A glass filter reactor is a type of vessel used in the chemical and pharmaceutical industries for various applications that involve solid-liquid separation, such as filtration, crystallization, and extraction. The reactor is typically made of glass and features a filter at the bottom of the vessel, which allows for the separation of solids from liquids or gases. Glass filter reactors offer transparency, corrosion resistance, and ease of cleaning, making them a popular choice for many different types of reactions.
A glass filter reactor is a type of chemical reactor that consists of a glass vessel with a built-in filter. The filter is typically made of a porous material, such as fritted glass or stainless steel, and is located at the bottom of the reactor.
The glass vessel is used to hold the reaction mixture, while the filter is used to separate the solid product from the liquid or gas phase. The filter allows the liquid or gas phase to pass through, while retaining the solid particles. This makes the glass filter reactor particularly useful for reactions that involve solid-liquid separation, such as crystallization or filtration.
The glass vessel and filter are typically connected to a vacuum or pressure source, which can be used to control the flow of material through the reactor. The glass filter reactor is also often equipped with a heating or cooling jacket to control the temperature of the reaction.
Glass filter reactors are commonly used in the chemical and pharmaceutical industries, as well as in academic research laboratories. They are valued for their transparency, which allows for easy monitoring of the reaction progress, as well as their resistance to corrosion and thermal shock.
Model | S-10L | S-20L | S-30L | S-50L | S-100L |
Stirring Power(W ) | 120 | 250 | |||
Stirring Speed(rpm) | 0~600(Max. 1300) | ||||
Stirring Shaft Diameter(mm) | 12 | 15 | |||
Reaction Kettle Capacity(L) | 10 | 20 | 30 | 50 | 100 |
Power Supply | 220V 50/60 Hz | ||||
Motor Torque(g/cm) | 1000 | 1200 | 1500 | 3000 | |
Note | 304 all stainless frame | ||||
Explosion-proof | 1. The stirring power (W): 180, 250, 370 2. Power supply: 220V / 50Hz or 110V / 60Hz | ||||
A crystallization reactor is a type of vessel used in the chemical industry to induce the formation and separation of crystals from a solution or melt. The process is used for a range of applications, from the production of pharmaceuticals to the purification of food ingredients and environmental remediation.
A crystallization reactor is a type of reactor used in the chemical industry to produce crystalline materials. Reactors typically consist of vessels or tanks in which reactants are mixed and heated to induce crystal formation.
Crystallization reactors are used in a wide variety of industries including pharmaceuticals, food processing, chemical synthesis and materials science. They can be operated in batch or continuous mode and various techniques can be used to control crystal growth such as seeding, cooling rate, agitation and solvent selection.
1. Production of high-quality crystals: Crystallization reactors can precisely control conditions such as temperature, pressure, and solvent selection to produce high-quality crystals with desired characteristics such as size, shape, and purity.
2. Efficient use of materials: Crystallization can often be used to purify and recover valuable materials from solutions or melts, resulting in efficient use of resources and less waste.
3. Scalability: The crystallization reactor is easy to expand and can produce large quantities of crystalline materials with stable quality.
4. Flexibility: Crystallization can be applied to a wide range of materials and processes, making it a versatile tool in the chemical industry.
5. Cost-effective: Crystallization is often a cost-effective method of producing high-value materials because the process can be designed to minimize waste and energy consumption.
6. Safety: Crystallization is often a safer alternative than other purification methods because it does not require the use of toxic or hazardous chemicals.
Crystallization reactors can be a valuable tool in the chemical industry, allowing the production of high-quality crystalline materials in a cost-effective and efficient manner.
MODEL | GF-10L/5 | GF-20L/10L |
Material capacity | 10L | 20L |
Jacket capacity | ≈2L | ≈5L |
Receiving flask | 5L | 10L |
Flange diameter | 265mm | 265mm |
Reactor body and cover | Flanged joint, the vacuum degree of machine is -0.098MPA | |
Variable-frequency governor | Digital temperature and rotate speed | |
Rotate speed | 0-400r/min | |
Seal | Self-lubricating mechanical seal | |
Filter base plate | PTFE filter sand core | |
Bore diameter of sand core | 0.1-200μm (Optional) | |
Motor power | 120W/1:3 | |
Power of explosion-proof motor | 180W | |
Voltage | 220V/50Hz which can be customized according to customer requirements | |
Pilot glass reactor is widely used and is a commonly used biochemical instrument in the industry. Therefore, it is widely used in modern fine chemicals, scientific research experiments, biopharmaceuticals, colleges, etc. It is an important tool for teaching, experimentation, production , Ideal equipment for pilot test.
