TOPTION is a leading manufacturer and supplier of advanced laboratory equipment, known for its commitment to quality and innovation. Our High-Pressure Glass Reactors offer reliable and efficient solutions for various chemical and pharmaceutical applications. Designed with precision and engineered for exceptional performance, our reactors provide a safe and controlled environment for high-pressure reactions.
Premium Quality Materials: Our High-Pressure Glass Reactors are constructed using high-quality borosilicate glass, renowned for its excellent chemical resistance, thermal stability, and transparency. The robust glass ensures durability and allows for easy monitoring of the reaction process.
Enhanced Safety Features: Safety is a top priority in laboratory settings. TOPTION's reactors are equipped with safety measures such as pressure relief valves, rupture discs, and secure sealing systems to prevent accidents and maintain a secure operating environment.
Wide Pressure and Temperature Range: Our reactors are designed to withstand high pressures up to several hundred bar, making them suitable for a broad range of high-pressure applications. They can handle temperatures ranging from -80°C to 300°C, providing versatility for various reaction conditions.
Customizable Configurations: TOPTION offers a range of customizable options to meet specific research requirements. Customers can choose from different vessel volumes, stirring configurations, temperature control systems, and accessories, tailoring the reactor to their unique needs.
User-Friendly Design: Our High-Pressure Glass Reactors feature intuitive interfaces and user-friendly controls, ensuring ease of operation. The reactors are designed to facilitate convenient access for sample loading and maintenance tasks, enabling efficient workflows.
Reliable Pressure Control: Precise pressure control is essential for reproducible results. TOPTION's reactors incorporate advanced pressure regulation systems, allowing accurate adjustment and control of pressure during the reaction process.
Easy Scale-Up: With TOPTION's High-Pressure Glass Reactors, scaling up from laboratory to industrial production becomes seamless. The reactors can be integrated with various process automation options and accessories, simplifying the transition from research and development to large-scale production.
Application Versatility: Our reactors are suitable for a wide range of applications, including chemical synthesis, catalysis, polymerization, hydrothermal reactions, supercritical fluid extraction, and more. They can be utilized in academic research, pharmaceutical development, petrochemical industries, and other scientific fields.
►Chemical Synthesis: High-pressure glass reactors are widely used in chemical synthesis processes, allowing researchers to perform reactions under controlled pressure and temperature conditions. They enable the study of various chemical reactions, such as hydrogenation, oxidation, polymerization, and more.
►Catalysis: Catalytic reactions often require precise control of pressure and temperature. High-pressure glass reactors provide an ideal environment for investigating and optimizing catalytic processes, enabling researchers to explore new catalysts, reaction mechanisms, and reaction kinetics.
►Hydrothermal Reactions: Hydrothermal synthesis involves reactions at elevated temperatures and pressures in an aqueous environment. High-pressure glass reactors are well-suited for conducting hydrothermal reactions, such as the synthesis of nanoparticles, zeolites, and other materials with unique properties.
►Supercritical Fluid Extraction: High-pressure glass reactors are used in supercritical fluid extraction processes, which involve utilizing supercritical fluids (such as carbon dioxide) to extract target compounds from solid matrices. These reactors enable precise control of pressure and temperature, facilitating efficient extraction processes.
①Vessel Volume: TOPTION offers a range of vessel volumes to suit different research needs. Customers can choose reactors with varying capacities, from small-scale laboratory setups to larger volumes suitable for pilot-scale or industrial applications.
②Stirring Configurations: TOPTION provides customization options for the stirring system within the reactors. Users can select different types of impellers, such as anchor, turbine, or magnetic stirrers, depending on their specific mixing requirements.
③Temperature Control Systems: High-pressure glass reactors can be equipped with various temperature control options, including external circulators, electric heaters, or heat transfer fluids. Customizable temperature control systems ensure precise regulation of the reaction temperature, even at high pressures.
④Accessories and Integration: TOPTION offers a range of accessories and optional features to enhance the functionality and versatility of the High-Pressure Glass Reactors. These may include additional ports for sampling, in situ monitoring, gas/liquid feeding, reflux, condensation, or integration with automation systems for data logging and control.
