A glass reactor is a vessel that comes with an agitator and integral heating/cooling system, commonly made of borosilicate glass in sizes ranging from 50ml to 200L.
Toggle Categories
Shortcut
Chat with us for quick and direct communication.
Immediately reply on working days (within 8 hours on holidays)
Glass Reactor
1-5L Jacketed Glass Reactor Vessel Lab Glass Reactor
Item Number : KR-1
1-5L Single Jacketed Glass Reactor Vessel for Lab Use
Item Number : KR-1S
10-50L Jacketed Glass Reactor Vessel for Lab Applications
Item Number : KR-10
10-50L Single Jacketed Glass Reactor Vessel for Lab Applications
Item Number : KR-10S
80-150L Jacketed Glass Reactor Vessel for Lab Applications
Item Number : KR-80
80-150L Single Jacketed Glass Reactor Vessel for Lab Use
Item Number : KR-80S
Lifting Tilting Jacketed Glass Reactor Vessel for Lab Use
Item Number : KR-80L
Liquids or solids are introduced into the reactor via connections at the top cover, while vapors are discharged through the top and wastes from the bottom. Its main advantages are versatility and visibility, as a single vessel system can carry out a sequence of different operations without breaking containment, which is particularly useful for processing toxic or highly potent compounds.
Types of glass reactors
There are different types of glass reactors available, including glass-lined, hydrothermal synthesis, magnetic stirring, electric heating, and steam reactors. However, the most commonly used is the glass reactor due to its advantages, such as no pollution, high temperature and corrosion resistance, hygiene, and fast heating. The basic principle of a glass reactor is to stir the reaction and control the reflux and evaporation of the solution in a sealed container under a set constant temperature and normal or negative pressure.
Applications
The glass reactor finds application in various scenarios, including high temperature reactions (up to 300℃), low temperature reactions (down to -80℃), negative pressure reactions under vacuum, solvent synthesis at a constant temperature, distillation and reflux reactions, vacuum distillation reactions, extraction separation reactions, purified reactions, concentration reactions, and stirring reactions.
Users can adjust the temperature and pressure to suit different experimental environments and requirements. Its versatility makes it useful in various industries, including chemical engineering, pharmaceuticals, and biotechnology. The glass reactor's ability to handle a wide range of chemical reactions and maintain visibility throughout the process makes it a popular choice for research and development.
KinTek glass reactor
We highly recommend our KinTek glass reactor equipment, which boasts a long production history and a complete range of products. Our reactors can be customized to meet the unique needs of each customer, making them suitable for a wide range of applications in industries such as chemical engineering, pharmaceuticals, and biotechnology. Choose KinTek for reliable and customizable glass reactors that meet your specific needs.
FAQ
What Is A Glass Reactor?
A glass reactor is a laboratory instrument used to facilitate chemical reactions. It provides an environment conducive for reactions and holds the reactants in place, while also allowing for easy monitoring of the progress of the reaction. There are two main types of glass reactors: batch reactors and continuous reactors. Batch reactors are smaller in size and can only handle small quantities of reactants, while continuous reactors allow for the pouring of reactants into the reaction chamber continuously and can handle larger volumes of reactants. Glass reactors are used in a variety of applications, from chemical synthesis to environmental and life science research.
What Are The Advantages Of Glass Reactor?
The advantages of glass reactors are their ability to optimize and replicate chemical reactions, and provide a clear view of the reaction process. They are corrosion-resistant, work with different atmospheric pressures and vacuum, and can be used for a variety of applications such as catalytic research, process engineering, and biomass research. Glass reactors are also designed with safety in mind, allowing for safe processing of solvents and acids. Other benefits include the availability of various options such as heating/cooling systems, vacuum pumps, PH probes, and pressure gauges.
What Material Is Glass Reactor?
The glass reactor is made of borosilicate glass and has excellent physical and chemical properties. The borosilicate glass is highly resistant to thermal shock, chemical corrosion, and mechanical impacts, making it ideal for use in laboratory equipment. The glass is also transparent, allowing for easy observation of the reaction inside the vessel. The glass reactor is designed to withstand high temperatures and pressure, and it is used in various industries such as petrochemical, pharmaceutical, and dye, among others.
What Are The Different Types Of Glass Reactors?
Different types of glass reactors include single-layer, double-layer, and three-layer glass reactors. Other types of reactors include glass-lined reactors, hydrothermal synthesis reactors, magnetic stirring reactors, electric heating reactors, and steam reactors. Glass reactors are commonly used in high and low-temperature reactions, vacuum reactions, solvent synthesis at a constant temperature, distillation and reflux reactions, vacuum distillation reactions, extraction separation reactions, purified reactions, and concentration reactions.
What Temperature Should A Glass Reactor Be?
The temperature range of a glass reactor may vary depending on the model and its intended use. In general, glass reactors can operate at temperatures as low as -80°C and as high as 300°C. However, the optimal working temperature will depend on the specific reaction being conducted and the chemicals being used. It is important to carefully monitor and control the temperature of the glass reactor to ensure the safety and effectiveness of the reaction.
REQUEST A QUOTE
Our professional team will reply to you within one business day. Please feel free to contact us!