The 5L jacketed glass reactor can carry out stirring reaction under normal pressure or negative pressure according to the requirements of use, and can carry out reflux and distillation of the reaction solution. The dual-window digital display displays the measured values of rotational speed and temperature, with high temperature measurement accuracy and small error, effectively improving work efficiency.
The 50L jacketed glass reactor uses its double-layer glass characteristics to place the reaction materials in the middle interlayer. It can be heated or cooled by stirring the circular reaction under normal pressure or negative pressure. It is a modern biochemical new material. Ideal equipment for synthesis experiments.
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.
| Model | F-1L | F-2L | F-3L | F-5L | F-10L | F-20L | F-30L | F-50L | F-100L |
| Voltage(V) | AC220V | ||||||||
| Mixing power(W) | GM 40W | GM 60W | GM 120W | GM 250W | |||||
| Stirring speed(rmp) | 0~1000 | 60~600 | |||||||
| Capacity(L) | 1 | 2 | 3 | 5 | 10 | 20 | 30 | 50 | 100 |
| Heating power(KW) | 0.4 | 0.8/0.6 | 1.3/1 | 2/1.5 | 3/2 | 4/3 | 5/3.5 | 5/3.5 | 7.5 |
| Temperature using range | 0~250℃ | ||||||||
Tips:
1.Voltage 110V or 380V is available.
2.Stirring power, torgue, refrigeration components can be customized.
3.Cusomized configuration is available.
The 10L rotary evaporator is a commonly used equipment in the laboratory. It is mainly used for continuous distillation of volatile solvents under reduced pressure. It is used in chemistry, chemical industry, biomedicine and other fields.
| Model | RE-1002 | RE-2002 | RE-5002 |
| Rotary Flask(L) | 10 | 20 | 50 |
| Collecting Flask(L) | 5 | 10 | 20 |
| Motor Power(W) | 180 | ||
| Rotating Speed(R/min) | 0~120 | 0~90 | |
| Evaporation Speed(L/H2O) | >3L/h | >5L/h | >9L/h |
| Condenser Cooling Surface(㎡) | 0.57 | 1 | 1.5 |
| Vacuum Degree | 0.098Mpa | ||
| Sealing Mode | PTFE Sealing System | ||
| Water Bath Configuration | Water bath lifting | ||
| Water Bath Power(kw) | 3 | 4.5 | 7 |
| Static Temperature Control Range | 0-99(250)℃ | ||
| Temp Fluctuation/Resolution | ±1/1℃ | ||
| Condenser | Vertical Double Condenser | ||
| Voltage | 220V50HZ | 380V50HZ | |
The rotary evaporator is used for distillation and condensation for solvent in a vacuum condition, so it ususlly works with other ancillary equipments.
1. Circullating Water Vacuum Pump(Desktop type or Vertical type):
Providing a vacuum distillation condition.
2. Cooling Chiller:
Providing low temperature liquid for condensation.
We can ship the goods to you by international express,such as DHL, UPS, TNT and so on. And you can choose the appropriate way based on your timeline and budget. Besides, you can choose to use your own shipping agent.
And we will provide you with worry-free after-sale service.
5L Best Value Electric Lift Rotary Evaporator are distillation units that incorporate an efficient condenser with a rotary flask system. As the flask containing the solvent is rotated it continually transfers a thin layer of liquid over the entire inner surface. This gives a very large surface area for evaporation that is effected by heating from the accessory water or oil bath.
RE-2000 Series Rotary vacuum Evaporator is heated by water bath(oil bath) to form thin film under the negative pressure condition, evaporate, then condense and recycle the solvent simultaneously. The apparatus are particularly suitable for the heat-sensitivity material’s condensation, crystallization, separation, recovery and so on. It is an important instrument for scientifical research, pilot and production in biological pharmacy, chemical engineering and food industries etcused equipment in the laboratory. It is mainly used for continuous distillation of volatile solvents under reduced pressure. It is used in chemistry, chemical industry, biomedicine and other fields.
Function Introduction
| Model | RE-2000A | RE-2000B | RE-2000E |
| Rotating Flask(L) | 2L 29#conical ground joint | ||
| Collection Flask(L) | 1L ball mill mouth | ||
| Motor Power(W) | 40 | ||
| Rotating Speed(R/min) | No Polar 0-200 | digital display 0-200 | LCD 0-200 |
| Lifting Mode | Motor Automatic Lifting | ||
| Lifting Height(mm) | 0~120 | ||
| Water Bath Power(KW) | 1.5 | ||
| condenser | The double backflow integration standard condenser | ||
| Voltage | ~220V 50HZ | ||
| Bath Temp Control Range(℃) | Teflon water bath,digital display water bath temperature, RT~99℃,temperature control accuracy±1℃ | ||
| Water Bath Size | Φ230*130 | ||
| Evaporation Rate(L/H2O) | ≥1 | ||
| External Size(mm) | 550*420*780 | ||
Optional Equipments
Circulating water vacuum pump: Used to provide a vacuum source.
