ACHIEVE CHEM, founded in 2008, is a professional manufacturer of single layer glass reactors, jacketed glass reactor, stainless steel reactor, rotary_ evaporator, distillation equipment and other supporting, chemical equipment. The company has multiple technical patents and has successively obtained EU CE certification, IS09001 quality management system certification, and special equipment production license.
Why Choose Us?
High quality
We are committed to providing high-quality and reliable products to our customers. All of our lab chemical equipment is manufactured to the highest standards and undergoes rigorous quality control checks before leaving our factory.
Rich experience
We have more than 10 years of experience in manufacturing laboratory chemical equipment, we have a wealth of knowledge and expertise in this field.
Professional team
We have excellent experts in the industry. Our team of experts are here to help with any questions or concerns you may have.
Customer service
We pride ourselves on providing exceptional customer service before, during, and after your purchase. Our team is always available to answer questions, provide technical support, and ensure that your lab is running smoothly.
What Does Chemical Equipment Include?
Reactor equipment
Reactor equipment is used in chemical processes to carry out various chemical reactions. It typically consists of a vessel, known as a reactor, where the chemical reaction takes place, along with associated components such as stirrers, heating or cooling systems, and instrumentation for monitoring and controlling the reaction. Reactors are used in a variety of industries, including pharmaceuticals, petrochemicals, food and beverage, and more, to produce a wide variety of chemical products. They are designed to ensure efficient mixing of reactants, control the reaction process, and optimize product yield and quality.
Short path distillation
Short path distillation is a special distillation method mainly used for materials with high boiling point, temperature resistance, high molecular weight, and high viscosity. It is also known as molecular distillation or short range distillation. This distillation method can complete the separation process in a very short time, hence it is called "short path". Its working principle is based on the principle of molecular distillation, operating at a short distance between the heating and condensing surfaces to achieve efficient separation.
Laboratory evaporators
Laboratory evaporators are mainly used to continuously distill a large number of volatile solvents under reduced pressure, especially in chromatographic separation, the concentration of extracts and distillation of receiving solution can separate and purify reaction products.
What is Single Layer Glass Reactor?
Single layer glass reactor is an equipment which is a collaboration of vacuum state, distillation, reflux, stirring, oil/water heating, heating mantle. It can do all kinds of biochemical reactions and synthesis reactions at a constant temperature condition. It is also a colsed system on the whole.
Better visibility: Single layer glass reactor provides better visibility of the reaction process. This allows the user to monitor the reaction progress visually, without the need to interrupt or stop the entire process, thus making it easier and quicker to adjust reaction parameters and optimize reaction conditions.
Easy to clean: As compared to multi-layer reactors, single layer glass reactors are easier to clean. Since they have no additional layers, it is simple and straightforward to access all parts of the reactor.
Reliable and safe: Single layer glass reactors are reliable and safe to operate. They are made from high-quality materials that are resistant to thermal or chemical shock. This reduces the likelihood of accidents and ensures that the reaction can be carried out without any unexpected interruptions.
Cost-effective: Single layer glass reactors are generally more affordable than their multi-layer counterparts. This makes them a more attractive option for researchers and scientists who are working with a limited budget.
Versatile: Single layer glass reactors are versatile and can be used for a wide range of applications, including chemical synthesis, reaction screening, and process optimization.
● Check the instrument carefully before use. Whether the glass bottle is damaged and whether the interfaces are consistent, please handle it gently.
● Wipe each interface with a soft cloth (can be replaced with a napkin), and then apply a little vacuum grease. (be sure to cover the vacuum grease after use to prevent dust from entering.)
● The ports of the glass reactor should not be screwed too tightly, and should be loosened regularly to avoid long-term locking to cause the connector to seize.
● Turn on the power switch first, then let the machine run from slow to fast, and then turn off the switch when the machine is stopped.
● The PTFE switches everywhere can't be tightened with excessive force, it is easy to damage the glass.
● After each use, you must use a soft cloth to wipe off all kinds of oil stains, stains, and solvent remaining on the surface of the machine to keep it clean.
● Loosen each PTFE switch after the machine stops, and the PTFE piston will be deformed if it is in the working state for a long time.
● Clean the sealing ring regularly by removing the sealing ring, checking whether there is dirt on the shaft, wiping it with a soft cloth, applying a little vacuum grease, and reinstalling it to keep the shaft and the sealing ring smooth.
● The electrical parts must not be exposed to water, and it is strictly forbidden to get wet.
● It is necessary to purchase original parts from the factory. Using other parts at will can cause fatal damage to the machine.
● When doing any repairs or inspections on the glass reactor, be sure to cut off the power and water source first.
Short path distillation is a process used to separate and purify liquid materials based on their boiling point. It is a type of distillation technique that involves a short path, or a short distance, between the evaporator and the condenser. During the process, the liquid material is placed in a flask and heated until it evaporates. The vapors are then condensed and collected in a separate flask, leaving behind the impurities and other low-boiling components. This process is commonly used in the production of high-quality and pure cannabis extracts, essential oils, and other chemical substances.
6 Advantages of Short Path Distillation
You can benefit from making the switch to short path distillation, as this method can lead to a more seamless production cycle. Here are specific advantages to utilizing short path distillation.
Continuous feed
The continuous feed functionality of short path distillation is a valuable feature not many other distillation methods can offer. Its highly accurate evaporation system needs fewer instances of high temperature to extract the same volume of a product. As a result, you can achieve greater production scalability, which isn't typically possible with batch mode stills.
Faster completion time
Short path distillation is more advantageous than other methods like simple distillation. By utilizing short path distillation, you can achieve separation in seconds without compromising product quality thanks to its implementation of vacuum pressure, making it ideal for industries with time-sensitive materials and production cycles.
