錳催化靛藍光度法快速測定水體中總氨方法之研究

Yi-Hsin Lee; 李奕欣

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/70689

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DC 欄位	值	語言
dc.contributor.advisor	白書禎(Su-Cheng Pai)
dc.contributor.author	Yi-Hsin Lee	en
dc.contributor.author	李奕欣	zh_TW
dc.date.accessioned	2021-06-17T04:35:01Z	-
dc.date.available	2023-08-14
dc.date.copyright	2018-08-14
dc.date.issued	2018
dc.date.submitted	2018-08-09
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(1981) Analysis of ammonia in brackish waters by the indophenol blue technique: comparison of two alternative methods, Rev. Porr. Quim. 23, 205-211. 7. Harfmann, R.G., Crouch, S.R. (1989) Kinetic study of Berthelot reaction steps in the absence and presence of coupling reagents, Talanta 36 (1), 261-269. 8. Holmes, R.M., Aminot, A., Kerouel, R., Hooker, B.A., Peterson, B.J. (1999) A simple and precise method for measureing ammonium in marine and freshwater ecosystems, Can. J. Fish Aquat. Sci., 56, 1810-1808. 9. Ivancic, J., Degobbis, D. (1984) An optimal manual procedure for ammonia analysis in natural waters by the indophenol blue method, Water Res., 18(9) 1143-1147. 10. Kanda, J. (1995) Determination of ammonium in seawater based on the indophenol reaction with o-phenylphenol (opp), Water Res., 29 (12) 2745-50. 11. Krom, M.D. (1980) Spectrophotometric determination of ammonia: a study of a modified Berthelot Reaction using salicylate and dichloroisocyanurate, Analyst 10, 305-316. 12. 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Molins-Legua, C., Meseguer-Lloret, S., Moliner-Martinez, Y., Campins-Falco, P. (2006) A guide for selecting the most appropriate method for ammonium determination in water analysis, Anal. Chem. 25(3), 282-290 18. Mantoura, R.F.C., Woodward, E.M.S. (1983) Optimization of the indophenol blue method for the automated determination of ammonia in estuarine waters, Estuarine Coast. Shelf Sci., 17, 219-224. 19. Ngo, T.T., Phan, A.P.H., Yam, C.F., Lenhoff, H.M. (1982) Interference in determination of ammonia with the hypochlorite-alkaline phenol method of Berthelot, Anal. Chem. 54, 46-49. 20.Pai, S.C., Tsau, Y,J., Yang, T.I. (2001) pH and buffering capacity problems involved in the determination of ammonia in saline water using the indophenol blue spectrophotometric method, Anal. Chim. Acta, 434, 209-216. 21. Park, G., Oh, H., Ahn, S. (2009) Improvement of the ammonia analysis by the phenate method in water and wasterwater, Bull. Korean Chem. Soc., 30 (9) 2032-2038. 22. Patton, C.J., Crouch, S.R. (1977) Spectrophotometric and kinetics investigation of the Berthelot Reaction for the determination of ammonia, Anal. Chem. 49 (3), 464-469. 23. Riley, J.P. (1953) The spectrophotometric determination of ammonia in natural waters with particular reference to seawater, Anal. Chim. Acta 9, 575-589. 24. Riley, J.P., Chester, R. (1971) Introduction to Marine Chemistry, Academic Press, London, pp. 121. 25. Sasaki, K., Sawada, Y. (1980) Determination of ammonia in an estuary. Bull. Japan. Soc. of Sci. Fish. 46, 319-321. 26. Scheiner, D. (1975) Determination of ammonia and Kjeldahl nitrogen by indophenol method, Water Res. 10, 31-36. 27. Searle, P. (1984) The Bethelot of indophenol reaction and its use in the analytical chemistry of nitrogen, Analyst, 109, 549-568. 28. Sequeira,M., Diamond, D. (2002) Progress in the realization of an autonomous environmental monitoring device for ammonia, Trends Anal. Chem., 21(12), 816-827. 29. Shoji, T., Nakamura, E. (2009) Flow injection analysis with spectrophotometry for ammonium ion with 1-naphthol and dichloroisocyanurate, J. Flow Inj. Anal. 26(1) 37-41. 