one publication added to basket [66956] | De aquakultuur met benuttiging van bio-industriële afvalstoffen en thermische effluenten = L'aquaculture utilisant des dechets bio-industriels et des effluents thermiques
Persoone, G.; Jaspers, E.; Depauw, N.; Sorgeloos, P.; Claus, C.; De Leenheer, L.; Bossuyt, E. (Ed.) (1980). De aquakultuur met benuttiging van bio-industriële afvalstoffen en thermische effluenten = L'aquaculture utilisant des dechets bio-industriels et des effluents thermiques. Nationaal Onderzoeks- en Ontwikkelingsprogramma op het gebied van de economie van de afvalstoffen en van de secundaire grondstoffen: wetenschappelijk eindrapport = Programme National de Recherche et de Développement dans le domaine de l'économie des déchets et des matières premières secondaires: rapport final scientifique, 15. Diensten van de Eerste Minister. Programmatie van het Wetenschapsbeleid: Brussel. 143 pp.
Part of: Nationaal Onderzoeks- en Ontwikkelingsprogramma op het gebied van de economie van de afvalstoffen en van de secundaire grondstoffen: wetenschappelijk eindrapport = Programme National de Recherche et de Développement dans le domaine de l'économie des déchets et des matières premières secondaires: rapport final scientifique. Diensten van de Eerste Minister. Programmatie van het Wetenschapsbeleid: Brussel, more
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Keywords |
Marine/Coastal; Brackish water; Fresh water |
Authors | | Top |
- Persoone, G., editor, more
- Jaspers, E., editor, more
- Depauw, N., editor
- Sorgeloos, P., editor, more
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- Claus, C., editor, more
- De Leenheer, L., editor
- Bossuyt, E., editor
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Abstract |
The possibility of recycling biodegradable waste materials (manure and waste from agricultural crops) into new proteins was investigated through experiments with various aquaticfood chains. The possibility of increasing the biomass yield through recuperation of the lost energy of thermal effluents was continually taken into consideration. The most promising production procedures which could lead to industrial applificatians are: a) the controlled mass production of pickling lobsters (Artemia) in "batch" or "flow through" systems using agricultural wastes, b). the nursery production of edible shell-fish (oysters, Paphia pullastra clams) using microscopic algae which were grown on manure. Units were designed of both types on a semi-industrial scale and were built on the Belgian coast. In conclusion it can also be mentioned that the mass production of water fleas (Daphnia) using manure and agricultural waste gave very encouraging results on a laboratory scale. |
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