Low temperature cooling liquid circulation pump: For condensation and reducing waste of materials.
Refrigerated Circulator
Circulating Water Vacuum Pump
A refrigerated circulator is a laboratory device that is used to precisely control and maintain the temperature of samples and reactions. It works by circulating a coolant through the system, allowing for efficient heat transfer and temperature regulation. Refrigerated circulators are commonly used in scientific research, chemistry, and other fields that require precise temperature control to ensure accurate and reproducible results.
A refrigerated circulator is a type of laboratory equipment that is used for controlling the temperature of a liquid or a sample. It consists of a pump, a heat exchanger, and a cooling unit that work together to maintain a constant temperature of the liquid in a vessel. The liquid is circulated through the circulator, and the temperature is maintained by cooling the liquid through the heat exchanger and the refrigeration unit.
Refrigerated circulators are commonly used in scientific research, chemistry, and other fields where precise temperature control is required. They are used for a variety of applications, such as cooling reactions, maintaining constant temperature for experiments, and temperature-controlled storage of samples.
The temperature range of a refrigerated circulator varies depending on the model and manufacturer, but most models can achieve temperatures between -20°C to 200°C. Some advanced models also come with additional features such as programmable temperature control, digital displays, and alarms to alert the user in case of temperature fluctuations or failures.
Precise temperature control: Refrigerated circulators can maintain a constant and precise temperature of the liquid, which is critical for many scientific experiments and chemical reactions. This is especially important for experiments that require a specific temperature range, as even small variations in temperature can significantly affect the results.
Versatility: Refrigerated circulators can be used for a wide range of applications, including cooling reactions, maintaining constant temperature for experiments, and temperature-controlled storage of samples. They can also be used with a variety of vessels and containers, such as beakers, flasks, and tubes.
Energy efficiency: Refrigerated circulators are designed to be energy-efficient, with some models incorporating energy-saving features such as automatic shut-off and sleep modes. This can help to reduce energy consumption and lower operating costs.
Convenience: Refrigerated circulators are easy to use and can be set up quickly, with most models featuring user-friendly controls and digital displays. Some advanced models also come with additional features such as programmable temperature control and alarms to alert the user in case of temperature fluctuations or failures.
Improved safety: Refrigerated circulators can help to improve safety in the laboratory by reducing the risk of accidents and explosions that can occur when working with volatile or reactive substances. By maintaining a constant temperature, the risk of overheating or other temperature-related accidents is reduced.
Model | DLSB-20/30 | |
Volume(L) | 24.38 | |
No Load Min. Temp. (℃) | -30 | |
Environment Humidity(%) | ≤70 | |
Power Supply(Single phase)(V/HZ) | 220/50 | |
Temp. Precision(℃) | ±2 | |
Cooling Capacity(W) | 10℃ | 1845 |
0℃ | 1476 | |
-10℃ | 984 | |
-20℃ | 615 | |
-30℃ | 246 | |
Total Power(W) | 1350 | |
Total Current(A) | 7.2 | |
Refrigerant | R404A | |
Circulating Pump | Power(W) | 100 |
Flow(L/min) | 20 | |
Lift(m) | 6 | |
Open Size(mm) | 260×260 | |
Liquid tank(mm) | 290×290×290 | |
Total Demension(mm) | 565×460×845 | |
Weight(Kg) | 60 | |
Fuse | 15A | |
laboratory water circulation pump provides vacuum condition for evaporation, distillation, crystallization, drying, distillation, filtration pressure, vacuum degassing experiments. Especially suitable for colleges and universities, research institutes, chemical, pharmaceutical, biochemical, food, pesticides, agricultural engineering, biological engineering etc industries’ scientific research, pilot and production.
Model | SHZ-C | SHZ-C | SHZ-95B |
Power | 370W | 370W | 370W |
Voltage | 220V/50Hz | 220V/50Hz | 220V/50Hz |
Flow | 80L/min | 80L/min | 80L/min |
Body material | 1cr18 | polypropylene | Anti-corrosive |
Lift | 12M | 12M | 12M |
Max. vacuum | 0.098Mpa | 0.098Mpa | 0.098Mpa |
Sucking rate for single tap | 10L/min | 10L/min | 10L/min |
Quantity of tap | 5pcs | 3pcs |
|
Tank capacity | 50L | 50L |
|
Dimension | 450×340×870 | 450×340×870 |
|
Weight | 37Kg | 37Kg |
|
Security performance | check valve | ||
TIPS: 110V/60Hz is available.
The vacuum pump for laboratory is close to the cavity wall, separating the inlet and exhaust ports, and periodically expands the volume of the intake cavity to inhale air, and periodically reduces the volume of the exhaust cavity to compress the gas. Push open the exhaust valve to exhaust, thereby obtaining a vacuum.
