kw.\*:("DBO")
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Effects of dilution on dissolved oxygen depletion and microbial populations in the biochemical oxygen demand determinationKYO SEONG SEO; HO NAM CHANG; JOONG KON PARK et al.Applied microbiology and biotechnology. 2007, Vol 76, Num 4, pp 951-956, issn 0175-7598, 6 p.Article
Biological oxygen demand sensor using an arsenic resistant bacteriumOHKI, A; SHINOHARA, K; MAEDA, S et al.Analytical sciences. 1990, Vol 6, Num 6, pp 905-906, issn 0910-6340Article
A gas chromatographic-based headspace biochemical oxygen demand testLOGAN, B. E; PATNAIK, R.Water environment research. 1997, Vol 69, Num 2, pp 206-214, issn 1061-4303Article
Development of a membrane respirometerGARG, R. P; MATHUR, R. P.Water research (Oxford). 1997, Vol 31, Num 1, pp 23-32, issn 0043-1354Article
OXYGEN-CONSUMING ORGANIC MATTER (BOD) IN EFFLUENTS ORIGINATING IN DIFFERENT PULPING PROCESSES OF THE WOODWORKING INDUSTRY. II. REVIEW OF LITTERATURE DURING THE YEARS 1960-1970TOTTERMAN H.1972; PAPERI JA PUU; SUOMI; DA. 1972; VOL. 54; NO 9; PP. 505-516 (10 P.)Serial Issue
Oxygen sag models for multiorder biochemical oxygen demand reactionsADRIAN, Donald Dean; ROIDER, Emerald M; SANDERS, Thomas G et al.Journal of environmental engineering (New York, NY). 2004, Vol 130, Num 7, pp 784-791, issn 0733-9372, 8 p.Article
Respirometry in environmental engineeringMAHENDRAKER, V; VIRARAGHAVAN, T.Journal of environmental science and health. Part A, Environmental science and engineering. 1995, Vol 30, Num 4, pp 713-734, issn 0360-1226Article
Response of BOD, COD and TOC of secondary effluents to chlorinationEL-REHAILI, A. M.Water research (Oxford). 1995, Vol 29, Num 6, pp 1571-1577, issn 0043-1354Article
Deep bed filtration provides triple functionalityFiltration & separation. 1991, Vol 28, Num 4, issn 0015-1882, p. 241Article
Modelling of bod exertion curveSWAMEE, P. K; OJHA, C. S. P.Water research (Oxford). 1991, Vol 25, Num 7, pp 901-902, issn 0043-1354, 2 p.Article
Rapid mediated bioassays for the measurement of biochemical oxygen demand (BOD) and direct toxicity assessment (DTA)PASCO, Neil; HAY, Jo; JOHN, Richard et al.Recent research developments in applied microbiology and biotechnology (Volume 2(2005)) = 0Applied microbiology and biotechnology. 2005, pp 123-149, isbn 81-7736-293-3, 27 p.Book Chapter
Optical fiber sensor for biological oxygen demandPREININGER, C; KLIMANT, I; WOLFBEIS, O. S et al.Analytical chemistry (Washington, DC). 1994, Vol 66, Num 11, pp 1841-1846, issn 0003-2700Article
A theoretical approach for minimization of excavation and media costs of constructed wetlands for BOD5 removalCHEN, S; MALONE, R. F; FALL, L. J et al.Transactions of the ASAE. 1993, Vol 36, Num 6, pp 1625-1632, issn 0001-2351Article
Toxic effect of metal ions on biochemical oxygen demandMITTAL, S. K; RATRA, R. K.Water research (Oxford). 2000, Vol 34, Num 1, pp 147-152, issn 0043-1354Article
Détermination automatisée de la DBO5: Validation de la mesure d'oxygène dissous en flacon ouvert = Automated determination of BOD5: validation of the measure of oxygen dissolved in an open flacon = Automated determination of BOD5 : Validation of the measure of oxygen dissolved in an open flaconNETTER, C.L' Eau, l'industrie, les nuisances. 1998, Num 216, pp 40-42, issn 0755-5016Article
Optimizing rotating biological contactor disc areaBUCHANAN, I; LEDUC, R.Water research (Oxford). 1994, Vol 28, Num 8, pp 1851-1853, issn 0043-1354Article
Schnellbestimmung des Biochemische Sauerstoffbedarfs mit mikrobiologischen Sensoren : ein Überblick = Rapid measurement of biochemical oxygen demand by using microbial sensors : a reviewRIEDEL, K.Vom Wasser. 1993, Vol 81, pp 243-256, issn 0083-6915Article
Elimination of sulfur(IV) interference in five-day biochemical oxygen demand determinationsWATTS, R. J; ADAMS, V. D.Analyst (London. 1877. Print). 1993, Vol 118, Num 12, pp 1515-1518, issn 0003-2654Article
Neue Erfahrungen mit der Bestimmung des BSB5 in Papierfabriksabwässern = New experience with the determination of BOD5 in papermill waste watersCORDES-TOLLE, M.Wochenblatt für Papierfabrikation. 1992, Vol 120, Num 9, pp 335-340, issn 0043-7131, 5 p.Article
Inverse calculation of biochemical oxygen demand models based on time domain for the tidal Foshan RiverLI ER; ZENG XIANGYING.Water science and technology. 2014, Vol 70, Num 1, pp 15-23, issn 0273-1223, 9 p.Article
A biofilm reactor-based approach for rapid on-line determination of biodegradable organic pollutantsCHANGYU LIU; HUIJUN ZHAO; LIJIE ZHONG et al.Biosensors & bioelectronics. 2012, Vol 34, Num 1, pp 77-82, issn 0956-5663, 6 p.Article
Partial characterization of an effluent produced by cooking of Jumbo squid (Dosidicus gigas) mantle muscleROSAS-ROMERO, Zaidy G; RAMIREZ-SUAREZ, Juan C; PACHECO-AGUILAR, Ramón et al.Bioresource technology. 2010, Vol 101, Num 2, pp 600-605, issn 0960-8524, 6 p.Article
Microbial fuel cell-based biosensor for fast analysis of biodegradable organic matterKUMLANGHAN, Ampai; JING LIU; THAVARUNGKUL, Panote et al.Biosensors & bioelectronics. 2007, Vol 22, Num 12, pp 2939-2944, issn 0956-5663, 6 p.Article
Lysimeter experiments to determine the ability of soil to reduce concentrations of bod, available R and inorganic N in dirty waterBROOKMAN, S. K. E; CHADWICK, D. R; RETTER, A. R et al.Environmental technology. 2005, Vol 26, Num 11, pp 1189-1204, issn 0959-3330, 16 p.Article
Performance evaluation of mixed and pure microbial inocula as surrogate culture in a BOD5 testPAIXAO, S. M; SANTOS, P; TENREIRO, R et al.World journal of microbiology & biotechnology. 2003, Vol 19, Num 5, pp 539-544, issn 0959-3993, 6 p.Article