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하수슬러지 소각재 중의 인 회수방법의 사례 연구 = Reviews on the phosphorus recovery from incinerated sewage sludge ash / 윤석표 1

ABSTRACT 1

초록 1

1. 서론 2

2. ISSA의 물리화학적 특성 2

3. 습식방법에 의한 ISSA로부터의 인 회수 3

3.1. 산/알칼리를 이용한 P 추출방법 3

3.2. 생물학적 방법에 의한 ISSA로부터의 인 추출 4

3.3. 추출액으로부터 P 분리 방법 5

3.4. 산 추출액에서의 중금속 제거 5

4. 열화학적 방법에 의한 ISSA로부터의 인 회수 7

4.1. 1000℃ 내외에서의 중금속 제거 후 비료 생산방법 7

4.2. 1200~1500℃에서의 가스상 인 회수 방법 8

5. 회수된 P의 고순도화와 생물이용도 평가 9

5.1. 인산으로의 고순도화 9

5.2. 회수된 인의 생물이용도(bioavailability) 평가 10

6. ISSA로부터 P 회수 후 잔재물 처분 10

7. 결론 11

References 11

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하수슬러지 소각재 중의 인 회수방법의 사례 연구 = Reviews on the phosphorus recovery from incinerated sewage sludge ash 윤석표 p. 5-17

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비순환식 양액재배에서 발생하는 폐양액, 폐배지, 폐작물이 환경에 미치는 영향 = Environmental impact of hydroponic nutrient wastewater, used hydroponic growing media, and crop wastes from acyclic hydroponic farming system 박병록, 조홍목, 김민상 p. 19-27

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우분의 저장온도, 저장기간, 톱밥의 혼합에 따른 메탄잠재량 변화 = Effect of storage temperature, period, and sawdust addition on the biochemical methane potential of cattle manure 임성원, 김상미, 김규형, 김동훈 p. 29-36

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가축분뇨로부터 질소 회수 연구 현황 및 시사점 분석 = Analysis of the current status and implications of nitrogen recovery from livestock manure 임성원, 김상미, 김지민, 김동훈 p. 37-46

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유기성 자원과 혼합유기질비료 혼합물의 특성 및 처리 후 엽채류의 생육 효과 = Physicochemical properties of mixtures with mixed organic fertilizer and various organic sources and their influences on growth of two leaf vegetables 김영선 p. 47-57

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참고문헌 (41건) : 자료제공( 네이버학술정보 )