For comparison, simple distillation is faster and needs less energy when separating liquids than fractional distillation. However, its main drawback is that simple distillation is less efficient and limited to mixtures containing only one volatile component.
Automated and easy to use
Short path distillation is easy to use, unlike most conventional distillation strategies requiring bulky and intricate machinery. Simple and compact equipment is enough for short path distillation to produce high-quality distillate levels.
In addition, you can find short path distillation equipment with an automation feature capable of continuous feeding, which is crucial to high quantity distillate production while maintaining consistency, purity, and potency. This ability to automate processes contributes to overall volume increase and scalability.
Ideal for compounds that are unstable at high temperatures
Some compounds need high temperatures for effective separation. However, exposure to higher temperatures may cause some elements to become unstable. Short path distillation mitigates this risk by reducing a compound's boiling point through vacuum pressure.
Produces high concentrations of distillates
If you're looking to produce a purified cannabidiol product, then implementing short path distillation in your processes will allow you to do so. A short path distillation system separates CBD and tetrahydrocannabinol, resulting in 99% pure cannabis distillates.
Reduced product waste
Fractional distillation minimizes compounds lost on the fringes of the apparatus. That is thanks to the short path the compounds have to travel from one instrument to another – from the heated flask to the condensation tube – which leads to less product wastage involving expensive compounds that require distillation.
5 Industries That Utilize Short Path Distillation
The distillation method's ability to produce high-quality concentrates quickly is one of the main reasons some industries with intricate processes choose the system. Here are some sectors that utilize short path distillation.
Chemistry labs
Chemistry labs primarily use short path distillation for chemical purification and separating compounds to obtain specific components by subjecting mixtures to high-vacuum conditions, resulting in reduced pressure.
Perfume labs
Distillation remains the primary technique in traditional perfume production. Extraction through distillation has been around for centuries, as producers would use distillation to treat specific flower petals, bark, seeds, leaves, and roots.
Cannabidiol labs
Cannabidiol labs often choose short path distillation as it presents a cost-efficient method of separating cannabinoids, terpenoids, contaminants, and flavoring chemicals. Short path distillation does not require the addition of solvents to activate the distillation process.
Petroleum refineries
Petroleum producers separate hydrocarbon chains to refine crude oil into valuable petroleum products using short path distillation to divide, split, and even combine these chains.
Petrochemical and chemical plants
Extracting petrochemicals involves significant energy consumption and a distillation phase to separate hydrocarbons from fossil fuels, which are the primary source of petrochemicals like natural gas and crude oil. The extracted hydrocarbons would then be sent to chemical plants to turn into valuable chemicals known as a feedstock.
What is Laboratory Evaporators?
Laboratory evaporators are instruments that are used to remove or evaporate solvents or liquids from samples to produce a concentrated solution or solid materials. They are extensively used in chemical, pharmaceutical, and biotechnology laboratories. Different types of laboratory evaporators are available, including rotary evaporators, vacuum evaporators, nitrogen evaporators, and freeze-dryers. These instruments operate using various mechanisms, including heat, vacuum, and pressure, to facilitate the evaporation process. They are crucial instruments in the preparation of samples for further experimentation and analysis.
Advantages of Laboratory Evaporators
Increased efficiency
One of the primary advantages of laboratory evaporators is that they increase the efficiency of the evaporation process. They are designed to remove solvent from samples quickly and effectively, reducing the time required for analysis.
Improved purity
Laboratory evaporators can improve the purity of samples by removing residual solvent or impurities before analysis. This ensures that the resulting data is accurate and reliable.
Versatility
Laboratory evaporators come in various sizes and configurations, making them suitable for use across a range of scientific fields, from chemistry to biology and beyond.
Cost-effective
In addition to being time-efficient, laboratory evaporators can also save money by reducing the need for expensive chemical reagents or solvents.
Increased control
Laboratory evaporators offer greater control over the evaporation process, allowing scientists to fine-tune parameters such as temperature, pressure, and flow rate.
Ease of use
Modern laboratory evaporators are designed with user-friendliness in mind, making them easy to operate and maintain.
High throughput
Some models of laboratory evaporators are capable of handling multiple samples at once, making them ideal for high-throughput applications or large-scale synthesis.
Reduced risk
By automating the evaporation process, laboratory evaporators can reduce the risk of human error or contamination, ensuring the safety of both researchers and samples.
Laboratory evaporators are used to remove liquids from preparations that need to be dry. Many industries use laboratory evaporators to prepare samples for analysis. The pharmaceutical, food, petroleum industries, and chemical laboratories all use evaporators for this reason. There are laboratory evaporators that are used to remove organic solvents and some that remove water. Laboratory evaporators use motion, gas, heat, or some combination to produce a dry sample ready for analysis, and are an important piece of equipment for many labs.
FAQ
Q: What is the short path of fractional distillation?
Q: How long does short path distillation take?
Q: What does a stainless steel reactor do?
Q: Why are reactors made of stainless steel?
Q: What is the capacity of a stainless steel reactor?
Q: What does a glass reactor do?
Q: What is the use of evaporator in laboratory?
Q: What is the significance of evaporation in the laboratory?
Q: What is evaporator and how it works?
Q: How do you evaporate liquid in a lab?
Q: What is the importance and benefits of evaporation?
Q: Is evaporation a lab technique?
Q: What are the features of a single layer glass reactor?
Q: How does a single layer glass reactor work?
Q: What are the applications of a single layer glass reactor?
Q: How do I choose the right single layer glass reactor?
Q: What is the difference between short path distillation and other types of distillation?
Q: What safety precautions are necessary when using short path distillation?
Q: What is the difference between short path distillation and other types of distillation?
Q: What types of compounds can be purified using short path distillation?
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