Model | DLSB-20/30 | |
Volume(L) | 24.38 | |
No Load Min. Temp. (℃) | -30 | |
Environment Humidity(%) | ≤70 | |
Power Supply(Single phase)(V/HZ) | 220/50 | |
Temp. Precision(℃) | ±2 | |
Cooling Capacity(W) | 10℃ | 1845 |
0℃ | 1476 | |
-10℃ | 984 | |
-20℃ | 615 | |
-30℃ | 246 | |
Total Power(W) | 1350 | |
Total Current(A) | 7.2 | |
Refrigerant | R404A | |
Circulating Pump | Power(W) | 100 |
Flow(L/min) | 20 | |
Lift(m) | 6 | |
Open Size(mm) | 260×260 | |
Liquid tank(mm) | 290×290×290 | |
Total Demension(mm) | 565×460×845 | |
Weight(Kg) | 60 | |
Fuse | 15A | |
The water vacuum pumps use water as the working fluid, adopt fluidics to form negative pressure. They are widely used in evaporation, distillation, crystallization, filtration, decompression, sublimation and so on. An ideal equipment in universities pharmaceutial, chemical, food processing and other areas in laboratory.
Model | SHZ-C | SHZ-C | SHZ-95B |
Power | 370W | 370W | 370W |
Voltage | 220V/50Hz | 220V/50Hz | 220V/50Hz |
Flow | 80L/min | 80L/min | 80L/min |
Body material | 1cr18 | polypropylene | Anti-corrosive |
Lift | 12M | 12M | 12M |
Max. vacuum | 0.098Mpa | 0.098Mpa | 0.098Mpa |
Sucking rate for single tap | 10L/min | 10L/min | 10L/min |
Quantity of tap | 5pcs | 3pcs |
|
Tank capacity | 50L | 50L |
|
Dimension | 450×340×870 | 450×340×870 |
|
Weight | 37Kg | 37Kg |
|
Security performance | check valve | ||
TIPS: 110V/60Hz is available.
Oil bath circulator is widely used in fine chemical industry, bioengineering, medicine, food, metallurgy, petroleum, agriculture and other fields. It provides users with high-precision constant temperature field source, which is ideal for research institutes, colleges and universities, industrial and mining enterprise laboratories, and quality inspection departments. constant temperature equipment
The oil bath circulator is made of stainless steel plate and mechanical processing technology, and has the characteristics of high temperature resistance and corrosion resistance. The temperature control performance is stable, the heat balance time is short, the temperature fluctuation is small, the uniformity is good, and the LED display is intuitive. It is widely used in laboratories of universities, colleges and universities, environmental protection, scientific research, sanitation and epidemic prevention, petroleum, metallurgy, chemical industry, medical treatment and other units.
The oil bath circulator is a constant temperature device with liquid as the medium commonly used in experimental work. According to the temperature control range, the following liquid media can be used: ethanol or ethanol aqueous solution for -60°C to 30°C; water for 0°C to 90°C; water for 80°C Glycerin or glycerin aqueous solution is used for ~160 degrees; liquid paraffin, cylinder lubricating oil and silicone oil are used for 70 degrees to 300 degrees.
| Model | GYY-100L | |
| Function | Liquid storage volume (L) | 100 |
| No-load maximum temperature(℃) | 200 | |
| Heating power (KW) | 10 | |
| Cycling performance | Power | 220V/50HZ 380V/50HZ |
| Pressure | 1.45Mpa | |
| Cycle way | Sealed magnetic pump cycles | |
| Flow rate | 30-50L/min | |
| Tempe control performance | Temp control range (℃) | Water bath :RT~99 Oil bath :RT~250 |
| Temperature error | ≤2.50% | |
| Working condition | Power | 380/220V 50Hz |
| Humidity | 60% | |
| HTF viscosity | Below 500C℃·S·t | |
| Currents(A) | 10 | |
| Optional Configuration | Explosion-proof motors and electrical | |
| Liner Size (cm) | 50*50 | |
| Overall dimensions (cm) | 90*70*95 | |
| Weight (kg) | 105 | |
Hydrothermal synthesis autoclave reactor vessel is a closed container that can decompose insoluble substances. It can also be used as a reaction vessel with high temperature resistance, high pressure resistance, corrosion resistance and high purity. It is used in petrochemical, biomedical, material science, geochemistry, environmental science, food It is widely used in research and production in science, commodity inspection and other departments.