Related Articles
Choosing the Right Heating Method for Laboratory Experiments
Discusses different heating methods in labs and their suitability for various experiments.
Read more
Basic Laboratory Reaction Equipment
Overview of essential lab equipment for chemical reactions under various conditions.
Read more
Basic Mixing Equipment in the Laboratory
Overview of essential laboratory mixing devices and their functionalities.
Read more
Electric Lab Cold Isostatic Press (CIP): Applications, Benefits, and Customization
Explore the versatile world of Electric Lab Cold Isostatic Press (CIP) technology. Learn about its applications in various industries, benefits, and customization options for tailored solutions.
Read more
Comprehensive Guide to Tube Furnaces: Types, Applications, and Considerations
Delve into the realm of tube furnaces, exploring their types, diverse applications in industries and laboratories, and crucial factors to consider for optimal usage.
Read more
PTFE Cleaning Racks: The Ultimate Guide to Cleaning and Drying Labware
In this comprehensive guide, we'll delve into the world of PTFE cleaning racks, exploring their benefits, applications, and the best practices for cleaning and drying labware to ensure optimal performance and longevity.
Read more
Disc / Cup Vibratory Mill: A Comprehensive Guide to Grinding Equipment
Discover the world of Disc / Cup Vibratory Mills! This guide covers everything from types and features to applications and benefits. Explore the versatility of these mills for grinding various materials in industries like pharmaceuticals, food, and chemicals.
Read more
PTFE Shovel: A Comprehensive Guide to Its Uses, Advantages, and Applications
Discover the versatile applications of PTFE shovels in various industries, including their unique properties, benefits, and real-world examples. Explore the advantages of PTFE shovels over traditional materials and delve into the specific uses in laboratory settings.
Read more
Maximize Rotary Furnace Performance: Design Advancements for Efficient Material Processing
Discover the intricacies of rotary furnaces, exploring their design improvements and applications in advanced materials processing. Learn how these furnaces optimize throughput, energy efficiency, and product quality.
Read more
Rotary Furnaces: A Comprehensive Guide to Advanced Materials Processing
Rotary furnaces are widely used for advanced materials processing due to their versatility, temperature uniformity, and energy efficiency. This guide provides an overview of rotary furnace technology, including its working principle, applications, design improvements, and control systems.
Read more
Unveiling the Versatility of Heated Lab Presses: A Comprehensive Guide
Explore the world of Heated Lab Presses, delving into their types, applications, key features, safety measures, and maintenance tips. Discover how these versatile tools empower laboratories across diverse industries.
Read more
Understanding Cold Isostatic Pressing: Application, Advantages, and Limitations
Cold Isostatic Pressing (CIP) is a widely used manufacturing process in various industries, including ceramics, metalworking, and pharmaceuticals. It involves applying equal pressure from all directions to a material placed inside a flexible mold or bag. This process helps in achieving uniform density and shaping complex components with intricate geometries.
Read more
Comprehensive Overview of Warm Isostatic Press and Its Applications
Warm isostatic pressing (WIP) is a variant of cold isostatic pressing (CIP) that includes a heating element. It employs warm water or a similar medium to apply uniform pressure to powdered products from all directions. WIP is a cutting-edge technology that enables isostatic pressing at a temperature that does not exceed the boiling point of the liquid medium.
Read more
Dilution Ratios for XRF Pelletising Finding the Optimal Balance
XRF analysis is a powerful technique used by researchers and scientists to determine the elemental composition of various materials. One of the most crucial steps in XRF analysis is the preparation of samples for analysis, which often involves creating pellets from powdered samples.
Read more
WIP – Warm Isostatic Press Equipment: Design, Features, and Benefits
KinTek specializes in designing and building Warm Isostatic Presses (WIP) for various applications. These systems can be either gas or liquid pressurized and are commonly used for plastics and laminated products. WIPs are custom-built to accommodate different pressure levels, ranging from low pressure to extreme pressures.
Read more
Mastering the Art of Rotary Evaporation
Rotary evaporation is a technique used in laboratories to remove solvents from samples through the process of evaporation.
Read more
Is a High-Priced Rotavapor Worth the Investment
Rotary evaporators, also known as rotavaps, are essential laboratory equipment used in the chemical, pharmaceutical, and biotech industries for the separation of solvents from a solution.
Read more
Unraveling The Mysteries of Rotary Evaporators Why They're Better
A rotary evaporator, or rotovap, is a laboratory equipment used for distillation of solvents and other compounds. It works by rotating the sample flask, while simultaneously heating it, to evaporate the solvent and separate it from the sample.
Read more
Comprehensive Analysis of the Laboratory Press and Its Key Features
In the world of laboratory research and testing, having a reliable and efficient laboratory press is crucial. Whether you're working with materials testing, sample preparation, or quality control, a laboratory press can greatly enhance your workflow.
Read more
Enhancing Safety in Your Laboratory: A Comprehensive Guide to Pressure Reactor Safety
Laboratory safety isn't just about you. Improper preparation and mishandling can cause potential hazards that could be disastrous if left unchecked. It is crucial to take the time to carefully prepare your pressure reactor and lab safety equipment, as even minor problems can escalate quickly when working under pressure.
Read more