Shilpa Enterprises

• Safe temperature - 200 degree C
• Max Operating Temp. - 240 degree C
• Safe perssure - 3-5 bar
• Teflon Inner lined vessel

Additional Information:

• Item Code: AUTO50X
• Pay Mode Terms: L/C (Letter of Credit),T/T (Bank Transfer),D/P,D/A,Other
• Port of Dispatch: Nagpur
• Production Capacity: 1000
• Delivery Time: 7-9 days
• Packaging Details: Excellent 4 Layer Packing Moisture free & shock absorbance

Teflon Lined Hydrothermal Autoclave

Since the incorporation of our organization, we are offering Teflon Lined Hydrothermal Autoclave to our clients. This Teflon Lined Hydrothermal Autoclave has developed by using stainless steel which has procured from reliable vendors of the industry. This Teflon Lined Hydrothermal Autoclave is perfectly designed and has the robust construction as well. This Teflon Lined Hydrothermal Autoclave had precise dimensions and offered in best range to our clients. Apart from this, we are offering this autoclave at the suitable price.

Features:

• Robust design
• Optimum finish
• Easy installation

• Safe Temperature: - 200°C
• Max Operating Temperature - 240°C
• Working Pressure: ≤ 3MPa (Pressure Gauge)
• Heating and Cooling Rate: ≤5°C/min
• Material: Shell made of high-quality stainless steel
• Inner Shell - Teflon or PTFE liner

Additional Information:

• Item Code: SE-AUTO50X
• Pay Mode Terms: L/C (Letter of Credit),T/T (Bank Transfer),D/P,D/A,Other
• Port of Dispatch: Nagpur
• Production Capacity: 500 per month
• Delivery Time: 3-4 Days
• Packaging Details: We dispatched the product with our Excellent packing in the double corrugated boxes

Features:

• Easy to use
• Impeccable finish
• Less maintenance
• Teflon or PTFE lined inner reactor
• Max Operating temperature - 200 degere C
• Max operating pressure - 3KP

Additional Information:

• Item Code: Autoclave-008
• Pay Mode Terms: L/C (Letter of Credit),T/T (Bank Transfer),D/P,D/A,Other
• Port of Dispatch: Nagpur
• Production Capacity: 1000
• Delivery Time: 4-5 days
• Packaging Details: Excellent 4 Layer Packing Moisture free & shock absorbance

SS Hydro Thermal Autoclaves

Since the incorporation of our organization, we are offering SS Hydro Thermal Autoclaves to our clients. This SS Hydro Thermal Autoclaves has been developed by using stainless steel which has been procured from reliable vendors of the industry. This SS Hydro Thermal Autoclaves is perfectly designed and has robust construction as well. This autoclave has precise dimensions and is offered in best range to our clients. Apart from this, we are offering this autoclave at suitable price.

Features:

• Robust design
• Optimum finish
• Easy installation

• Safe Temperature: - 180°C
• Max Operating Temperature - 220°C
• Working Pressure: ≤ 3MPa (Pressure Gauge)
• Heating and Cooling Rate: ≤5°C/min
• Material:Shell made of high quality stainless steel
• Inner Shell - Teflon or PTFE liner

Additional Information:

• Item Code: Autoclave-006
• Pay Mode Terms: L/C (Letter of Credit),T/T (Bank Transfer),D/P,D/A,Other
• Port of Dispatch: Nagpur
• Production Capacity: 1000
• Delivery Time: 4-5 days
• Packaging Details: Excellent 4 Layer Packing Moisture free & shock absorbance

PTFE Lined Hydrothermal Autoclave

Since the incorporation of our organization, we are offering PTFE Lined Hydrothermal Autoclave to our clients. This PTFE Lined Hydrothermal Autoclave has developed by using stainless steel which has procured from reliable vendors of the industry. This PTFE Lined Hydrothermal Autoclave is perfectly designed and has the robust construction as well. This autoclave had precise dimensions and offered in best range to our clients. Apart from this, we are offering this autoclave at the suitable price.