Hydrothermal synthesis autoclave reactor vessel is a closed vessel capable of decomposing insoluble substances. It can be used for pretreatment of dissolved samples in the analysis of atomic absorption spectroscopy and plasma emission; it can also be used for small-dose synthesis reactions; it can also use the strong acid or strong alkali in the tank and the high temperature and high pressure airtight environment to quickly digest insoluble substances. . Sample pretreatment in chemical analysis methods such as gas phase, liquid phase, plasma mass spectrometry, atomic absorption and atomic fluorescence. It is an assistant for digesting samples when determining trace elements and trace elements. It can be used in the determination of heavy metals such as lead, copper, cadmium, zinc, calcium, manganese, iron, mercury, etc. It can also be used as a reaction vessel with high temperature resistance, high pressure resistance, corrosion resistance and high purity, as well as organic synthesis, hydrothermal synthesis, crystal growth or Sample digestion and extraction, etc. Digest heavy metals, pesticide residues, food, sludge, rare earth, aquatic products, organic matter, etc. before sample pretreatment. Therefore, it is widely used in the research and production of petrochemical, biomedical, material science, geochemical, environmental science, food science, commodity inspection and other departments.
Main technical data:
| Product description | Model | Material | Capacity | Note |
Hydrothermal synthesis reactor | KH-25 | Shell made of high quality stainless steel | 25ml | Safe temperature of 200°C, The top pressure is 3MPa |
| KH-50 | 50ml | |||
| KH-100 | 100ml | |||
| KH-150 | 150ml | |||
| KH-200 | 200ml |
KH series Hydrothermal synthesis reactor is used in catalysis, crystal, polymer and other experiments, it adopts the external heating mode. In order to reduce the size, and be suitable for several reaction kettles working at the same time and same reaction temperature (for example, put several reactors inside the oven for heating), special models can be customized.
KH series hydrothermal synthesis reactor is used to make new synthetic chemicals under a certain temperature and pressure. It is widely used in new materials, energy, environmental engineering and other fields of scientific research and experiments, it is a small commonly used reactor used in teaching and scientific research.
| Product description | Model | Material | Capacity | Note |
Hydrothermal synthesis reactor | KH-25 | Shell made of high quality stainless steel | 25ml | Safe temperature of 200°C, The top pressure is 3MPa |
| KH-50 | 50ml | |||
| KH-100 | 100ml | |||
| KH-150 | 150ml | |||
| KH-200 | 200ml |
Teflon lined stainless steel autoclave is suitable for high temperature and high pressure chemical reaction tests in petroleum, chemical industry, medicine, metallurgy, scientific research, colleges and universities, etc. It can achieve high stirring effect for viscous and granular substances.
| Product description | Model | Material | Capacity | Note |
Hydrothermal synthesis reactor | KH-25 | Shell made of high quality stainless steel | 25ml | Safe temperature of 200°C, The top pressure is 3MPa |
Zhengzhou Keda Machinery and Instrument Equipment Co., Ltd. is a famous manufacturer of lab equipment located in the central China.
The main product is high temperature circulating water/oil bath,rotary evaporator, short path distillation, glass reactor, circulating water vacuum pump, low temperature reaction bath (slot), cooling chiller,drying oven, high-pressure reaction kettle, freeze dryer, water/oil bath, magnetic heating stirrer, hydrothermal synthesis reactor, heating mantle, lift jack, etc. Our company has become a pacesetter of the lab instruments in China.
WBFY~205 microwave chemical reactor applied microcomputer technology and unique technology of microwave adjustment, realizing microwave power continuously adjustable, good repeatability, for experiments that require microwave-assisted catalytic reaction conditions, especially for those who require a smaller microwave power and who wish to maintain continuous microwave radiation chemistry experiments,it’s an ideal lab apparatus.
Product display:
| Model | WBFY-201 | WBFY-205 |
| Rated power consumption(W) | 1100 | 1100 |
| Rated maximum output power(W) | 750 | 650 |
| Maximum input current(A) | 7.8 | 7.8 |
| Operating voltage(V) | 220 | 220 |
| Frequency(Mhz) | 2450±50 | Adjustable size |
| Chamber size(mm) | 330*365*235 | 290*295*190 |
| Packing size (mm) | 480*540*540 | 610*480*550 |
| G.W. (Kg) | 20 | 35 |
There are two model for you choose: WBFY-201,WBFY-205.
If you are looking for microwave chemical reactor, please send your detail inquiry to us,
we’ll give professional products and service you want.
Vacuum distillation is the process of separating the components or substances from a liquid mixture by selective evaporation and condensation under vacuum condition. This Vacuum short path Distillation kit is widely used in Pharmaceutical industry, laboratory fractional distillation and purification, food&beverage industries, essential oils and so on.