⑤Safety Features: TOPTION prioritizes safety and can customize the reactors with additional safety features based on specific requirements. These may include pressure relief valves, rupture discs, over-temperature protection, automated shutdown systems, or other safety interlocks to ensure safe operation.
⑥Process Automation: TOPTION provides options for integrating the High-Pressure Glass Reactors with process automation systems. This enables precise control and monitoring of reaction parameters, as well as the ability to create complex reaction profiles, automate data collection, and streamline process optimization.
TOPTION's High-Pressure Glass Reactors combine advanced technology, superior materials, and a user-centric design to provide researchers and scientists with reliable and efficient tools for high-pressure reactions. With a commitment to quality and customer satisfaction, TOPTION continues to be a trusted partner in the scientific community, offering innovative solutions for laboratory processes and beyond.
Functions and Maintenance of Double Glass Reactor
Double-layer glass reactor is a common reaction instrument in modern laboratories, capable of carrying out reaction experiments such as concentration, distillation, reflux, separation and purification under the scenario of constant speed and temperature, which is an ideal instrument and equipment for experimental production in biopharmaceuticals and colleges.
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Jacketed Reactors: the Core of Chemical Process Systems
Scientific glass equipment is widely used in lab and commercial lab, chemical research laboratories as well as procedure plants where pilot plants are used to record process information. The reactor is an important component of almost all chemical procedure devices as well as is appropriately called the "heart" of the system, as it is one of the most critical element.
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Five Key Advantages of Using Glass Jacketed Reactors
Traditionally, manufacturing processes were initially developed in round-bottom laboratory flasks and then transitioned to small-scale production reactors once the process was ready for testing. Jacketed glass reactors offer a unique alternative, and we will discuss five key advantages of using glass jacketed reactors for development for scale-up testing and how they may benefit your company.
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The Key Uses of Jacketed Reactors
Jacketed reactors enhance temperature control and thus improve product quality. They are used in a variety of applications from pharmaceuticals to engine oils. They control the heat of exothermic reactions or reduce the viscosity of highly viscous liquids.
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Jacketed glass reactor for pharmaceutical industries
The picture below is a complete set of jacketed glass reactors customized by our old customers in the pharmaceutical industry, including high temperature heating circulators, low temperature chillers, high and low temperature integrated refrigerated heating circulators, vacuum pumps and vacuum controllers.
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Biomass extraction to distillate pure cbd oil turnkey solution
The picture below is a complete set of cbd oil extraction/distillation program customized by us for American customers, which uses low-temperature alcohol extraction to extract crude oil from dried hemp biomass, two-stage stainless steel filter for filtration / dewaxing
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Application examples for different products and industries
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Molecular distillation machine for cbd oil full spectrum distillate
The picture below is a set of three-stage 12 inch stainless steel molecular distillation equipment customized for an American customer, with UL certification motor and UL verified gear pumps, support 24h/7days automatic and continuous operation
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Glass reactors are available in a range of sizes, from small benchtop units to large industrial reactors.
Jacketed glass reactors are designed for synthetic reaction of different types of materials in a controlled temperature and vacuum environment. Each reactor features adjustable stirring speeds and a constant pressure feeding funnel that allows you to add material to the vessel at a uniform and controlled speed.
Glass reactors are used for chemical reactions and are made of high-quality borosilicate glass, which is resistant to thermal shock and chemical corrosion.
Single-layer glass reactors are suitable for simple reactions and have a low cost.
Glass reactors can be used in scientific research to explore new chemical reactions and phenomena.
Photocatalytic glass reactors are used for reactions that require UV light and can be used for photochemical synthesis.
Glass reactors can be cleaned using a variety of methods, including detergent solutions, solvents, and ultrasonic cleaning.
Glass reactors are used in chemical reactions, including polymerization, crystallization, and distillation.
Jacketed glass reactors have an external layer that provides extra insulation and can be used for reactions that require temperature control.
Glass reactor accessories include stirrers, condensers, heating mantles, and thermometers.
Glass reactor thermometers are used to monitor the temperature of the reaction and ensure that it stays within a safe range.
Glass reactors can be optimized to improve the efficiency and yield of a reaction.
5L spray drying 