30. Solórzano, L. (1969) Determination of ammonia in natural waters by the phenolhypochlorite method. Limnol. Oceanogr. 5, 799-801. 31. Sraj, L.O., Almeida, M.I.G.S., Swearer, S.E., Kolev, S.D., Mckelvie, I.D., (2014) Analytical challenges and advantages of using flow based methodologies for ammonia determination in estuarine and marine waters, Trends in Anal. Chem., 59, 83-92. 32. Stand Methods for the Examination of Water and Wastewater” (23rd edition, 2017) published by the American Public Health Association. 33. Stewart, B.M. (1985) Effect of temperature on the formation of indophenol blue in a spectrophotometric method for the determination of ammonia, Water Res., 19(11) 1443-1445. 34. Stewart, B.M., Elliott, P.A.W. (1995) Systematic salt effects in the automated determination of nutrients in seawater, Water Res., 30 (4) 869-874. 35. Strickland, J. D. H. and Parson, T. R., (1972), A Practical Handbook of Seawater Analysis. Bull. Fish. Res. Boasd Can., 2nd Edn., p.p. 167-311. 36. Szabo, A. (1991) Theoretical approaches to reversible diffusion-influenced reactions: Monomer-excimer kinetics, J. Chem. Phys. 95 (4). 2481-2490. 37. Tsuboi, T., Hirano, Y., Shibata, Y., Motomizu, S. (2002) Sensitivity improvement determination based on flow injection indophenol spectrophotometry with mangansese (II) ion as a catalyst and analysis of exhaust gas of thermal power plant, Anal. Sci., 18, 1141-1144. 38. Tzollas, N.M., Zachariadis, G.A., Anthemidis, A.N., Stratis, J.A. (2010) A new approach to indophenol blue method for determination of ammonium in geothermal waters with high mineral content, Intern. J. Environ. Anal. Chem., 90(2), 115-126. 39. Verdouw, H., van Echteld, A., Dekkers, M.J. (1977) Ammonia determination based on indophenol formation with sodium salicylate, Water Res. 12, 399-402. 40. Wang, L., Cardwell, T.J., Cattrall, R.W, Luque de Castro, M.D., Kolev, S.D. (2003) Determination of ammonia in beers by pervaporation flowinjection analysis and spectrophotometric detection, Talanta 60 , 1269-1275 41. Weatherburn, M.W. (1967) Phenol-hypochlorite reaction for determination of ammonia, Anal. Chem. 39 (8), 971-974. 42. 楊岱宜(2001) A mysterious blue color in the indophenol blue method for ammonia determination, 海化實驗選輯，2001，台大海研所化學組。 43. 林盈君(2007) Determination of ammonia in water by the Indophenol blue method catalyzed by manganese sulfate, 國立臺灣大學海洋研究所碩士論文。
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/70689	-
dc.description.abstract	本文檢討以靛藍法測定水體中氨氮濃度的方法，以不同之分析角度嘗試將其改進之，包括: 酸鹼度之控制、反應速率、試劑之穩定度及保存。結果顯示，以酚為偶合劑、次氯酸為氧化劑、錳為催化劑，在適當的條件下，可使呈色反應時間大幅縮短，在常溫下反應可在三分鐘近乎完全(t99%<3min)。其關鍵條件在於其中間產物氯胺(chloramine)之反應須在pH 7-8的環境下生成，而生成後與酚之中間反應須先在pH 7.5-8.5 進行，最後再調到10.5使靛藍呈色。以錳為催化的機制使得試劑空白非常穩定，不會像使用nitroprusside為催化劑時有緩慢爬升的現象。雖然本文建議之方法所得靛藍的吸光係數較低(640nm=ca. 4500 M-1cm-1)，但其優勢為反應迅速，呈色後穩定，所有試劑都可以在配置後保存數月之久。本法以停流式自動分析法之偵測下限為0.5 uM ，在10 uM濃度之再現性(r.s.d.)約1 % (n=7) ，線性範圍可延伸至100 uM，每小時可分析15個樣本。本法適用於測定含高氨氮濃度之水體，如都市廢水、工業及農業排水，以及雨水、養殖池之監測等。	zh_TW
dc.description.abstract	The indophenol blue method for the determination of dissolved ammonia has been reassessed in several analytical respects including pH control, reaction kinetics, choice of reagents and reagent stability. It was found that an optimal reaction rate (t99%<3 min at room temperature) can be achieved using phenol as the coupling agent, hypochlorite as the oxidant and manganese (II) as the catalyst. The key conditions are that the formation of the intermediate product-chloramine needs to form at pH 7-8, which further reacts with phenol at pH 8-8.5 and the final formation of the indophenol blue should be carried