Reactor

Your Professional Reactor Supplier

Since its establishment, Gaokangmedical-lab has developed into a comprehensive enterprise integrating chemical equipment R&D, production and process customization through continuous technological innovation and market expansion. The company is committed to the research and development and production of low-temperature extraction equipment for fats and oils, and undertakes complete sets of equipment for fats and oils.The main mechanical equipment includes subcritical extraction equipment, functional oils and fats equipment, plant protein equipment, marigold lutein equipment, etc.

Why Choose Us

Our Certificate
The company has passed ISO9001 quality management system certification, EU CE, SGS, TUV and other certifications.

Production Equipment
Gaokangmedical-lab has introduced world-class automated production equipments and production technologies, and continuously expanded its production capacity to meet customers' demands. The investment of advanced production equipment and software facilities makes the enterprise more internationalized and standardized.

Product Application
Since its inception in the fine chemicals, pharmaceuticals, plant extracts, biological preparations for the majority of customers to provide technical support and solution development. The company adheres to the principle of product-based, customer-first, to the material product characteristics as a reference benchmark, to develop the overall process solutions. The products are widely used in laboratories, scientific research institutions, universities, chemical enterprises, hospitals, new energy, agriculture, food, metallurgy, mining, construction, petroleum and other industries.

Good Service
Gaokangmedical-lab High-quality after-sales service, tracking usage, and positive feedback. Rapid response within 24 hours.

Stainless Steel Blending Tanks
In the pharmaceutical field ,Stainless steel blending tanks is used to WFI water with Pharmaceutical API together according to the technological proportions.
read more
Pharmaceutical Mixing Tank
Pharmaceutical mixing tank is a core equipment in the pharmaceutical production process, used to achieve efficient, uniform and safe mixing of raw materials, excipients and solvents, and to meet...
read more
Chemical Synthesis Reactors
Chemical synthesis reactors Specification:
(1)1L/2L/3L/5L---Standard
(2)10L/20L/30L/50L/100L---Standard/EX-proof/Lifting Kettle
(3)150L/200L---Standard/EX-proof
read more
Pharma Reactors
Pharma reactors are the core equipment for processes such as the synthesis of active pharmaceutical ingredients (APIs), cell culture in biopharmaceuticals, and extraction and purification of...
read more
Crystallizer Reactor
Our Crystallizer Reactor is engineered for reaction-driven crystallization, offering precise control over coupled processes and delivering consistent, high-purity solid products. Need a solution?
read more
Ultrasonic Reactor For Liquid
Our ultrasonic reactor for liquid processing intensifies mixing and reactions with powerful cavitation. This versatile system boosts efficiency in chemical, biofuel, and wastewater applications....
read more
Stainless Reactor
We build custom stainless reactor. Tailored to your volume, material (304/316L), and temperature needs (-120°C to 300°C). Choose from 5L to 200L sizes with reliable sealing and stirring. Email...
read more
High Pressure Reactor
GK Series High Pressure Reactor engineered for demanding applications. Offering volumes from 300L to 5000L with robust ASME-certified construction, precise pressure control (≤0.2 MPa), efficient...
read more
Small Lab Incubator
Small lab incubator is key pieces of equipment used for microbiological, cell and tissue cultures, providing a stable environment for experiments by precisely controlling temperature, humidity...
read more
Chemical Reaction Tank
Chemical reaction tank is a kind of equipment used to carry out chemical reaction, which is widely used in petroleum, chemical industry, food, medicine, metallurgy, pharmacy and other fields.
read more
Teflon Lined Stainless Autoclave
teflon lined stainless autoclave Applications in High-Pressure Reactions Safety and Control High-Pressure, High-Temperature Resistance
read more
High Pressure Hydrothermal Autoclave Reactor
High Pressure Hydrothermal Reactor is widely used in scientific laboratories, R&D laboratories, institutional organisations, industrial quality analysis departments etc. It is mainly used for...
read more

First 12 3 Last

Types of Reactor

Batch Reactors
Batch reactors are the simplest type of reactors that operate in a discontinuous mode. In these reactors, the reactants are added to the reactor vessel, and the reaction proceeds until the desired conversion is achieved.

Continuous Stirred Tank Reactors (CSTR)
Continuous stirred tank reactors are the most common type of reactor used in the chemical industry. These reactors operate in a continuous mode and have a well-designed stirring system for mixing the reactants uniformly.

Plug Flow Reactors (PFR)
Plug flow reactors are used for chemical reactions that require a high degree of uniformity in terms of the reaction rate and heat transfer. In these reactors, a continuous stream of reactants flows through a tube or a series of tubes, with the reactants undergoing the reaction as they flow through the tube.

Fixed Bed Reactors (FBR)
In a fixed bed reactor, the catalyst is packed in a bed, and the reactants are passed through the bed. The reaction takes place on the surface of the catalyst, and the heat transfer is mainly by convection.