Features:

• Robust design
• Optimum finish
• Easy installation

• Safe Temperature: - 200°C
• Max Operating Temperature - 240°C
• Working Pressure: ≤ 3MPa (Pressure Gauge)
• Heating and Cooling Rate: ≤5°C/min
• Material: Shell made of high-quality stainless steel
• Inner Shell - Teflon or PTFE liner

Additional Information:

• Item Code: AUTO200X
• Pay Mode Terms: L/C (Letter of Credit),T/T (Bank Transfer),D/P,D/A,Other
• Port of Dispatch: Nagpur
• Production Capacity: 500 per month
• Delivery Time: 3-4 Days
• Packaging Details: We dispatched the product with our Excellent packing in the double corrugated boxes.

• No maintenance
• Different sizes
• Shock free

• Safe Temperature: - 180°C
• Max Operating Temperature - 220°C
• Working Pressure: ≤ 3MPa (Pressure Gauge)
• Heating and Cooling Rate: ≤5°C/min
• Material:Shell made of high quality stainless steel
• Inner Shell - Teflon or PTFE liner

Additional Information:

• Item Code: AUTO25X
• Pay Mode Terms: L/C (Letter of Credit),T/T (Bank Transfer),D/P,D/A,Other
• Port of Dispatch: Nagpur
• Production Capacity: 100
• Delivery Time: 7-9 days
• Packaging Details: Excellent 4 Layer Packing Moisture free & shock absorbance

• Max Operating Temp. - 250 degree C
• Safe perssure - 6MPa/900psi
• Teflon Inner lined vessel

Additional Information:

• Production Capacity: 10000
• Delivery Time: 7-10 days once the order confirm
• Packaging Details: In our company corrugated box

A high-pressure autoclave reactor is a specialized piece of equipment designed for carrying out chemical reactions or processes under high pressure and temperature conditions. These reactors are commonly used in various industries, including chemical, pharmaceutical, and materials research, to synthesize, test, and develop new compounds, materials, or processes.

The autoclave reactor consists of a thick-walled, cylindrical or spherical pressure vessel made from materials such as stainless steel or high-grade alloys that can withstand extreme pressure and temperature. The vessel is equipped with temperature and pressure controls, a heating or cooling system, and a stirrer or agitator to ensure uniform mixing of the reactants inside.

The high pressure and temperature environment inside the reactor can accelerate reaction rates and enable the formation of new compounds or phases that may not be accessible under ambient conditions. This makes high-pressure autoclave reactors an essential tool for studying new materials, optimizing reaction conditions, or simulating the conditions found in industrial processes.

We the Shilpa Enterprises is the manufaacturer and the supplier of the High Pressure Autoclave Reactor since from 8 years world widely.

Additional Information:

• Production Capacity: As per as Client Required
• Delivery Time: 3-4 weeks after receipt of firm purchase order and advance payment
• Packaging Details: Wooden Box

Additional Information:

• Production Capacity: 1000
• Delivery Time: 7-10 days after the confirmation of the order
• Packaging Details: In Company Corrugated Box

The core elements of a hydrothermal reactor are the external high-quality stainless-steel jacket and the internal teflon liner or teflon chamber. The reaction is carried out at a maximum temperature of 240 °C (428 °F) in a teflon-lined autoclave, whereas the safe temperature is 200 °C (392 °F). The autoclave for hydrothermal synthesis is primarily used for crystallization procedures and the production of nanoparticles. It is also known as the hydrothermal bomb because it operates at extremely high temperatures and pressures.

The core elements of a hydrothermal reactor are the external high-quality stainless-steel jacket and the internal teflon liner or teflon chamber. The reaction is carried out at a maximum temperature of 240 °C (428 °F) in a teflon-lined autoclave, whereas the safe temperature is 200 °C (392 °F). The autoclave for hydrothermal synthesis is primarily used for crystallization procedures and the production of nanoparticles. It is also known as the hydrothermal bomb because it operates at extremely high temperatures and pressures.

