The glass bioreactor is one of the important types of glass reactors. And it is a vessel used to carry out the biological reaction. Some of the applications of the bioreactor include the culture of aerobic cells in conducting cellular and enzymatic immobilization processes. Living organisms are used to synthesize substances in the bioreactor.
For example, bacteria can be used to break down sewerage into useful products. The glass bioreactor can be used in several biological reactions. Experts can apply the glass reactors in different sizes to achieve the desired results.
Besides, the bioreactor can also deal with the biological process to produce products in mass through bio assisted processes in industries. Therefore, the bioreactor makes it easy to control processes in the bioreactor. If we can control the biological processes through the application of the right condition, we can lead to the production of several products. And there is a wide range of bioreactor designs in the market, aiming to help the production of a wide range of products.
The Specifications of WKIE Lab Glass Reactor
Model | S212-05 | S212-10 | S212-20 | S212-50 | S212-100 | S212-200 |
Reaction Volume(L) | 5L | 10L | 20L | 50L | 100L | 200L |
Jacket Volume(L) | 2L | 5L | 8L | 12L | 18L | 25L |
Reactor Material | High quality borosilicate 3.3 glass | High quality borosilicate 3.4 glass | High quality borosilicate 3.5 glass | High quality borosilicate 3.6 glass | High quality borosilicate 3.7 glass | High quality borosilicate 3.8 glass |
Support Frame Material | Stainless steel 304 and coated aluminum | Stainless steel 304 and coated aluminum | Stainless steel 304 and coated aluminum | Stainless steel 304 and coated aluminum | Stainless steel 304 and coated aluminum | Stainless steel 304 and coated aluminum |
Neck No. On Lid | 5 | 6 | 6 | 6 | 6 | 6 |
Rated. torque(N.cm) | 140 | 177 | 177 | 177 | 285 | 550 |
Motor power(W) | 90 | 120 | 120 | 120 | 200 | 370 |
Rotating speed(rpm) | 0 ~ 600 (customizable) | 0 ~ 600 (customizable) | 0 ~ 600 (customizable) | 0 ~ 600 (customizable) | 0 ~ 600 (customizable) | 0 ~ 600 (customizable) |
Power supply | 220V or 110V / 50-60HZ | 220V or 110V / 50-60HZ | 220V or 110V / 50-60HZ | 220V or 110V / 50-60HZ | 220V or 110V / 50-60HZ | 220V or 110V / 50-60HZ |
Discharge | PTFE (Teflon) bottom discharge valve with no deadspace | PTFE (Teflon) bottom discharge valve with no deadspace | PTFE (Teflon) bottom discharge valve with no deadspace | PTFE (Teflon) bottom discharge valve with no deadspace | PTFE (Teflon) bottom discharge valve with no deadspace | PTFE (Teflon) bottom discharge valve with no deadspace |
Pressure Range | Full vacuum to atmosphere | Full vacuum to atmosphere | Full vacuum to atmosphere | Full vacuum to atmosphere | Full vacuum to atmosphere | Full vacuum to atmosphere |
Max jacket pressure | 0.5 bar | 0.5 bar | 0.5 bar | 0.5 bar | 0.5 bar | 0.5 bar |
The Application of Glass Bioreactors
A bioreactor allows control of the environment as a way of promoting biological processes. Several biological processes can be carried out to enhance the growth of organisms. The application of a glass bioreactor has proved very effective in controlling the medium under which biological processes are carried out.
Here are some of the applications of glass bioreactor:
1. Microbial cultures
It is a method of multiplying organisms, making the microorganisms to reproduce fast in a predetermined culture or medium. The laboratory conditions are controlled as a way of promoting the growth of the organism.
In most cases, the microbial cultures are used in molecular biology research. Several conditions need to be under control so that the biological process can run smoothly to a logical conclusion.
The application of the bioreactor plays a great role in the control of biological processes, leading to a great improvement in the final results. The results obtained from the microbial culture can be used to make findings in relation to certain biological processes. The bioreactors come in different sizes to aid in the microbial cultures. You will find the bioreactors of various sizes in most of the big biological laboratories.
2. Cell cultures
Cell culture is a process that cells are subjected to man-controlled conditions. Experts grow these cells outside their natural environment to achieve certain results. This means that the cells extracted from living tissues carefully will be observed their responses to the change of their living environments.
Besides, the cells under study are carefully extracted from living tissues, after which they are subjected to different conditions to known how they respond. And WKIE Lab bioreactors can provide these conditions necessary for cell growth.
Thus, it is a process that has been widely applied as a way of learning the response of the live cells to different environments. The findings from the researches based on the bioreactor model have contributed significantly to study diseases, among other life processes.
3. Batch
It is a process where a specific amount of nutrients is introduced to the cells under study. When live cells are subjected to a given amount of nutrients, they tend to respond in specific ways. The use of batch glass reactors allows scientists to study cells when they are exposed to different conditions.
Life cells tend to behave in specific ways when they are exposed to certain nutrients. The batch process allows the application of the nutrients as a way of knowing how the cells respond.
The Advantages and Disadvantages of Glass Bioreactors
The selection of a good quality bioreactor is very critical in all biological reaction processes. However, it may be difficult choosing the bioreactors to go for due to the wide range of options available in the market, most of whose advantages are withdrawn by some drawbacks in the same system. For a long time now, the glass bioreactors have been used for compelling performances in the reaction processes and may thus be an excellent option to consider.
In this part, therefore, aims at providing some of the top advantages and disadvantages that would help you decide if the glass bioreactors are the best choice to settle for.
The Advantages of Glass Bioreactor
- Reliability
Glass bioreactors are reliable for multiple bioreactor applications. They have been used for decades providing quality products form efficient performances.
- Ease of use
These bioreactors are easy to handle due to their perfect handling designs. You can mix all your solutions effectively without incurring any spills hence maintaining the high productivity levels. Glass bioreactors are also easy to clean due to their smooth surfaces. They can thus be an excellent option to consider if you are handling some sticky solutions in your reactions.
- Flexibility
Glass bioreactors are flexible and can be fit for multiple applications. You can carry out different chemical processes without affecting the purity or rather the quality of a single bioreactor process.
- Visibility
These bioreactors provide an excellent display of the reaction processes due to the clear and transparent vessels.
The Disadvantages of Glass Bioreactor
- Cost
Glass bioreactors may be a bit expensive as compared to other options. However, the price charged is worth the services offered.
- Not suitable for complex bioreactions
The glass bioreactors are designed with small mixer assemblies, which may not be fit for extensive chemical processes.
Glass bioreactors are quite an excellent selection to opt for if your budget is not restrained. They are durable, flexible for different applications, and durable hence saving you the replacement costs.
Conclusion
Having a glass bioreactor will be very helpful in your experiments and business. And WKIE Lab provides high-quality glass bioreactors for you at a reasonable price. So, don’t miss it.