Bioreactor
gaya3SMohan
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Jan 14, 2017
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BIOREACTORS GAYATHRI MOHAN
CONTENTS Introduction to Bioreactors Classification and types of Bioreactors Operation Applications of Bioreactors in waste water treatment
BIOREACTORS Bioreactor : A bioreactor may refer to any manufactured or engineered device or system that supports a biologically active environment. A bioreactor is a vessel in which a chemical process is carried out which involves organisms or biochemically active substances derived from such organisms. This process can either be aerobic or anaerobic. They vary in size and complexity from a 10 ml volume in a test tube to computer controlled fermenters with liquid volumes greater than 100 m 3 .
Applications of Biotechnology
Classification of Bioreactors Broadly classified as Suspended Growth Bio-reactors : Biological catalyst is suspended in the growth medium. Eg : Batch reactors, CSTR’s, Plug Flow reactor Biofilm Bio-reactors : Microorganism are kept attached to a surface and this type find major applicability in waste water treatment. The different kinds of biofilm reactors include membrane,fluidized bed, packed bed, airlift, and upflow , anaerobic sludge blanket reactors. Based on mode of operation Batch Continuous Fed-Batch
Batch Reactors Reactants are charged in to the vessel at the starting of operation and the products are withdrawn at the end. Complete mixing of the reactor volume uniform composition everywhere in reactor but changes with time Eg : BOD digestion bottle
Continuously stirred tank reactors In CSTR, reactants and products are continuously added and withdrawn. Micro- organisms that grow within the reactor continuously replace the micro organisms removed from the reaction in the effluent. The basic characteristic of the ideal CSTR is that the concentration of the substrate and microorganisms are the same everywhere through out the reactor. Mechanical or hydraulic agitation is required to achieve uniform composition and temperature Mainly used in industrial applications and in waste water treatment where no sterile conditions is needed
Applications of CSTR Activated sludge reactors are one of the widely used CSTR s in waste water treatment. Ideal for growth associated products, ie , Primary metabolites Other application include the production of single cell proteins, ethanol production, Lactic acid production. One of the drawback is high power requirement for mixing. High shear force may damage the cells. Also less productive strain will be dominant in a continuous culture.
Plug Flow Reactors (PFR) Also referred to tubular reactor or piston flow reactor. (PFR) Flow of fluid through reactor with order so that only lateral mixing is possible. The liquid or slurry stream continuously enters one end of the reactor and leaves at the other end. F low moves through the reactor with no mixing with earlier or later entering flows. Concentrations of substrates are highest at the entrance of the reactor, which tends to make rates there quite high
Applications of PFR Mainly used in small laboratory scale production and pilot-plant studies. A typical plug flow reactor could be a tube packed with some solid material (frequently a catalyst) are called packed bed reactors or PBR's. Sometimes the tube will be a tube in a shell and tube heat exchanger. Plug flow reactors are used for the following applications: Fast reactions Homogeneous or heterogeneous reactions Continuous production High-temperature reactions
Disadvantages Major disadvantages are Temperature is hard to control High Maintenance cost
Packed Bed reactors The medium to which the microorganisms are attached is stationary ( e.g plastic media or pea sized stones). Commonly packed bed reactors are used for aerobic treatment of waste waters and are known as tricking filters and or biological towers. ADVANTAGES: There is improved contact between the waste stream and the micro organisms .
Trickling filter
Fluidized B ed Reactor The fluidized bed reactor depends upon the attachment of particles that are maintained in suspension by a high upward flow rate of the fluid to be treated. The particles are often called biofilm carriers. The carriers may be sand grains, granular activated carbon, diatomaceous earth. ADVANTAGES : 1. Uniform particle mixing 2.Uniform temperature gradients 3. The ability to operate reactor in continuous state. DISADVANTAGES: 1. Increased reactor vessel size 2. pumping requirements and pressure drop 3. Pressure loss scenario
Fluidized Bed Reactor
Environmental application of Bioreactors GASEOUS EFFLUENTS Bioreactors provide better containment and superior environmental controls that allow faster, more complete and cost-effective treatment 1. BIOFILTERS: Biofilters are beds of soil or compost, about 1 m deep, with an underlying distribution system for the contaminated gas. As the contaminant laden gas moves up through the moist bed, the pollutants are removed by sorption and oxidized by the microbial population immobilized in the bed. 2. BIOSCRUBBERS: Conceptually similar to conventional gas scrubbers, B ioscrubbers are employed when heavier contaminant loadings, less soluble contaminants or contaminant toxicity make biofilters unsatisfactory. Activated sludge mixed in water is contacted with the gaseous effluent in a packed bed absorption tower. Contaminants transfer to the sludge-water slurry which is taken to holding or sedimentation tanks where most of the degradation takes place. Clarified liquor from the sedimentation tanks is recycled to the absorption column.
Bioscrubber
ARTIFICIAL WETLAND, OR 'REED BED' Bioreactor systems for reduction of biochemical oxygen demand (BOD 5 ) and total suspended solids (TSS) in municipal and industrial wastewaters. Aquatic plants such as bulrush, cattails, common reed, water hyacinth, swamp potato and duck potato rooted in rock and gravel media beds flooded with wastewater flowing though the bed and root zone, make-up the wetland filters.
Conclusion Bioconversion of wastes to harmless substances or higher value products already has a significant role in environmental pollution control and improved resource utilization. Both in- situ and bioreactor based treatment processes are experiencing rapid development and increasing deployment in practical applications.
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