Fluidized Bed Reactors (FBR)
Fluidized bed reactors are characterized by the presence of a bed of solids that is fluidized by a gas or a liquid. The reactants are introduced into the fluidized bed, and the reaction takes place on the surface of the catalyst.

The Parameters For Reactor Design

Reactant Compatibility
The material of the reactor must be compatible with the reactants to prevent contamination or corrosion. This directly impacts the purity and yield of the reaction.

PAT Integration
Process Analytical Technology (PAT) is integrated into reactor design to enable real-time monitoring and control of the reaction process.

Size and Volume
The size and volume of the reactor are determined by the scale of the reaction and the available space. This ensures that the reactor is neither too large nor too small.

Agitation and Mixing
For reactions that require agitation, the reactor must be equipped with a stirring mechanism or impeller. This ensures that the reactants are uniformly mixed.

Vessel Material and Safety
The choice of vessel material is influenced by the need for corrosion resistance and durability, especially under high-pressure conditions.

Temperature Regulation
Effective temperature control is vital for the optimal performance of chemical reactions. Modern reactors are equipped with automated systems that facilitate fast and easy temperature regulation.

Discharge Valves and Control
Discharge valves are essential components in reactor design, particularly for managing volume changes during reactions.

Understanding Custom Reactor Design

Custom reactor design is a fundamental aspect in the development of highly efficient industrial applications. Through tailored solutions and bespoke reactor design, manufacturers can optimize performance and reduce operational costs.

A key component of custom reactor design is reactor fabrication. Fabrication techniques are vital in ensuring that the reactor meets industry-specific demands while maintaining optimal functionality.

The design of custom reactors is unique to each industrial application. Industrial reactor design involves the integration of various components such as pumps, heat exchangers, and pressure vessels. Each component must be calculated carefully to ensure optimal performance.

The benefits of bespoke reactor design cannot be overstated. By utilizing specialized reactor design services, manufacturers can achieve unique solutions that address specific challenges in their processes. Custom reactor fabrication ensures that the reactor is tailored to the required specifications and has the desired functionality.

Understanding the fundamental aspects of custom reactor design is crucial in achieving optimal performance in industrial applications. Effective reactor fabrication techniques, tailored solutions, and bespoke reactor design are essential in delivering operational efficiency and cost-effectiveness in manufacturing processes.

Application of Reactor

Motor control: Reactors are used in motor control circuits to limit the inrush current and to protect the motor from voltage spikes.

Lighting systems: Reactors are used in lighting systems to reduce the flicker caused by variations in the power supply.

Welding machines: Reactors are used in welding machines to provide a stable welding current and to prevent voltage surges.

Power factor correction: Reactors are used in power factor correction circuits to improve the power factor of electrical systems.

Harmonic filtering: Reactors are used in harmonic filtering circuits to reduce the harmonics generated by non-linear loads.

Frequency converters: Reactors are used in frequency converters to filter out high-frequency noise and to protect the converter from voltage spikes.

Industrial equipment: Reactors are used in various types of industrial equipment to provide a stable power supply and to protect the equipment from voltage fluctuations.

FAQ

Q: What is the primary purpose of a reactor?

A: The main job of a reactor is to house and control nuclear fission—a process where atoms split and release energy. Fission and Fusion: What is the Difference? Reactors use uranium for nuclear fuel. The uranium is processed into small ceramic pellets and stacked together into sealed metal tubes called fuel rods.

Q: What is a reactor job?

A: What they do: Operate or control nuclear reactors. Move control rods, start and stop equipment, monitor and adjust controls, and record data in logs. Implement emergency procedures when needed.

Q: How does a reactor work?

A: The water from the condenser is pumped directly into the reactor vessel for a BWR, or into the steam generators for a PWR. So there you have it: the nuclear reaction heats the fuel, the fuel heats the water to make steam, the steam spins the turbine, the turbine turns the generator, and the generator makes electricity.

Q: Where are reactors used?

A: Reactors are used in transmission substations to limit current flow between transmission lines and the ground. Shunt reactors and series reactors are the two main types of reactors used in transmission substations. Shunt Reactors: A shunt reactor is a reactor that is connected in parallel with a transmission line.

Q: What is the function of the reactor?

A: A nuclear reactor is an essential part of a nuclear power plant. It is the place where the nuclear chain reactions take place that produce energy by fission. The heat thus produced can be used to produce electricity. The main purpose of a nuclear reactor is to contain and control the amount of energy released.

Q: How long can a reactor last?

A: Generally speaking, early nuclear plants were designed for a life of about 30 years, though with refurbishment, some have proved capable of continuing well beyond this. Newer plants are designed for a 40 to 60 year operating life.

As one of the leading reactor manufacturers and suppliers in China, we warmly welcome you to buy high-grade reactor made in China here from our factory. All machines are with high quality and competitive price.