참고문헌 목록에 대한 테이블로 번호, 참고문헌, 국회도서관 소장유무로 구성되어 있습니다.
번호 참고문헌 국회도서관 소장유무
1 Korea Ministry of Environment, “2018 Sewage statistics”, (2019). 미소장
2 Battsooj, M., Lee, M. and Kim, D. J., “Characteristics of phosphorus leaching from sewage sludge ash by acid and alkali”, Journal of Korean Society of Water and Wastewater, 30(5), pp. 571~577. (2016). 미소장
3 Liu, Q., Lim, S. H. and Yoon, S. P., “A study on the optimal phosphorus recovery conditions from sewage sludge ash by pH control and reuse of extracts”, Journal of the Korea Organic Resources Recycling Association, 28(3), pp. 15~26. (2020). 미소장
4 Lee, D. M., Song, Y. H., Baek, K. M. and Jeong, Y. K., “Precipitation and separation properties of the phosphorus extracted from incinerated sewage sludge ash by sulfuric acid”, J. of Korea Society of Waste Management, 31(2), pp. 211~217. (2014). 미소장
5 Jung, J. M. and Yoon, S. P., “Recovery of calcium phosphate from sewage sludge ash”, Journal of the Korea Organic Resources Recycling Association, 26(1), pp. 29~37. (2018). 미소장
6 Choi, Y. D., Lee, J. Y., Jang, Z. H., Joung, J. G., Han, K. M., Lee, M. Y. and Jung, K., “Development of the phosphorus recovery system (PRS) utilizing ultrasonic wave in incinerated sewage sludge ash (ISSA)”, J. Korea Soc. Waste Manag., 36(2), pp. 161~170. (2019) 미소장
7 Pettersson, A., Andersson, B., Steenari, B., Åmand, L.-E., Leckner, B., “Leaching of phosphorous from ashes of co-combustion of sewage sludge and wood”, 18th International Conference on Fluidized Bed Combustion-FBC2005, Toronto, Ontario, Canada, May 22-25, (2005). 미소장
8 Fang, L., Li, J., Donatello, S., Cheeseman, C. R., Wang, Q., Poon, C. S. and Tsang, D. C. W., “Recovery of phosphorus from incinerated sewage sludge ash by combined two-step extraction and selective precipitation”, Chemical Engineering Journal, 348, pp. 74~83. (2018). 미소장
9 Xu, H., He, P., Gu, W., Wang, G. and Shao, L., “Recovery of phosphorus as struvite from sewage sludge ash”, Journal of Environmental Sciences, 24(8), pp. 1533~1538. (2012). 미소장
10 Shiba, N. C. and Ntuli, F., “Extraction and precipitation of phosphorus from sewage sludge”, Waste Management, 60, pp. 191~200. (2017). 미소장
11 Semerci, N., Kunt, B. and Calli, B., “Phosphorus recovery from sewage sludge ash with bioleaching and electrodialysis”, International Biodeterioration & Biodegradation, 144, Article 104739. (2019). 미소장
12 Petzet, S., Peplinski, B. and Cornel, P., “On wet chemical phosphorus recovery from sewage sludge ash by acidic or alkaline leaching and an optimized combination of both”, Water Research, 46, pp. 3769~3780. (2012). 미소장
13 Ye, Y., Ngo, H. H., Guo, W., Liu, Y., Li, J., Liu, Y., Zhang, X. and Jia, H., “Insight into chemical phosphate recovery from municipal wastewater”, Science of the Total Environment, 576, pp. 159~171. (2017). 미소장
14 Guedes, P., Couto, N., Ottosen, L. M. and Ribeiro, A. B., “Phosphorus recovery from sewage sludge ash through an electrodialytic process”, Waste Management, 34, pp. 886~892. (2014). 미소장
15 Wang, Y., Yu, L., Yuan, H., Ying, D. and Zhu, N., “Improved removal of phosphorus from incinerated sewage sludge ash by thermo-chemical reduction method with CaCl2 application”, Journal of Cleaner Production, 258, Article 120779. (2020). 미소장
16 Meng, X., Liu, X., Huang, Q., Gao, H., Tay, K. and Yan, J., “Recovery of phosphate as struvite from low-temperature combustion sewage sludge ash (LTCA) by cation exchange”, Waste Management, 90, pp. 84~93. (2019). 미소장
17 Meng, X., Huang, Q., Gao, H., Tay, K. and Yan, J., “Improved utilization of phosphorous from sewage sludge (as Fertilizer) after treatment by low-temperature combustion”, Waste Management, 80, pp. 349~358. (2018). 미소장
18 Jeon, S. and Kim, D. J., “Enhanced phosphorus bioavailability and heavy metal removal from sewage sludge ash through thermochemical treatment with chlorine donors”, Journal of Industrial and Engineering Chemistry, 58, pp. 216~221. (2018). 미소장
19 Egle, L., Rechberger, H. and Zessner, M., “Overview and description of technologies for recovering phosphorus from municipal wastewater”, Resources, Conservation and Recycling, 105, pp. 325~346. (2015). 미소장
