The 100L glass reactor is large and spacious. For this reason, it finds extensive uses in many kinds of laboratory and industrial applications. But do you know more about it? Well, fret not. We have seen it seen necessary to shed more light on it. This way, we believe, it will be possible for you to appreciate and make better use of it.
The Features of 100L Glass Reactor
In its entirety, the glass reactor is made of glass. Specifically, the GG3.3 borosilicate glass is the one that chiefly adorns this kind of reactor. This glass exudes excellent chemical and physical properties. It is in many times useful for those applications which entail the use of flames and harsh chemicals.
Higher Temperature Rating
100-liter glass reactors have higher temperature ratings. They have the ability to hit a high of 250°C and a low of -60°C. Due to the adaptability to this wide temperature range, the reactor is able to handle tasks that are similarly larger in scope and are unattainable by the ordinary apparatus.
Three-bladed Propeller Structure
To generate the torque necessary for the job, the reactor makes use of some three-bladed propeller structures. These structures are the ones that rotate to produce the torque and also mix the ingredients completely. The three blades see to it that all ingredients are thoroughly and comprehensively mixed.
After you are through with preparing your samples, you will yet again enjoy the benefit of automatic dosing. Simply put: you will not need to expend any effort or wit to have this role performed. Instead, the apparatus in and of itself will do the job for you. This spares you from unnecessary hassles and efforts.
The Specifications of WKIE Lab Glass Reactor
|Reactor Material||High quality borosilicate 3.3 glass|
|Support Frame Material||Stainless steel 304 and coated aluminum|
|Neck No. On Lid||5||6|
|Rotating speed(rpm)||0 ~ 600 (customizable)|
|Power supply||220V or 110V / 50-60HZ|
|Discharge||PTFE (Teflon) bottom discharge valve with no deadspace|
|Pressure Range||Full vacuum to atmosphere|
|Max jacket pressure||0.5 bar|
The Applications of 100L Glass Reactors in Laboratory
1. Cell Culture
Cell culture refers to the growth of cells under controlled atmospheres or conditions. The growth generally happens outside the natural conditions. These bioreactors simulate the natural environments of growth. In this way, they enable you to achieve much the same ends. Given their detached nature, they bring about some convenience.
2. The Concentration of Different Types of Materials
Have some different kinds of materials to handle? You have the 100-liter glass reactors for your leverage. This apparatus indeed provides the space and medium necessary to mix the various ingredients without fail. It neither reacts with nor comprises the reactants in whichever way. In this way, it retains the integrity of the applications altogether.
It is not uncommon for some materials to disappear in the course of a distillation. The reactors are yet again designed to help mitigate these conditions. Courtesy of the process of distillation, these reactors do harness and help with the recovery of the materials that may have been lost in the process.
4. Low-temperature Reactions
Handling chemicals and reactions at extremely low temperatures is never a mean task. It is only by placing your bet on an appropriately structured item like the glass reactor that you may be able to achieve that very end. As noted above, the wide temperature range is the underlying reason.
The Applications of 100L Glass Reactors in Chemistry
Reflux refers to a chemical reaction which is two-fold. This means that on the one hand, it entails the heating while at the same time the cooling of the heated vapor. Only the glass reactors may guarantee this very purpose and need. It comprises a heating chamber and a condensation tube to handle both needs at a time.
2. Synthetic Reactions
Stemming from the reflux method above is the synthetic reactions. The vapors that are generated by the heating is cooled back into liquid when the same is passed through a condensation tube. These reactors go beyond that. They regulate their speeds to allow for smooth conversion from one state to another.
3. Vacuum Distillation
In closing, there is the benefit of vacuum distillation. This one entails the distillation of liquids at pressures that are lower on average. The glass reactors enable you to achieve this feat primarily owing to its ability to reduce the interior pressure. In return, this one also reduces utility bills.
4. Multi-component Reactions
Some chemical reactions entail the use of many components. These are the liquid-liquid, liquid-solid, and the liquid-gas, and so on. Not every other apparatus may yield you the support and environment necessary to handle such kinds of reactions. Only the chemical glass reactors have been noted to do this job.
The Applications of 100L Glass Reactor in Pharma
1. Formulating Drugs
Almost entirely, glass reactors are used to formulate drugs. This simply entails mixing the various ingredients in the desired rations and formulations. The glass reactors create the environment needful for this feat to be achievable. Thanks to their transparent natures, these glasses will let you monitor the progress of the reactions in real-time.
After mixing your chemicals, you definitely want to convert them in a form that is easier to make do with. The crystallization exercise it is. Indeed, these glass reactors are able to aid with the conversion of the solutions into crystalline forms. In these ways, they help with harnessing and harvesting the products.
3. Extraction of Multi-phase Mixture
Some mixtures are multi-phase. That is to means that they convert back and forth between the three main states of matter. These are the solid, liquid and glass. The glass reactors have the ability to extract these kinds of mixtures as well. This stems mainly from their multipurpose and highly versatile nature.
4. Introduction of Gas to Liquid Phase
Yet again, these glasses have a hand in introducing the gas into the liquid phases. They do possess the condensation chambers which basically make this a reality. These chambers cool the hot gases and in doing so, convert the same into liquids. Thereafter, they make it possible for you to handle further reactions.