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기사명 저자명 페이지 원문 목차
정수처리 과정에서의 미량오염물질의 거동 및 제거 특성 조경덕, 남승우 pp.391-407

곶자왈 지역의 의약물질과 농약의 오염수준과 생태독성영향 최경호, 강하병, 고수림, 최윤송, 이상우, 고영림, 오달영 pp.426-437

농산물 생산 환경에서 분리된 Staphylococcus aureus의 항생제 내성 및 독소 유전자 확인 심원보, 박수희, 김정숙, 김경열, 정덕화 pp.465-473

적환장에서 발생하는 악취 분포 특성에 관한 연구 최한영, 전재식, 김은숙, 유승성, 오석률 pp.418-425

Living Building Challenge의 하수처리시스템에 대한 미생물 연료전지의 응용 한선기, 이채영, Hong Liu pp.474-481

가정 내 부유 진균의 농도와 관련 요인 최재욱, 조용민, 류승훈, 최민석, 서성철, 정지태 pp.438-446

DEHP, DEP and DBP Exposure Analysis using Urinary Metabolites of Gyonggi Province University Students 김판기, 이장우, 고영림, 김성균, 최경호, 황성희, 정지연 pp.408-417

일부 어린이집의 실내공기 중 메치실린내성 포도알균의 오염 실태 및 특성 김영진, 김종오 pp.447-455

주거용 아파트 엘리베이터의 미생물 오염도와 영향요인 조사 정덕화, 심원보, 서주희, 이채원, 정명진, 김정숙, 김형갑 pp.456-464

참고문헌 (70건) : 자료제공( 네이버학술정보 )