Product Application:
The short path distillation is mainly used for enrichment, crystallization, drying, separation, drug, solvent recycling, bio-pharmaceutical industry and others. It is under vacuum conditions, through constant heating,rotating at a constant speed rotation of the bottle, large~area thin film formed on the cylinder walls, and high efficiency. Through efficient glass condenser cooling, recycling collection, and dissolved steam, improve the efficiency of evaporation. Intensive purification of biological products, especially suitable for high~temperature decomposition go bad.
| 5000ml Digital Heating Mantle | Parts number |
| 5000ml 2 Neck Boiling Flask | 1 |
| Short Path Distillation Head | 1 |
| Cow Receiver | 1 |
| 1000ml Round Bottom Flasks | 1 |
| Plastic Keck Clips | 3 |
| Plastic Keck Clips | 7 |
| Cast Iron Stand | 1 |
| Metal Three Finger Clamp | 1 |
We have different distillation volume: 2L, 5L, 10L,20L.
Ancillary equipment:
A small spray dryer is a compact version of a spray dryer used to produce dry powders from liquid feed solutions. It is ideal for small-scale production and research purposes in various industries, including food processing, pharmaceuticals, and materials science. It offers the advantages of a spray dryer in a smaller package, making it a cost-effective solution for those with limited space or production needs.
SD-2L Mini Spray Dryer is a versatile and versatile industrial equipment that uses hot air to convert liquid or semi-solid materials into dry powder. The process involves atomizing the feed material into small droplets, which are then quickly dried with hot air in a drying chamber. The resulting dry powder can be used in various applications such as food processing, pharmaceuticals, chemicals and ceramics.
Mini Spray Dryers are compact, portable versions of traditional spray dryers that offer several advantages for small-scale production and laboratory experiments.
Cost-effective: Mini spray dryers are more cost-effective than traditional spray dryers. They require less energy and are cheaper to operate, making them ideal for small-scale production.
1. High degree of control: The small spray dryer provides a high degree of control over the drying process, allowing precise adjustment of operating parameters such as temperature, airflow and feed rate. This level of control ensures that the final product has the desired properties and meets required specifications.
2. Ease of Operation: The Mini Spray Dryer is easy to operate and requires minimal maintenance. They can be operated by one person and the drying process can be started and stopped quickly.
3. Portable: The mini spray dryer is compact and portable, making it easy to transport from one place to another. They require less installation space and can be used in laboratory or production environments.
4. Versatile use: The Mini Spray Dryer can be used to produce a wide range of products including food, pharmaceuticals, chemicals and ceramics. They are ideal for product development and small-scale production.
5. Fast turnaround time: The mini spray dryer has a shorter turnaround time than traditional spray dryers. They can produce small batches quickly and are ideal for R&D purposes.
Small spray dryers offer several advantages for small-scale production and laboratory experiments. They are cost-effective, easy to operate, portable, versatile and offer a high degree of control over the drying process. These advantages make the mini spray dryer ideal for researchers, product developers and small-scale manufacturers who need to produce small batches of product quickly and efficiently.
Specifications
Inlet air temperature | Room temperature to 300°C |
Outlet temperature | Room temperature to 140°C |
Evaporation | 0-2000ml/h |
Real-time temperature control | ±1℃ |
Display temperature accuracy in real time | 0.1℃ |
Fan power | 0.75kW |
Maximum Drying Air Volume | 105m³/h |
Inverter | 0.75kW |
Total power | 2.2kW/4.4kW/8.8kW 220V |
Dimensions | 650×500×1500(mm) |
A solvent recovery machine is a device that helps recover and recycle solvents used in industrial processes, thereby reducing waste and costs. It involves heating the solvent to vaporize it, cooling and condensing the vapor, separating it from any impurities, and storing it for reuse.
A solvent recovery machine is a device used to recover solvents from industrial processes. Solvent recovery machines are commonly used in industries that use solvents for cleaning, degreasing, and other purposes, such as pharmaceutical, printing, and electronics manufacturing.
Solvent recovery machines separate the solvent from any contaminants or impurities by using a distillation process. The solvent is heated to the temperature at which it evaporates, then passed through a condenser, where it is cooled and condensed back into liquid form. Purified solvents can be reused in the manufacturing process, saving costs and reducing waste.
1. Cost savings: By recycling and reusing solvents, solvent recovery machines can reduce the amount of solvent waste generated, thereby reducing the need to purchase new solvents. This can lead to significant cost savings over time.
2. Environmental Benefits: Solvent recovery machines can help reduce the environmental impact of industrial processes by reducing the amount of solvent waste generated and associated disposal costs.
3. Increased efficiency: Recycling and reusing solvents can increase the efficiency of industrial processes by reducing the time and resources needed to dispose of waste and purchase new solvents.
4. Improved product quality: Recycled solvents may be of higher quality than newly purchased solvents because they have been purified during the recycling process.
5. Compliance with regulations: Using a solvent recovery machine can help businesses comply with environmental regulations related to solvent waste disposal.
