Fixed Bed Hybrid Bioreactor

Theory and Practice

Debabrata Mazumder, Sushovan Sarkar

PDF
ca. 128,39
Amazon iTunes Thalia.de Weltbild.de Hugendubel Bücher.de ebook.de kobo Osiander Google Books Barnes&Noble bol.com Legimi yourbook.shop Kulturkaufhaus ebooks-center.de
* Affiliatelinks/Werbelinks
Hinweis: Affiliatelinks/Werbelinks
Links auf reinlesen.de sind sogenannte Affiliate-Links. Wenn du auf so einen Affiliate-Link klickst und über diesen Link einkaufst, bekommt reinlesen.de von dem betreffenden Online-Shop oder Anbieter eine Provision. Für dich verändert sich der Preis nicht.

Springer Singapore img Link Publisher

Naturwissenschaften, Medizin, Informatik, Technik / Chemische Technik

Beschreibung

This book describes a simplified approach to the modelling and process design of a fixed bed hybrid bioreactor for wastewater treatment. In this work a simplified model for hybrid bioreactor is developed to determine output parameters like exiting substrate concentration in bulk liquid, average substrate flux in the biofilm, effective and total biofilm thickness. The model is based on mass balance of both carbonaceous substrate and biomass under suspended and attached growth simultaneously along with substrate mass transport into the biofilm. The proposed model has also been validated with the results obtained from experimental study with municipal wastewater considering as a low strength wastewater with no inhibition. There is a flexibility of the proposed model making it a versatile one to find out the exiting substrate concentration both in hybrid bioreactor as well as in a completely mixed biofilm reactor (CMBR). The book caters to academics and practitioners working in the field of advanced wastewater treatment.

Weitere Titel in dieser Kategorie
Cover Rubber Products
Bireswar Banerjee

Kundenbewertungen

Schlagwörter

Municipal Wastewater Treatment, Aerobic Hybrid Bioreactor, Activated Sludge Process, Synthetic Carbonaceous Wastewater, Suspended Growth System, Monod Kinetics, Hybrid Bioreactor, Chemical Oxygen Demand (COD), Bio-film Process, Biomass Acclimation