Additional Information:

• Production Capacity: 1000

A hydrothermal autoclave, sometimes called a hydrothermal reactor, is a specialized device made from high-quality stainless steel (SS 316). The reactor comes in sizes ranging from 10ml to 2000ml and is primarily used for synthesizing chemicals, nanoparticles, catalysts, and crystals under high temperature and pressure conditions. The hydrothermal or solvothermal reactions take place in this high-pressure environment. There are two main types of hydrothermal autoclaves: Teflon-lined and PPL-lined. The Teflon-lined variety can operate at temperatures up to 220 °C (428 °F), with a safe working temperature set at 200 °C (392 °F). In contrast, the PPL-lined reactor is designed for higher temperature operations, with a maximum operating temperature of 280 degrees Celsius (536°F) and a safe limit of 260 °C (500°F). The autoclave is widely used in laboratories, research facilities, institutional organizations, and quality control sectors in various industries.

The hydrothermal reactor features an outer stainless steel jacket and an inner chamber. It operates safely up to a maximum pressure of 3 MPa and is designed to withstand corrosive, acidic, and alkaline solutions, making it suitable for various chemical processes. There are two configurations available: threaded and flange types. The threaded type is available in 10ml to 500ml, while the flange type is offered in 1 liter, 1.5 liters, and 2 liters. The threaded design includes two caps for enhanced safety, whereas the flange type uses two tightly secured flanges with bolts. It is important to heat or cool the reactor at a controlled rate to prevent deformation of the inner vessel. Ensure temperatures do not exceed the safe limit. Users should not fill the reactor more than 90% of its capacity to maximize its efficiency and safety. Ensure it is thoroughly cleaned before each use to avoid contamination. The hydrothermal autoclave is an effective tool for conducting high-temperature and high-pressure reactions in various scientific and industrial applications.

A hydrothermal autoclave, sometimes called a hydrothermal reactor, is a specialized device made from high-quality stainless steel (SS 316). The reactor comes in sizes ranging from 10ml to 2000ml and is primarily used for synthesizing chemicals, nanoparticles, catalysts, and crystals under high temperature and pressure conditions. The hydrothermal or solvothermal reactions take place in this high-pressure environment. There are two main types of hydrothermal autoclaves: Teflon-lined and PPL-lined. The Teflon-lined variety can operate at temperatures up to 220 °C (428 °F), with a safe working temperature set at 200 °C (392 °F). In contrast, the PPL-lined reactor is designed for higher temperature operations, with a maximum operating temperature of 280 degrees Celsius (536°F) and a safe limit of 260 °C (500°F). The autoclave is widely used in laboratories, research facilities, institutional organizations, and quality control sectors in various industries.

The hydrothermal reactor features an outer stainless steel jacket and an inner chamber. It operates safely up to a maximum pressure of 3 MPa and is designed to withstand corrosive, acidic, and alkaline solutions, making it suitable for various chemical processes. There are two configurations available: threaded and flange types. The threaded type is available in 10ml to 500ml, while the flange type is offered in 1 liter, 1.5 liters, and 2 liters. The threaded design includes two caps for enhanced safety, whereas the flange type uses two tightly secured flanges with bolts. It is important to heat or cool the reactor at a controlled rate to prevent deformation of the inner vessel. Ensure temperatures do not exceed the safe limit. Users should not fill the reactor more than 90% of its capacity to maximize its efficiency and safety. Ensure it is thoroughly cleaned before each use to avoid contamination. The hydrothermal autoclave is an effective tool for conducting high-temperature and high-pressure reactions in various scientific and industrial applications.

A hydrothermal autoclave, sometimes called a hydrothermal reactor, is a specialized device made from high-quality stainless steel (SS 316). The reactor comes in sizes ranging from 10ml to 2000ml and is primarily used for synthesizing chemicals, nanoparticles, catalysts, and crystals under high temperature and pressure conditions. The hydrothermal or solvothermal reactions take place in this high-pressure environment. There are two main types of hydrothermal autoclaves: Teflon-lined and PPL-lined. The Teflon-lined variety can operate at temperatures up to 220 °C (428 °F), with a safe working temperature set at 200 °C (392 °F). In contrast, the PPL-lined reactor is designed for higher temperature operations, with a maximum operating temperature of 280 degrees Celsius (536°F) and a safe limit of 260 °C (500°F). The autoclave is widely used in laboratories, research facilities, institutional organizations, and quality control sectors in various industries.

