Biological oxidation of hydrogen sulfide in mineral media using a biofilm airlift suspension reactor

Bioresource Technology

Volumn 101, Issue 21, 2010, Pages 8330-8335

  Moghanloo, G M Mojarrad ^a   Fatehifar, E ^b   Saedy, S ^b   Aghaeifa, Z ^b   Abbasnezhad, H ^b  

^a PASTEUR INSTITUTE OF IRAN   (Iran)

^b SAHAND UNIVERSITY OF TECHNOLOGY   (Iran)

Author keywords

BAS reactor; H2S; Oxidation; Thiobacillus thioparus

Indexed keywords

AIR-LIFT REACTORS; BIOFILM AIRLIFT SUSPENSION REACTORS; BIOFILM FORMATION; BIOLOGICAL OXIDATIONS; BIOMASS GROWTH; CARRIER MATERIAL; CONSTANT TEMPERATURE; H2S; HYDRAULIC RESIDENCE TIME; INDUSTRIAL EFFLUENT; LOADING RATE; MINERAL MEDIA; OPTIMAL TEMPERATURE; OPTIMAL TREATMENT; OXYGEN CONCENTRATIONS; SODIUM SULFIDES; SULFIDE OXIDATION; SULFIDE REMOVAL; THIOBACILLUS THIOPARUS;

BIOFILMS; BIOFILTERS; CONVERSION EFFICIENCY; CORROSION; EFFLUENTS; MINERALS; OPTIMIZATION; OXIDATION; OXYGEN; SEWAGE; SILICATE MINERALS; SODIUM; SODIUM COMPOUNDS; SULFUR DETERMINATION;

HYDROGEN SULFIDE;

HYDROGEN SULFIDE; INDUSTRIAL EFFLUENT; OXYGEN; SODIUM SULFIDE; CULTURE MEDIUM; MINERAL;

AQUEOUS SOLUTION; BACTERIUM; BIOMASS; BIOREACTOR; GROWTH RATE; HYDROGEN SULFIDE; INDUSTRIAL WASTE; MICROBIAL ECOLOGY; OXIDATION; PH; TEMPERATURE EFFECT;

ARTICLE; BACTERIAL GROWTH; BIOFILM; BIOFILM AIRLIFT SUSPENSION REACTOR; BIOMASS; HYDROGEN SULFIDE REMOVAL; MICROORGANISM; NONHUMAN; OXIDATION; PH; PRIORITY JOURNAL; REACTOR; TEMPERATURE; THIOBACILLUS THIOPARUS; BIOREACTOR; BIOREMEDIATION; CULTURE MEDIUM; DRUG EFFECTS; METABOLISM; MICROBIOLOGY; OXIDATION REDUCTION REACTION; PHARMACOLOGY; PHYSIOLOGY; SEWAGE; THIOBACILLUS; TIME;

BIODEGRADATION, ENVIRONMENTAL; BIOFILMS; BIOMASS; BIOREACTORS; CULTURE MEDIA; HYDROGEN SULFIDE; MINERALS; OXIDATION-REDUCTION; TEMPERATURE; THIOBACILLUS; TIME FACTORS; WASTE DISPOSAL, FLUID;

THIOBACILLUS THIOPARUS;

EID: 77954542692     PISSN: 09608524     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.biortech.2010.05.093     Document Type: Article

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