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Start Over Descriptor "lozing" Publication Year Range More than 50 years ago
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5 results on '"lozing"'

1. Invloed van de lozing uit het IJmeer op de toestand op het Noordzeekanaal

Author

Mazure, J.P. (author), Van Hoolwerff, G.H. (author), Mazure, J.P. (author), and Van Hoolwerff, G.H. (author)

Abstract

Het rapport gaat in op "Algemeen plan voor de Zuidwestelijke polder", waarin men tot een plan komt om het waterbezwaar op het Ijmeer in natte tijden zoveel nodig door te voeren op het IJsselmeer. Het rapport onderzoekt deze mogelijkheid aan de hand van metingen en enige omvangrijke berekeningen. Er blijkt dat matige stijgingen van het peil van het Noorzeekanaal (tot 0,30 m - NAP) en geringen stroomsnelheden (tot 0,28 m/s) in de nieuwe toestand meer zullen voorkomen dan in de bestaande, doch dat het aantal malen, dat ongewenst hoge standen op het Noordzeekanaal voorkomen, en de tijdsduur, dat minder gewenste, hoge stroomsnelheden optreden, af zullen nemen. more...

Published
1950

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3. Bacteriology of activated sludge

Author

Mulder, E.G., van Gils, H.W., Mulder, E.G., and van Gils, H.W.

Abstract

The bacteriology and biochemistry of activated sludge grown in domestic waste water or fed with synthetic media were studied. The nature of the flocs was investigated by determining morphological and physiological characteristics of many strains isolated.Predominant bacteria were Achromobacteraceae, further in sludge grown in domestic waste water Pseudomonadaceae and coryneform bacteria, and in sludge grown in waste water from synthetic media Micrococcaceae and large oval encapsulated coccoid bacteria.Bacterial flocs were not formed readily by many of the strains tested in pure culture. Addition of FeCl 3 or CaCl 2 sometimes stimulated flocculation. Variation in C/N relation of the substrate had no effect.Biochemical activities of activated sludge and of some strains in pure culture were studied in Warburg respirometers. Domestic activated sludge readily absorbed organic acids and ethanol, whereas sugars and polyalcohols were taken up slowly. The same held for pure cultures isolated from this sludge. Adaptation to sugar breakdown was-stimulated by N compounds and particularly by amino acids.Dissimilation was 10-20 % for glucose and 30-40 % for acetate. Rate of uptake for glucose and O 2 , and dissimilation percentages were independent of substrate concentration, but proportional to sludge concentration. Almost 60 % of added glucose was stored as polysaccharides by glucose-adapted sludge when no N was supplied. When ammonium sulphate was added only 25 % of the glucose yielded polysaccharides. Endogenous respiration was higher, the higher the sludge load while addition of (NH 4 ) 2 S0 4 with the glucose caused a still higher endogenous respiration, presumably due to amino acid synthesis. more...

Published
1964

4. Bacteriology of activated sludge

Subjects
sewage sludge, biologie, lozing, biology, parasitology, afval, disposal, sludges, parasitologie, drijfmest, verwerking, rioolslib, wastes, slurries, processing, bewerking, slib, handling
Abstract

The bacteriology and biochemistry of activated sludge grown in domestic waste water or fed with synthetic media were studied. The nature of the flocs was investigated by determining morphological and physiological characteristics of many strains isolated.Predominant bacteria were Achromobacteraceae, further in sludge grown in domestic waste water Pseudomonadaceae and coryneform bacteria, and in sludge grown in waste water from synthetic media Micrococcaceae and large oval encapsulated coccoid bacteria.Bacterial flocs were not formed readily by many of the strains tested in pure culture. Addition of FeCl 3 or CaCl 2 sometimes stimulated flocculation. Variation in C/N relation of the substrate had no effect.Biochemical activities of activated sludge and of some strains in pure culture were studied in Warburg respirometers. Domestic activated sludge readily absorbed organic acids and ethanol, whereas sugars and polyalcohols were taken up slowly. The same held for pure cultures isolated from this sludge. Adaptation to sugar breakdown was-stimulated by N compounds and particularly by amino acids.Dissimilation was 10-20 % for glucose and 30-40 % for acetate. Rate of uptake for glucose and O 2 , and dissimilation percentages were independent of substrate concentration, but proportional to sludge concentration. Almost 60 % of added glucose was stored as polysaccharides by glucose-adapted sludge when no N was supplied. When ammonium sulphate was added only 25 % of the glucose yielded polysaccharides. Endogenous respiration was higher, the higher the sludge load while addition of (NH 4 ) 2 S0 4 with the glucose caused a still higher endogenous respiration, presumably due to amino acid synthesis. more...

Published
1964

5. Bacteriology of activated sludge

Author

van Gils, H.W., Wageningen University, and E.G. Mulder

Subjects
sewage sludge, biologie, lozing, biology, parasitology, afval, disposal, sludges, parasitologie, drijfmest, verwerking, rioolslib, wastes, slurries, processing, bewerking, slib, handling
Abstract

The bacteriology and biochemistry of activated sludge grown in domestic waste water or fed with synthetic media were studied. The nature of the flocs was investigated by determining morphological and physiological characteristics of many strains isolated.Predominant bacteria were Achromobacteraceae, further in sludge grown in domestic waste water Pseudomonadaceae and coryneform bacteria, and in sludge grown in waste water from synthetic media Micrococcaceae and large oval encapsulated coccoid bacteria.Bacterial flocs were not formed readily by many of the strains tested in pure culture. Addition of FeCl 3 or CaCl 2 sometimes stimulated flocculation. Variation in C/N relation of the substrate had no effect.Biochemical activities of activated sludge and of some strains in pure culture were studied in Warburg respirometers. Domestic activated sludge readily absorbed organic acids and ethanol, whereas sugars and polyalcohols were taken up slowly. The same held for pure cultures isolated from this sludge. Adaptation to sugar breakdown was-stimulated by N compounds and particularly by amino acids.Dissimilation was 10-20 % for glucose and 30-40 % for acetate. Rate of uptake for glucose and O 2 , and dissimilation percentages were independent of substrate concentration, but proportional to sludge concentration. Almost 60 % of added glucose was stored as polysaccharides by glucose-adapted sludge when no N was supplied. When ammonium sulphate was added only 25 % of the glucose yielded polysaccharides. Endogenous respiration was higher, the higher the sludge load while addition of (NH 4 ) 2 S0 4 with the glucose caused a still higher endogenous respiration, presumably due to amino acid synthesis. more...

Published
1964