참고문헌 목록에 대한 테이블로 번호, 참고문헌, 국회도서관 소장유무로 구성되어 있습니다.
번호 참고문헌 국회도서관 소장유무
1 Stackelberg PE, Gibs J, Furlong ET, Meyer MT, Zaugg SD, Lippincott RL. Efficiency of conventional drinking-water-treatment processes in removal of pharmaceuticals and other organic compounds. Sci Total Environ. 2007; 377(2-3): 255-272. 미소장
2 Halling-SØrensen B, Nors Nielsen S, Lanzky P, Ingerslev F, Holten LtzhØft H, JØrgensen S, Occurrence, fate and effects of pharmaceutical substances in the environment-a review. Chemosphere. 1998; 36(2): 357-393. 미소장
3 Removal of Pharmaceuticals in Drinking Water Treatment: Effect of Chemical Coagulation 네이버 미소장
4 Ratola N, Cincinelli A, Alves A, Katsoyiannis A. Occurrence of organic microcontaminants in the wastewater treatment process. A mini review. J. Hard Mater. 2012; 239-240: 1-18. 미소장
5 Stackelberg PE, Furlong ET, Meyer MT, Zaugg SD, Henderson AK, Reissman DB. Persistence of pharmaceutical compounds and other organic wastewater contaminants in a conventional drinking-watertreatment plant. Sci Total Environ. 2004; 329(1-3): 99-113. 미소장
6 Aquatic toxicity of acetaminophen, carbamazepine, cimetidine, diltiazem and six major sulfonamides, and their potential ecological risks in Korea 네이버 미소장
7 Kumar A, Chang B, Xagoraraki I. Human health risk assessment of pharmaceuticals in water: issues and challenges ahead. Int. J Environ Res Publ Health. 2010; 7(11): 3929-3953. 미소장
8 Korea Pharmaceutical Manufacturers Association. Statistics of Korea Pharmaceutical Manufacturers Association. 2010. p.5-6. 미소장
9 Kumar A, Xagoraraki I. Pharmaceuticals, personal care products and endocrine-disrupting chemicals in U.S. surface and finished drinking waters: A proposed ranking system. Sci Total Environ. 2010; 408(23): 5972-5989. 미소장
10 Occurrence and removal of pharmaceuticals and endocrine disruptors in South Korean surface, drinking, and waste waters 네이버 미소장
11 Occurrence and removal of pharmaceuticals and hormones through drinking water treatment 네이버 미소장
12 Fate of endocrine-disruptor, pharmaceutical, and personal care product chemicals during simulated drinking water treatment processes. 네이버 미소장
13 Removal of Antibiotics from Surface and Distilled Water in Conventional Water Treatment Processes 네이버 미소장
14 European environment agency. Environmental terminology and discovery service (ETDS). Available: http: // glossary.eea. europa.eu./termiology/concept_ html?term=micropollutant. [accessed 9 July 2013]. 미소장
15 Network of reference laboratories for monitoring of emerging environmental pollutions in Europe. Why do we need to address emerging substances ? Available: http://www.norman-network.net/index_php.php? module=public/about_us/comment_substances&menu2 =public/about_us/about_us. [accessed 9 August 2013]. 미소장
16 United states environmental protection agency. Water: contaminants of emerging concern. Available: http://water.epa.gov/scitech/cec. [accessed 9 August 2013]. 미소장
17 International environment forum. IEF sustapedia an encyclopedia of sustainability. Available: http:// www.bcca.org/ief/sustapedia/spmicropollutant.htm. [accessed 9 August 2013]. 미소장
18 Thomas PM, Foster GD. Tracking acidic pharmaceuticals, caffeine, and triclosan through the wastewater treatment process. Environ Toxicol. 2005; 24(1): 25-30. 미소장
19 Sources, fate and transport of perfluorocarboxylates. 네이버 미소장
20 Birkett JW, Lester JN. Endocrine disrupters in wastewater and sludge treatment processes. CRC Press: 2003. p. 5-7. 미소장
21 From municipal sewage to drinking water: fate and removal of pharmaceutical residues in the aquatic environment in urban areas. 네이버 미소장
22 Pharmaceuticals and endocrine disrupting compounds in U.S. drinking water. 네이버 미소장
23 Assmuth T, Louekari K. Research for management of environmental risks from endocrine disruptors, 448. The Finnish Environment: environmental protection; 2001. p.82-84. 미소장
24 Hazardous substances data bank. Comprehensive, peer-reviewed toxicology data for about 5,000 chemicals. Available: http://toxnet.nlm.nih.gov/cgibin/ sis/htmlgen?HSDB. [accessed 31 July 2013]. 미소장
25 World Health Organization. IARC Monographs on the evaluation of carcinogenic risks to humans. Vol. 79, spplement 7. 1987. p.365-370. 미소장
26 Comparison between sequential and simultaneous application of activated carbon with membrane bioreactor for trace organic contaminant removal 네이버 미소장
27 Sources, behaviour and fate of organic contaminants during sewage treatment and in sewage sludges. 네이버 미소장
28 Richardson ML, Bowron JM. The fate of pharmaceutical chemicals in the aquatic environment. J Pharm Pharmacol. 1985; 37(1): 1-12. 미소장
29 Persistent organic pollutants in river water and ground water of the Netherlands 네이버 미소장
30 Biodegradation of 3,4,4′-trichlorocarbanilide, TCC ®, in sewage and activated sludge 네이버 미소장
31 Occurrence and Distribution of Organic Contaminants in the Aquatic System in Berlin. Part I: Drug Residues and other Polar Contaminants in Berlin Surface and Groundwater 네이버 미소장
32 McLachlan J, Guillette L, Iguchi Jr T, Toscano J. Fate and analysis of pharmaceutical residues in the aquatic environment. Ann NY Acad Sci. 2001; 948: 153. 미소장
33 Persistence of pharmaceuticals and other organic compounds in chlorinated drinking water as a function of time 네이버 미소장
