• Title/Summary/Keyword: microbial deodorant

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Experimental Study on Hydrogen Sulfide Abatement in Sewage Odor Using Microbial Deodorants on the Market (시판용 미생물탈취제를 이용한 하수 악취 내 황화수소 저감에 관한 실험적 연구)

  • Park, Sang Jin;Kwon, Soo Youl
    • Journal of Environmental Health Sciences
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    • v.46 no.2
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    • pp.170-183
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    • 2020
  • Objectives: This study was conducted to estimate a technology to reduce hydrogen sulfide (H2S) in sewage odor using microbial deodorant. Methods: After injecting five commercially available microbial deodorants into fresh sewage, the concentration of hydrogen sulfide over time was measured using the headspace method. H2S concentration in odor samples was measured using gas chromatograph/FPD. Calculated odor concentration and calculated odor intensity by H2S concentration remaining after treatment with microbial deodorant were evaluated theoretically. Results: The rate of H2S abatement by microbial deodorant differed depending on the experimental conditions and the type of deodorant, but it was found to range from 63 to 82%. Especially, two deodorants showed high H2S reduction rates of over 80% on average. However, based on the best deodorant, the theoretically calculated odor concentration by H2S after microbial deodorant treatment was 4,400 OUk, and the theoretical odor intensity was also rated at 4 degrees or higher. Conclusions: In conclusion, microbial deodorant is considered to have a relatively high effect on reducing H2S in sewage odor. However, even after treatment with microbial deodorant, calculated odor concentration and calculated odor intensity were relatively high. This is thought to be caused by other odorous substances besides H2S.

오존을 이용한 돈사 내의 탈취 및 살균

  • Go, Myeong-Seok;Yun, Yeong-Mi;Kim, Hyeon-Jong;Jeong, Bong-U;Lee, Hyeon-Cheol
    • 한국생물공학회:학술대회논문집
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    • 2000.04a
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    • pp.438-441
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    • 2000
  • Ozone has the advantages for the strong oxidant agents. Ozone is widely used as a disinfectant and deodorant in water treatment and biosafety cabinets. We attempted deodorization and disinfection in the piggery using ozone treatment. It was found that ozone affects deodorization of ammonia and decrease of microbial organism in the air. Concentration of ammonia decreased 50 percents and microbial organisms in the air were decreased below 10 percents. It will be useful for the application of the ozone to environmental treatment in the piggery.

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Literature review of the Reduction of Hydrogen Sulfide and Ammonia in Livestock Pen: Comparison between Korean and Chinese cases (축사 내 황화수소와 암모니아의 저감방안 고찰: 한중비교)

  • Yan, Ding;Moon, Chan-Seok
    • Journal of Korean Society of Occupational and Environmental Hygiene
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    • v.29 no.4
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    • pp.442-451
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    • 2019
  • Objectives: The aim of this study was to review the reduction methods for ammonia (NH3) and hydrogen sulfide (H2S) exposure in livestock. Methods: By reviewing domestic and international research reports from Korea and China, reducing ammonia and hydrogen sulfide in livestock pens was analyzed in terms of ventilation, deodorant, and feed additives. In addition, exposure limits in Korea and China were examined through a comparison between 'TLV-TWA and STEL under the Industrial Safety and Health Act in Korea' and 'Management Standards for Air of Livestock Pens in China'. Results and Discussion: In order to effectively control hazardous gases and odors in livestock pens, the enhancement of natural ventilation or the addition of ventilation fans at the pollution source are being examined. Deodorants are used as adsorbents or masking deodorants. Additives to feed were zeolite powder, FeSO4·7H2O, enzymes, and microbial preparations. Use of feed additives was low-cost and had significant effects compared to other methods. Zeolite was the most commonly used in feed additive in Chinese cases and proved to be low-cost and effective for reducing harmful gases. Enzyme preparations were shown to stimulate the growth of livestock, but were expensive. Conclusions: This study reviewed and examined domestic and international research papers in Korea and China for reducing ammonia and hydrogen sulfide concentrations in livestock pens. More diverse research and the development of feed additives are needed.