Model | Feed capacity (L) | Power supply (ACV) | Power (kW) | Temperature range (℃) | Treatment time (Min.) | Recovery (%) |
T-40Ex | 40 | 380 | 4 | 5~200 | 150 | 95 |
T-60Ex | 60 | 380 | 5 | 5~200 | 180 | 95 |
T-80Ex | 80 | 380 | 6 | 5~200 | 210 | 95 |
T-100Ex | 100 | 380 | 8 | 5~200 | 240 | 95 |
T-125Ex | 125 | 380 | 8 | 5~200 | 240 | 95 |
T-250Ex | 250 | 380 | 16 | 5~200 | 270 | 95 |
T-450Ex | 450 | 380 | 32 | 5~200 | 270 | 95 |
A decarboxylation reactor is a chemical processing apparatus that employs heat and pressure to remove carboxyl groups from organic compounds, altering their properties. It is commonly used in the production of cannabis concentrates, as decarboxylation is necessary to activate the psychoactive compounds in the plant.
A decarboxylation reactor is a chemical reactor used to carry out the decarboxylation process. Decarboxylation is a chemical reaction in which a carboxyl group (-COOH) is removed from a molecule, usually in the form of carbon dioxide (CO2). This reaction is commonly used in the production of various chemicals such as pharmaceuticals, flavors and fragrances.
1. Improve reaction efficiency: The decarboxylation reactor can precisely control the reaction conditions, such as temperature, pressure and reaction time. This improves reaction efficiency and selectivity, resulting in higher yields and better product quality.
2. Faster reaction time: By providing optimal reaction conditions, the decarboxylation reactor can speed up the decarboxylation reaction. This can lead to shorter reaction times and higher throughput for more efficient production.
3. Cost reduction: By optimizing reaction conditions and increasing efficiency, decarboxylation reactors help reduce production costs. Additionally, the use of catalysts in the reactor reduces the amount of reagents required and minimizes waste, further reducing costs.
4. Scalability: Decarboxylation reactors can be designed and operated at various scales, from small laboratory-scale reactors to large industrial-scale reactors. This makes the technology highly scalable and adaptable to different production needs.
5. Improve product quality: The decarboxylation reaction carried out in the reactor can produce products with higher purity and better consistency than traditional methods. This is because precise control of reaction conditions minimizes impurities and variations in product quality
Capacity of kettle body | 50L | 100L |
Motor | 0.75kW | 0.75kW |
Condensation area | 0.75㎡ | 1.1㎡ |
Collection tank | 40L |
|
Equipment size (L*W*H) | 1650*860*2000 mm | 75L |
Circulating water vacuum pump | 1.45kW, 0.87m³/L | |
Electric box | Inverter, switch | |
Heat exchange method | Jacketed circulation, outer 50mm insulation layer | |
Kettle cover | Equipped with vacuum gauge, temperature probe, Liquid inlet, solid inlet, Vacuum port, spare port, sight glass *2 (with light, scraper). The interface size is φ50.5 and the quick-release chuck can also be customized. | |
Jacket import and export | Can be customized according to customer requirements, including outer wire, pagoda mouth, flange, and quick-release chuck. | |
A stainless steel (SS) mixing tank is a vessel used to blend two or more substances to create a uniform mixture in a variety of industries, such as food and beverage processing, pharmaceutical manufacturing, and chemical production. SS mixing tanks offer advantages such as durability, hygienic properties, corrosion resistance, and versatility, making them a popular choice for many applications. The operation of a stainless steel mixing tank typically involves loading, mixing, monitoring, unloading, and cleaning.
A mixing tank is a vessel used to combine two or more substances together to create a homogeneous mixture. In the case of a stainless steel (SS) mixing tank, the vessel is made of stainless steel material.
Stainless steel is a popular choice for mixing tanks because it is durable, easy to clean, and resistant to corrosion. These properties make stainless steel tanks ideal for a variety of applications, including food and beverage processing, pharmaceutical manufacturing, and chemical production.
SS mixing tanks can vary in size and shape depending on the specific needs of the application. They can range from small, laboratory-scale vessels to large, industrial tanks capable of holding thousands of gallons.
The mixing process can be accomplished through a variety of mechanisms, including agitation with mechanical mixers, recirculation with pumps, or by using static mixers. The choice of mixing mechanism will depend on the specific requirements of the application, including the viscosity and density of the materials being mixed.
Durability: Stainless steel is a strong and durable material that can withstand high temperatures, pressure, and chemical exposure without corroding or degrading.
Hygienic: SS mixing tanks are easy to clean and sanitize, making them ideal for use in industries such as food and beverage processing, where hygiene is critical.
Corrosion-resistant: Stainless steel has excellent corrosion resistance properties, making it an ideal material for use in harsh chemical environments.