The hydrothermal reactor features an outer stainless steel jacket and an inner chamber. It operates safely up to a maximum pressure of 3 MPa and is designed to withstand corrosive, acidic, and alkaline solutions, making it suitable for various chemical processes. There are two configurations available: threaded and flange types. The threaded type is available in 10ml to 500ml, while the flange type is offered in 1 liter, 1.5 liters, and 2 liters. The threaded design includes two caps for enhanced safety, whereas the flange type uses two tightly secured flanges with bolts. It is important to heat or cool the reactor at a controlled rate to prevent deformation of the inner vessel. Ensure temperatures do not exceed the safe limit. Users should not fill the reactor more than 90% of its capacity to maximize its efficiency and safety. Ensure it is thoroughly cleaned before each use to avoid contamination. The hydrothermal autoclave is an effective tool for conducting high-temperature and high-pressure reactions in various scientific and industrial applications.

A hydrothermal autoclave, sometimes called a hydrothermal reactor, is a specialized device made from high-quality stainless steel (SS 316). The reactor comes in sizes ranging from 10ml to 2000ml and is primarily used for synthesizing chemicals, nanoparticles, catalysts, and crystals under high temperature and pressure conditions. The hydrothermal or solvothermal reactions take place in this high-pressure environment. There are two main types of hydrothermal autoclaves: Teflon-lined and PPL-lined. The Teflon-lined variety can operate at temperatures up to 220 °C (428 °F), with a safe working temperature set at 200 °C (392 °F). In contrast, the PPL-lined reactor is designed for higher temperature operations, with a maximum operating temperature of 280 degrees Celsius (536°F) and a safe limit of 260 °C (500°F). The autoclave is widely used in laboratories, research facilities, institutional organizations, and quality control sectors in various industries.

The hydrothermal reactor features an outer stainless steel jacket and an inner chamber. It operates safely up to a maximum pressure of 3 MPa and is designed to withstand corrosive, acidic, and alkaline solutions, making it suitable for various chemical processes. There are two configurations available: threaded and flange types. The threaded type is available in 10ml to 500ml, while the flange type is offered in 1 liter, 1.5 liters, and 2 liters. The threaded design includes two caps for enhanced safety, whereas the flange type uses two tightly secured flanges with bolts. It is important to heat or cool the reactor at a controlled rate to prevent deformation of the inner vessel. Ensure temperatures do not exceed the safe limit. Users should not fill the reactor more than 90% of its capacity to maximize its efficiency and safety. Ensure it is thoroughly cleaned before each use to avoid contamination. The hydrothermal autoclave is an effective tool for conducting high-temperature and high-pressure reactions in various scientific and industrial applications.

A hydrothermal autoclave, sometimes called a hydrothermal reactor, is a specialized device made from high-quality stainless steel (SS 316). The reactor comes in sizes ranging from 10ml to 2000ml and is primarily used for synthesizing chemicals, nanoparticles, catalysts, and crystals under high temperature and pressure conditions. The hydrothermal or solvothermal reactions take place in this high-pressure environment. There are two main types of hydrothermal autoclaves: Teflon-lined and PPL-lined. The Teflon-lined variety can operate at temperatures up to 220 °C (428 °F), with a safe working temperature set at 200 °C (392 °F). In contrast, the PPL-lined reactor is designed for higher temperature operations, with a maximum operating temperature of 280 degrees Celsius (536°F) and a safe limit of 260 °C (500°F). The autoclave is widely used in laboratories, research facilities, institutional organizations, and quality control sectors in various industries.

The hydrothermal reactor features an outer stainless steel jacket and an inner chamber. It operates safely up to a maximum pressure of 3 MPa and is designed to withstand corrosive, acidic, and alkaline solutions, making it suitable for various chemical processes. There are two configurations available: threaded and flange types. The threaded type is available in 10ml to 500ml, while the flange type is offered in 1 liter, 1.5 liters, and 2 liters. The threaded design includes two caps for enhanced safety, whereas the flange type uses two tightly secured flanges with bolts. It is important to heat or cool the reactor at a controlled rate to prevent deformation of the inner vessel. Ensure temperatures do not exceed the safe limit. Users should not fill the reactor more than 90% of its capacity to maximize its efficiency and safety. Ensure it is thoroughly cleaned before each use to avoid contamination. The hydrothermal autoclave is an effective tool for conducting high-temperature and high-pressure reactions in various scientific and industrial applications.