out at pH 10.5. The reagent blank of the proposed method is more stable than that of using dichloroisocyanurate and nitroprusside reagents. Even though the final molar extinction coefficient (640nm=4500 M-1cm-1) may be comparatively lower than that of traditional protocols, the present method takes advantages of being much faster, more consistent and all reagents can be stable for several months. The detection limit using a stop-flow automated device was 0.5 uM using 1 cm cell measured at 640 nm, and the precision was about 1% at 10 uM level with a linear range of up to 100 uM. The analysis throughput was 15 samples per hour. The method is suitable for the examination of high-ammonia-containing urban sewage, industrial and agricultural outflows as well as rain water and aquaculture pond water.	en
dc.description.provenance	Made available in DSpace on 2021-06-17T04:35:01Z (GMT). No. of bitstreams: 1 ntu-107-R04241402-1.pdf: 4600451 bytes, checksum: 428a88b54a9d02d44e658f1b83456245 (MD5) Previous issue date: 2018	en
dc.description.tableofcontents	Contents 論文口試委員審定書致謝中文摘要 i ABSTRACT ii LIST OF FIGURES vi LIST OF TABLES vii Chapter 1 Introduction 1 1.1 Ammonia in natural environment 1 1.2 Analytical methods for the determination of ammonia 1 1.3 History of the Indophenol blue methods 2 1.4 Berthelot’s reaction process 3 1.5 Purpose of this study 4 Chapter 2 Formation kinetics of the indophenol blue method 6 2.1 Overview 6 2.2 Choices of reagents 7 2.2.1 Coupling compound 7 2.2.2 Provider of hypochlorite 7 2.2.3 Catalyst 7 2.2.4 Masking agent 8 2.2.5 H2SO4 and NaOH 8 2.3 Reagent-adding sequence 8 2.4 Experiments 11 2.4.1 Apparatus 11 2.4.2 Procedure 13 2.4.3 Reagents 13 2.4.4 Color formation reaction curve 14 2.4.5 Molar extinction coefficient 15 2.4.6 Control of pH 15 2.5 The Amidakuji experiment 16 2.6 Results and discussion 17 2.7 Effect of time delay for adding reagent 25 2.8 Comparison of using bleach/Mn2+ and DIC/NP 27 2.8.1 Formation curves of Tests 11-18 28 2.8.2 Absorption spectra 31 2.8.3 Problem with DIC reagent 36 2.8.4 Problems with NP 39 2.8.5 Why DIC and NP are not favorable 40 2.9 Recommanded manual procedure 41 2.9.1 Reagents: 41 2.9.2 Manual procedure 42 2.9.3 Precision and detection limit 42 2.9.4 Seawater sample 43 Chapter 3 Step Flow Analysis for the determination of ammonia 44 3.1 Introduction of the Step Flow Analysis 44 3.2 Instrumental Design 45 3.2.1 System layout 45 3.2.2 Reagents 47 3.2.3 Procedure 48 3.2.4 Calibration 48 3.2.5 Coating of MnO2 50 Chapter 4 Conclusion 51 Chapter 5 Reference 55
dc.language.iso	en
dc.subject	反應動力學	zh_TW
dc.subject	靛藍法	zh_TW
dc.subject	氨氮濃度	zh_TW
dc.subject	pH值控制	zh_TW
dc.subject	錳催化	zh_TW
dc.subject	Manganese (II)	en
dc.subject	Indophenol blue method	en
dc.subject	Ammonia	en
dc.subject	pH control of each step	en
dc.subject	Reaction kinetic	en
dc.title	錳催化靛藍光度法快速測定水體中總氨方法之研究	zh_TW
dc.title	Implementation of a fast indophenol blue colorimetric method for the determination of dissolved total ammonia using manganese (II) as a catalyst	en
dc.type	Thesis
dc.date.schoolyear	106-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	洪慶章(Chin-Chang Hung),馬劍(Ma Jian),劉秉忠(Ping-Chung Liu),秦宗顯(Tzong-Shean Chin)
dc.subject.keyword	靛藍法,氨氮濃度,pH值控制,反應動力學,錳催化,	zh_TW
dc.subject.keyword	Indophenol blue method,Ammonia,pH control of each step,Reaction kinetic,Manganese (II),	en
dc.relation.page	61
dc.identifier.doi	10.6342/NTU201802380
dc.rights.note	有償授權
dc.date.accepted	2018-08-09
dc.contributor.author-college	理學院	zh_TW
dc.contributor.author-dept	海洋研究所	zh_TW
顯示於系所單位：	海洋研究所

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