Aesthetic: SS mixing tanks have a polished, shiny appearance that can enhance the overall aesthetics of a processing plant or laboratory.
Versatility: Stainless steel is a versatile material that can be used to manufacture mixing tanks of various shapes and sizes to suit different applications.
Longevity: SS mixing tanks have a long lifespan, providing a reliable and cost-effective solution for mixing applications.
Recyclable: Stainless steel is 100% recyclable, making it an environmentally friendly choice for manufacturing equipment.
Model | SS-20L |
Capacity | 20L |
Material | 304 stainless steel |
Power supply | 220V/50Hz Single phase electricity |
Stirring power | 550W |
Frequency | 0-100 |
Heating power | 6KW |
Material thickness | 3MM |
Explore the capabilities and advantages of lab emulsifying mixer machines in optimizing laboratory procedures. Learn about their components, applications in various industries, and the benefits they bring to research and development. From pharmaceuticals to cosmetics and beyond, these machines streamline processes and ensure consistent, high-quality results.
In modern laboratory settings, efficiency and precision are of utmost importance. Scientists and researchers rely on advanced equipment to ensure accurate and reproducible results. One such essential piece of equipment is the lab emulsifying mixer machine. Designed to streamline the process of emulsification, this versatile tool plays a vital role in a wide range of scientific applications. In this article, we will explore the functionality, benefits, and various applications of the lab emulsifying mixer machine.
The lab emulsifying mixer machine is a sophisticated piece of equipment that combines and blends immiscible substances, such as oil and water, into a stable emulsion. It utilizes mechanical shear and high-speed rotation to break down and mix the components, creating a uniform mixture with smaller droplet sizes. This process is crucial in various industries, including pharmaceuticals, cosmetics, food and beverage, and scientific research.
The lab emulsifying mixer machine is equipped with a powerful motor that drives the mixing shaft at high speeds, facilitating efficient and rapid mixing. The mixing shaft is designed to withstand the mechanical forces exerted during emulsification, ensuring durability and longevity.
The emulsifying head, also known as the homogenizing head, is a critical component of the machine. It consists of precision-engineered rotor-stator sets that create intense shear forces, effectively reducing droplet sizes and promoting emulsion stability. The design and configuration of the emulsifying head may vary depending on the specific application requirements.
Some lab emulsifying mixer machines feature integrated heating and cooling systems. These systems allow precise temperature control during the emulsification process, ensuring optimal conditions for specific substances and formulations. Temperature control is particularly crucial in industries like cosmetics and pharmaceuticals, where stability and consistency are paramount.
Model | LET-1L | LET-2L | LET-5L | LET-10L |
Power supply | 220V,50/60Hz | 220V,50/60Hz | 220V,50/60Hz | 220V,50/60Hz |
Minimum allowable mixing volume | 300ml | 500ml | 1000ml | 2500ml |
Minimum allowable amount of emulsification | 500ml | 1000ml | 2500ml | 5000ml |
The maximum allowable amount of emulsification | 1000ml | 2000ml | 5000ml | 10000ml |
Working temperature | 170℃ | 170℃ | 290℃ | 290℃ |
Can reach vacuum (Mpa) | -0.097~0.02 | -0.097~0.02 | -0.097~0.02 | -0.097~0.02 |
Maximum processing viscosity (CP) | 100,000 | 100,000 | 200,000 | 300,000 |
Stirring motor power | 90W | 120W | 150W | 180W |
Stirring speed range (rpm) | 0~230 | 0~230 | 0~230 | 0~230 |
Stirring paddle configuration | Anchor screw with scraping wall impeller | |||
Scraper material | Silicone Rubber | |||
Homogeneous motor power | 500W | 500W | 800W | 1050W |
Homogeneous speed range (rpm) | 10000~28000 | 10000~30000 | 10000~30000 | 10000~30000 |
Homogeneous working head configuration | 20DG | 25DG | 25DG | 30DG |
Reactor lid opening | Homogenizer port + hopper port + temperature measuring port + vacuum port + 3 spare ports | |||
Lifting bracket travel | 210 | 210 | 270 | 270 |
The main contact material with the material | SS316L, borosilicate glass, FKM10 | |||
Vacuum port outer diameter | 10 | 10 | 10 | 10 |
Inlet and outlet outer diameter of glass kettle jacket | 12 | 12 | 16 | 16 |
Allowable ambient temperature | 5~40℃ | 5~40℃ | 5~40℃ | 5~40℃ |
Allowable relative humidity | 80% | 80% | 80% | 80% |
Dimensions (mm) | 400*390*780 | 400*390*780 | 480*420*850 | 480*420*850 |
Standard weight (Kg) | 37 | 38 | 45 | 60 |
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