A hydrothermal autoclave, sometimes called a hydrothermal reactor, is a specialized device made from high-quality stainless steel (SS 316). The reactor comes in sizes ranging from 10ml to 2000ml and is primarily used for synthesizing chemicals, nanoparticles, catalysts, and crystals under high temperature and pressure conditions. The hydrothermal or solvothermal reactions take place in this high-pressure environment. There are two main types of hydrothermal autoclaves: Teflon-lined and PPL-lined. The Teflon-lined variety can operate at temperatures up to 220 °C (428 °F), with a safe working temperature set at 200 °C (392 °F). In contrast, the PPL-lined reactor is designed for higher temperature operations, with a maximum operating temperature of 280 degrees Celsius (536°F) and a safe limit of 260 °C (500°F). The autoclave is widely used in laboratories, research facilities, institutional organizations, and quality control sectors in various industries.

The hydrothermal reactor features an outer stainless steel jacket and an inner chamber. It operates safely up to a maximum pressure of 3 MPa and is designed to withstand corrosive, acidic, and alkaline solutions, making it suitable for various chemical processes. There are two configurations available: threaded and flange types. The threaded type is available in 10ml to 500ml, while the flange type is offered in 1 liter, 1.5 liters, and 2 liters. The threaded design includes two caps for enhanced safety, whereas the flange type uses two tightly secured flanges with bolts. It is important to heat or cool the reactor at a controlled rate to prevent deformation of the inner vessel. Ensure temperatures do not exceed the safe limit. Users should not fill the reactor more than 90% of its capacity to maximize its efficiency and safety. Ensure it is thoroughly cleaned before each use to avoid contamination. The hydrothermal autoclave is an effective tool for conducting high-temperature and high-pressure reactions in various scientific and industrial applications.

A hydrothermal autoclave, sometimes called a hydrothermal reactor, is a specialized device made from high-quality stainless steel (SS 316). The reactor comes in sizes ranging from 10ml to 2000ml and is primarily used for synthesizing chemicals, nanoparticles, catalysts, and crystals under high temperature and pressure conditions. The hydrothermal or solvothermal reactions take place in this high-pressure environment. There are two main types of hydrothermal autoclaves: Teflon-lined and PPL-lined. The Teflon-lined variety can operate at temperatures up to 220 °C (428 °F), with a safe working temperature set at 200 °C (392 °F). In contrast, the PPL-lined reactor is designed for higher temperature operations, with a maximum operating temperature of 280 degrees Celsius (536°F) and a safe limit of 260 °C (500°F). The autoclave is widely used in laboratories, research facilities, institutional organizations, and quality control sectors in various industries.

The hydrothermal reactor features an outer stainless steel jacket and an inner chamber. It operates safely up to a maximum pressure of 3 MPa and is designed to withstand corrosive, acidic, and alkaline solutions, making it suitable for various chemical processes. There are two configurations available: threaded and flange types. The threaded type is available in 10ml to 500ml, while the flange type is offered in 1 liter, 1.5 liters, and 2 liters. The threaded design includes two caps for enhanced safety, whereas the flange type uses two tightly secured flanges with bolts. It is important to heat or cool the reactor at a controlled rate to prevent deformation of the inner vessel. Ensure temperatures do not exceed the safe limit. Users should not fill the reactor more than 90% of its capacity to maximize its efficiency and safety. Ensure it is thoroughly cleaned before each use to avoid contamination. The hydrothermal autoclave is an effective tool for conducting high-temperature and high-pressure reactions in various scientific and industrial applications.

A hydrothermal autoclave, sometimes called a hydrothermal reactor, is a specialized device made from high-quality stainless steel (SS 316). The reactor comes in sizes ranging from 10ml to 2000ml and is primarily used for synthesizing chemicals, nanoparticles, catalysts, and crystals under high temperature and pressure conditions. The hydrothermal or solvothermal reactions take place in this high-pressure environment. There are two main types of hydrothermal autoclaves: Teflon-lined and PPL-lined. The Teflon-lined variety can operate at temperatures up to 220 °C (428 °F), with a safe working temperature set at 200 °C (392 °F). In contrast, the PPL-lined reactor is designed for higher temperature operations, with a maximum operating temperature of 280 degrees Celsius (536°F) and a safe limit of 260 °C (500°F). The autoclave is widely used in laboratories, research facilities, institutional organizations, and quality control sectors in various industries.

