS fed as VS concentration and food composition increased up to 3.0% and 20%, respectively. The ultimate amount of methane produced had significantly a positive relationship with that of methane yield rate. Overall, it would be strongly recommended that feeding stocks use 20% of mixing ratio of food waste based on VS 3% contents when operating the anaerobic reactor on site at $35^{\circ}C$ if not have treatment of its anaerobic waste water.

• Korean Chemical Engineering Research
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• 제60권3호
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• pp.392-397
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• 2022

Methane is one of the major greenhouse gases, recently, the biotechnological conversion from methane to high-value added chemicals have emerged as an effort to reduce methane gas emission. In this study, we optimized ectoine bio-milking conditions in which cells were repeatedly used to improve intracellular and extracellular ectoine yield from methane by using Methylomicrobium alcaliphilum 20ZDP2. First, the cultivation and intracellular ectoine accumulation conditions were optimized with respect to the growth phase and medium salinity to achieve the highest yield of synthesis. Second, ectoine excretion was optimized by determining the ectoine secretion time (15 min) in appropriate medium salinity under hypoosmotic conditions (1% NaCl). Finally, bio-milking of ectoine was successfully repeated more than 10 times using M. alcaliphilum 20ZDP2, and the ectoine yield was improved up to 129.29 mg/ DCW g.

• Journal of Biosystems Engineering
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• 제37권4호
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• pp.233-244
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• 2012

Purpose: The kinetic evaluation was performed for swine manure (SM) degradation and biogas generation. Methods: The SM was anaerobically digested using batch digesters at feed to inoculum ratio (F/I) of 1.0 under mesophilic conditions ($36.5^{\circ}C$). The specific gas yield was expressed in terms of gram total chemical oxygen demand (mL/g TCOD added) and gram volatile solids added (mL/g VS added) and their effectiveness was discussed. The biogas and methane production were predicted using first order kinetic model and the modified Gompertz model. The critical hydraulic retention time for biomass washout was determined using Chen and Hashimoto model. Results: The biogas and methane yield from SM was 346 and 274 mL/ TCOD added, respectively after 100 days of digestion. The average methane content in the biogas produced from SM was 79% and $H_2S$ concentration was in the range of 3000-4108 ppm. It took around 32-47 days for 80-90% of biogas recovery and the TCOD removal from SM was calculated to be 85%. When the specific biogas and methane yield from SM (with very high TVFA concentration) was expressed in terms of oven dried volatile solids (VS) basis, the gas yield was found to be over estimated. The difference in the measured and predicted gas yield was in the range of 1.2-1.5% when using first order kinetic model and 0.1% when using modified Gompertz model. The effective time for biogas production ($T_{Ef}$) from SM was calculated to be in the range of 30-45 days and the critical hydraulic retention time ($HRT_{Critical}$) for biomass wash out was found to be 9.5 days. Conclusions: The modified Gompertz model could be better in predicting biogas and methane production from SM. The HRT greater than 10 days is recommended for continuous digesters using SM as feedstock.

• 유기물자원화
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• 제15권3호
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• pp.113-120
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• 2007

최종 메탄수율, 동력학적 상수 및 최대 메탄발생 속도 등 돈분의 메탄생성 특성을 평가하기 위하여 혐기성 회분식 실험을 수행하였다. 돈분의 혐기성 분해 동력학적 거동 평가시 1차 반응으로 기정하였으며 최종 메탄수율, 동력학적 상수 및 최대 메탄발생 속도는 각각 0.27~0.44L $CH_4/gVS$, $0.161{\sim}0.280d^{-1}$ 및 0.043~0.120L $CH_4/d$로 나타났다. 돈분 자체를 식종물질로 사용하는 경우 장기간의 초기 순응기간이 소요되었으나 최종 메탄수율에는 차이가 없는 것으로 나타났다. 돈분의 혐기성 처리는 효과적이나 고형물의 함량이 높은 경우 이상 혐기성 소화가 단상 혐기성 소화에 비해 효과적인 것으로 판단된다.

• 대한환경공학회지
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• 제38권4호
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• pp.201-209
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• 2016

Glucose ($C_6H_{12}O_6$)의 이론적인 최대 메탄수율은 표준상태(1 atm, $0^{\circ}C$)를 기준으로 0.35 L $CH_4/g$ COD이지만, 전통적인 혐기성소화조에서 유기물이 메탄으로 전환되는 양은 연구의 방법이나 유기물의 종류에 따라 매우 다양하게 보고되고 있으며, 대부분의 연구실 규모 실험에서 안정화 후 메탄 수율은 0.35 L $CH_4/g$ COD 이하로 나타난다. 최근, 미생물 전기화학 기술(Microbial Electrochemical Technology, MET)은 지속가능한 신재생에너지 생산 기술로서 큰 주목을 받고 있으며, MET를 혐기성소화조에 적용할 경우 고농도의 유기성폐기물의 빠른 분해가 가능할 뿐만 아니라 전기화학적인 반응에 의해 휘발성지방산(VFAs)이나 독성물질, 생분해 불가능한 물질까지도 분해가 가능하며, 소화조 내 미생물의 활성을 높이고 바이오가스의 생산량을 극대화 할 수 있다고 알려져 있다. 본 연구에서는 MET가 혐기성소화의 메탄발생에 미치는 영향에 대하여 연구하기 위해 음식물 탈리액과 하수슬러지의 원소조성에 따른 이론적인 최대 메탄수율을 분석하였으며, BMP (Biochemical Methane Potential) 실험과 연속식 실험을 통한 메탄수율의 특성을 평가하였다. 그 결과, MET가 적용된 혐기성소화에서의 메탄수율은 일반적인 혐기성소화조에 비하여 기질에 따라 2-3배 정도 높았으며, 이론적인 최대 메탄수율에 미치지는 못하였으나 일부는 거의 근접한 결과가 도출되었다. 또한, 일반적인 혐기성소화조와 MET가 적용된 혐기성소화조의 안정화 후 바이오가스의 조성은 거의 유사하게 나타났다. 결과적으로, MET가 혐기성소화조의 유기물 제거효율을 향상시켜 메탄발생량을 증가시킨 것으로 나타났으며, 향후 추가적인 연구를 통하여 MET에서 메탄발생 메카니즘이 명확히 규명되어야 할 것이다.