20 Donatello, S., and Cheeseman, C. R., “Recycling and recovery routes for incinerated sewage sludge ash (ISSA): a review”, Waste Management, 33(11), pp. 2328~2340. (2013). 미소장
21 Schipper, W. J., Klapwijk, A., Potjer, B., Rulkens, W. H., Temmink, B. G., Kiestra, F. D. G. and Lijmbach, A. C. M., “Phosphate recycling in the phosphorus industry”, Phosphorus Research Bulletin, 15, pp. 47~51. (2004). 미소장
22 Franz, M., “Phosphate fertilizer from sewage sludge ash (SSA)”, Waste Management, 28(10), pp. 1809~1818. (2008). 미소장
23 Rural Development Administration of Korea, Setting and designation fertilizer process specifications, Notice No. 2019-38, (2019). 미소장
24 Donatello, S., Tong, D. and Cheeseman, C. R., “Production of technical grade phosphoric acid from incinerator sewage sludge ash (ISSA)”, Waste Management, 30(8-9), pp. 1634~1642. (2010). 미소장
25 Ko, J. H., Xu, Q. and Jang, Y. C., “Emissions and control of hydrogen sulfide at landfills: A review”, Critical Reviews in Environmental Science and Technology, 45(19), pp. 2043~2083. (2015). 미소장
26 Li, J., Chen, Z., Wang, Q., Fang, L., Xue, Q., Cheeseman, C. R., Donatello, S., Liu, L. and Poon, C. S., “Change in re-use value of incinerated sewage sludge ash due to chemical extraction of phosphorus”, Waste Management, 74, pp. 404~412. (2018). 미소장
27 Liu, Q., A Study on phosphorus recovery from sewage sludge ash by pH control and reuse of extracts, Semyung University, Master Degree Thesis, p. 54. (2020). 미소장
28 Havukainen, J, Nguyen, M. T., Hermann, L., Horttanainen, M., Mikkilä, M., Deviatkin, I. and Linnanen, L., “Potential of phosphorus recovery from sewage sludge and manure ash by thermochemical treatment”, Waste Management, 49, pp. 221~229. (2016). 미소장
29 Adam, C., Peplinski, B., Michaelis, M., Kley, G. and Simon, F.-G., “Thermochemical treatment of sewage sludge ashes for phosphorus recovery”, Waste Management, 29, pp. 1122~1128. (2009). 미소장
30 Herzel, H., Krüger, O., Hermann, L. and Adam, C., “Sewage sludge ash - A promising secondary phosphorus source for fertilizer production”, Science of the Total Environment, 542, pp. 1136~1143. (2016). 미소장
31 SUSAN - Sustainable and Safe Re-use of Municipal Sewage Sludge for Nutrient Recovery, Final Activity Report, (2009). 미소장
32 Mattenberger, H., Fraissler, G., Brunner, T., Herk, P., Hermann, L. and Obernberger, I., “Sewage sludge ash to phosphorus fertiliser: Variables influencing heavy metal removal during thermochemical treatment”, Waste Management, 28, pp. 2709~2722. (2008). 미소장
33 Weigand, H., Bertau, M., Hübner, W., Bohndick, F. and Bruckert, A., “RecoPhos: Full-scale fertilizer production from sewage sludge ash”, Waste Management, 33, pp. 540~544. (2013). 미소장
34 Rapf, M. and Raupenstrauch, H., “RecoPhos and other thermo-chemical processes for the recovery of phosphorus from sewage sludge”, DepoTech 2012, Conference Paper, (2012). 미소장
35 Ottosen, L. M., Kirkelund, G. M. and Jensen, P. E., “Extracting phosphorous from incinerated sewage sludge ash rich in iron or aluminum”, Chemosphere, 91, pp. 963~969. (2013). 미소장
36 Li, J.-S., Tsang, D. C. W., Wang, Q.-M., Fang, L., Xue, Q. and Poon, C. S., “Fate of metals before and after chemical extraction of incinerated sewage sludge ash”, Chemosphere, 186, pp. 350~359. (2017). 미소장
37 Ebbers, B., Ottosen, L. M. and Jensen, P. E., “Comparison of two different electrodialytic cells for separation of phosphorus and heavy metals from sewage sludge ash”, Chemosphere, 125, pp. 122~129. (2015). 미소장
38 Wang, Q.-M., Li, J.-S., Tang, P., Fang, L. and Poon, C. S., “Sustainable reclamation of phosphorus from incinerated sewage sludge ash as value-added struvite by chemical extraction, purification and crystallization”, Journal of Cleaner Production, 181, pp. 717~725. (2018). 미소장
39 Prayon processes for phosphoric acid production, Prayon Technologies, https://www.prayon.com/med ia/pdf/publications/prayon-brochure-PRT-2012.pdf 미소장
40 Vogel, C. and Adam, C., “Heavy metal removal from sewage sludge ash by thermochemical treatment with gaseous hydrochloric acid”, Environ. Sci. Technol., 45, pp. 7445~7450. (2011) 미소장
41 KIGAM, Mineral Commodity Information, Mineral Resources Statistics Portal, www.kigam.re.kr/menu. es?mid=a30102020702 (Access date : Feb. 19, 2021). 미소장

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