What are the applications of bioreactor?
Many different bioreactors and bioreactor applications are described, including those for cell growth, enzyme production, biocatalysis, food production, milk processing, extrusion, tissue engineering, algae production, protein synthesis, and anaerobic digestion.
What are the parts of bioreactor and their functions?
A bioreactor is a device that consists of various features such as an agitator system, an oxygen delivery system, a foam control system, and a variety of other systems such as temperature & pH control system, sampling ports, cleaning, and sterilization system, and lines for charging & emptying the reactor.
What are the different types of bioreactors?
The six types are: (1) Continuous Stirred Tank Bioreactors (2) Bubble Column Bioreactors (3) Airlift Bioreactors (4) Fluidized Bed Bioreactors (5) Packed Bed Bioreactors and (6) Photo-Bioreactors.
Where are bioreactors used?
Bioreactors are used in the food, medical, pharmaceutical and cosmetics industries. Each of these produces certain types of biomolecules, depending on the use of the final product. Some are also produced in the form of complex products, while others remain molecules.
What are the advantages of bioreactor?
Reduced risk of contamination or cell mutation because the growth period is brief. Lower capital investment compared to continuous processes for the identical bioreactor volume. More flexibility with varying product/biological systems. Higher material conversion levels, resulting from a controlled growth period.
What is bioreactor explain types of bioreactor?
A bioreactor is a large vessel, which is used to grow culture on a large scale under optimum conditions to produce large quantities of the desired product, e.g. enzymes, antibodies, vaccines, etc. Types of bioreactors: Stirred-tank bioreactor. Simple stirred-tank bioreactor. Sparged stirred-tank bioreactor.
What is bioreactor explain its function?
A bioreactor is a vessel in which raw materials are converted into products, using microbial plant, animal or human cells. It provides the optimal conditions by providing optimum temperature, pH, substrate, vitamins, oxygen, etc.
What is bioreactor explain?
Bioreactors are vessels that have been designed and produced to provide an effective environment for enzymes or whole cells to transform biochemicals into products. In some cases, inactivation of cells or sterilization is carried out in the bioreactor such as in water treatment.
Which is the most commonly used bioreactor and explain its functioning?
Solution. The most commonly used bioreactor is simple stirred type bioreactor. A stirred-tank reactor is usually cylindrical or with a curved base to facilitate the mixing of the reactor contents. The stirrer facilitates even mixing and oxygen availability throughout the bioreactor.
What is a bioreactor explain its functioning?
What is the shape of a bioreactor?
These bioreactors are commonly cylindrical, ranging in size from litres to cubic metres, and are often made of stainless steel. It may also refer to a device or system designed to grow cells or tissues in the context of cell culture.
What is the importance of using bioreactors?
The important of using bioreactors is as follows: (i) It provides large volume for culture. Thus, products are obtained in high quantity. Ii) It provides optimal temperature and pH for growth of desired product.
What is a bioreactor explain with a diagram?
What are bioreactors made of?
Bioreactors are usually cylindrically shaped, and range in different sizes from litres to cubic metres. They are commonly made of stainless steel. Bioreactors are used for making pharmaceutical products such as antibiotics and insulin.
What is the main goal of bioreactors?
The main goal in bioreactors is to grow tissue/s or cells for therapeutic purposes or experimental, when compared the design with industrial bioreactors is significantly different.
What is the size of a bioreactor?
Some bioreactors are designed for small scale fermenters and some for large scale industrial applications from the microbial cell (few mm3) to shake flask (100-1000 ml) to the laboratory-scale fermenter (1 – 50 L) to pilot level (0.3 – 10 m3) to plant scale (2 – 500 m3) for large volume).
What is bioreactors for tissue engineering?
Bioreactors for Tissue Engineering presents an overall picture of the current state of knowledge in the engineering of bioreactors for several tissue types (bone, cartilage, vascular), addresses the issue of mechanical conditioning of the tissue, and describes the use of techniques such as MRI for monitoring tissue growth.
3. Aerobic bioreactor: Need adequate mixing and aeration. Anaerobic bioreactor: no need for sparging or agitation. 4. The function of the bioreactor is to provide a suitable environment in which an organism can efficiently produce a target product—the target product might be Cell biomass Metabolite Tranformed Product 6.