34 Pharmaceuticals and endocrine disrupting compounds in U.S. drinking water. 네이버 미소장
35 Behavior of pharmaceuticals and drugs of abuse in a drinking water treatment plant (DWTP) using combined conventional and ultrafiltration and reverse osmosis (UF/RO) treatments 네이버 미소장
36 Hydrolyzing metal salts as coagulants 네이버 미소장
37 Coagulation by hydrolysing metal salts 네이버 미소장
38 Ye C, Wang D, Shi B, Yu J, Qu J, Edwards M, et al. Alkalinity effect of coagulation with polyaluminum chlorides: Role of electrostatic patch. Colloids Surf., A 2007; 294(1-3): 163-173. 미소장
39 Removal of pharmaceuticals during drinking water treatment. 네이버 미소장
40 Removal of antibiotics by coagulation and granular activated carbon filtration 네이버 미소장
41 Alexander JT, Hai FI, Al-aboud TM. Chemical coagulation-based processes for trace organic contaminant removal: Current state and future potential. J Environ Manage. 2012; 111(30): 195-207. 미소장
42 Stimulatory drugs of abuse in surface waters and their removal in a conventional drinking water treatment plant. 네이버 미소장
43 Vieno N. Occurrence of pharmaceuticals in Finnish sewage treatment plants, surface waters, and their elimination in drinking water treatment processes. Tampere University of Technology. Publication;666. 2007. p.28-34. 미소장
44 Removal of cosmetic ingredients and pharmaceuticals in sewage primary treatment 네이버 미소장
45 Carballa M, Omil F, Lema J. Removal of pharmaceuticals and personal care products (PPCPs) from municipal wastewaters by physico-chemical processes. Elec J Env Agricult Food Chem. 2003; 2(2): 309-313. 미소장
46 Suarez S, Lema JM, Omil, F. Pre-treatment of hospital wastewater by coagulation flocculation and flotation. Bioresour Technol. 2009; 100(7): 2138- 2146. 미소장
47 Removal of Xenobiotic Compounds from Wastewater for Environment Protection: Treatment Processes and Costs 네이버 미소장
48 Stumm W, Morgan JJ, Drever JI. Aquatic chemistry. J Environ Qual. 1996; 25(5): 1162. 미소장
49 Role of membranes and activated carbon in the removal of endocrine disruptors and pharmaceuticals 네이버 미소장
50 Removal efficiencies of endocrine disrupting chemicals by coagulation/flocculation, ozonation, powdered/granular activated carbon adsorption, and chlorination 소장
51 Summers RS, Roberts PV. Activated carbon adsorption of humic substances: I. Heterodisperse mixtures and desorption. J. Colloid Interf. Sci. 1988; 122(2): 367-381. 미소장
52 Avdeef A. Absorption and drug development: solubility, permeability, and charge state. 2nd ed. Wiley: 2012. p.31-34. 미소장
53 Cantrell KJ, Serne RJ, Last GV. Applicability of the linear sorption isotherm model to represent contaminant transport processes in site-wide performance assessments. Pacific Northwest National Laboratory. Technical report PNNL-14576. 2003. p.1-6. 미소장
54 Adsorption characteristics of selected pharmaceuticals and an endocrine disrupting compound—Naproxen, carbamazepine and nonylphenol—on activated carbon 네이버 미소장
55 Effects of pH and cationic and nonionic surfactants on the adsorption of pharmaceuticals to a natural aquifer material. 네이버 미소장
56 Removal of emerging contaminants of concern by alternative adsorbents 네이버 미소장
57 Disinfection by-products and other emerging contaminants in drinking water 네이버 미소장
58 Yiasoumi W. Water disinfecting techniques for plant pathogen control. Combined proceedings-IPPS. 2005; 55: .138. 미소장
59 Jolley RL, Gorchev H, Hamilton JrD. Water chlorination: environmental impact and health effects. Volume 2 Ann Arbor Science Publishers, Inc Ann Arbor, MI: 1978. p.78-220 미소장
60 Investigations of the Structure and Reactions of the Intermediate in the Chlorination of Resorcinol 네이버 미소장
61 Chlorination of phenols: kinetics and formation of chloroform. 네이버 미소장
62 Transformation of aromatic ether- and amine-containing pharmaceuticals during chlorine disinfection. 네이버 미소장
63 Sim WJ, Lee JW, Oh JE. Occurrence and fate of pharmaceuticals in wastewater treatment plants and rivers in Korea. Environ Pollut. 2010; 158(5): 1938- 1947. 미소장
64 Transformation of acetaminophen by chlorination produces the toxicants 1,4-benzoquinone and N-acetyl-p-benzoquinone imine. 네이버 미소장
65 Investigating the chlorination of acidic pharmaceuticals and by-product formation aided by an experimental design methodology 네이버 미소장
66 Transformation of the antibacterial agent sulfamethoxazole in reactions with chlorine: kinetics, mechanisms, and pathways. 네이버 미소장
67 Melton TC, Brown SD. The fate of sulfamethazine in sodium-hypochlorite-treated drinking water: monitoring by LC-MSn-IT-TOF. J Med Chem. 2012; 2012: 1-6. 미소장
68 Yamamoto T, Yasuhara A. Chlorination of bisphenol A in aqueous media: formation of chlorinated bisphenol A congeners and degradation to chlorinated phenolic compounds. Chemosphere. 2002; 46(8): 1215-1223. 미소장
69 Hu JY, Xie GH, Aizawa T. Products of aqueous chlorination of 4-nonylphenol and their estrogenic activity. Environ Toxicol Chem. 2002; 21(10): 2034- 2039. 미소장
70 Sojic D, Despotovi V, Ori D, Szab E, Arany E, Armakovi S, et al. Degradation of thiamethoxam and metoprolol by UV, O3 and UV/O3 hybrid processes: Kinetics, degradation intermediates and toxicity. J Hydrol. 2012; 472-473: 314-327. 미소장

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