The hydrothermal reactor features an outer stainless steel jacket and an inner chamber. It operates safely up to a maximum pressure of 3 MPa and is designed to withstand corrosive, acidic, and alkaline solutions, making it suitable for various chemical processes. There are two configurations available: threaded and flange types. The threaded type is available in 10ml to 500ml, while the flange type is offered in 1 liter, 1.5 liters, and 2 liters. The threaded design includes two caps for enhanced safety, whereas the flange type uses two tightly secured flanges with bolts. It is important to heat or cool the reactor at a controlled rate to prevent deformation of the inner vessel. Ensure temperatures do not exceed the safe limit. Users should not fill the reactor more than 90% of its capacity to maximize its efficiency and safety. Ensure it is thoroughly cleaned before each use to avoid contamination. The hydrothermal autoclave is an effective tool for conducting high-temperature and high-pressure reactions in various scientific and industrial applications.

A hydrothermal autoclave, sometimes called a hydrothermal reactor, is a specialized device made from high-quality stainless steel (SS 316). The reactor comes in sizes ranging from 10ml to 2000ml and is primarily used for synthesizing chemicals, nanoparticles, catalysts, and crystals under high temperature and pressure conditions. The hydrothermal or solvothermal reactions take place in this high-pressure environment. There are two main types of hydrothermal autoclaves: Teflon-lined and PPL-lined. The Teflon-lined variety can operate at temperatures up to 220 °C (428 °F), with a safe working temperature set at 200 °C (392 °F). In contrast, the PPL-lined reactor is designed for higher temperature operations, with a maximum operating temperature of 280 degrees Celsius (536°F) and a safe limit of 260 °C (500°F). The autoclave is widely used in laboratories, research facilities, institutional organizations, and quality control sectors in various industries.

The hydrothermal reactor features an outer stainless steel jacket and an inner chamber. It operates safely up to a maximum pressure of 3 MPa and is designed to withstand corrosive, acidic, and alkaline solutions, making it suitable for various chemical processes. There are two configurations available: threaded and flange types. The threaded type is available in 10ml to 500ml, while the flange type is offered in 1 liter, 1.5 liters, and 2 liters. The threaded design includes two caps for enhanced safety, whereas the flange type uses two tightly secured flanges with bolts. It is important to heat or cool the reactor at a controlled rate to prevent deformation of the inner vessel. Ensure temperatures do not exceed the safe limit. Users should not fill the reactor more than 90% of its capacity to maximize its efficiency and safety. Ensure it is thoroughly cleaned before each use to avoid contamination. The hydrothermal autoclave is an effective tool for conducting high-temperature and high-pressure reactions in various scientific and industrial applications.

A hydrothermal autoclave, sometimes called a hydrothermal reactor, is a specialized device made from high-quality stainless steel (SS 316). The reactor comes in sizes ranging from 10ml to 2000ml and is primarily used for synthesizing chemicals, nanoparticles, catalysts, and crystals under high temperature and pressure conditions. The hydrothermal or solvothermal reactions take place in this high-pressure environment. There are two main types of hydrothermal autoclaves: Teflon-lined and PPL-lined. The Teflon-lined variety can operate at temperatures up to 220 °C (428 °F), with a safe working temperature set at 200 °C (392 °F). In contrast, the PPL-lined reactor is designed for higher temperature operations, with a maximum operating temperature of 280 degrees Celsius (536°F) and a safe limit of 260 °C (500°F). The autoclave is widely used in laboratories, research facilities, institutional organizations, and quality control sectors in various industries.

The hydrothermal reactor features an outer stainless steel jacket and an inner chamber. It operates safely up to a maximum pressure of 3 MPa and is designed to withstand corrosive, acidic, and alkaline solutions, making it suitable for various chemical processes. There are two configurations available: threaded and flange types. The threaded type is available in 10ml to 500ml, while the flange type is offered in 1 liter, 1.5 liters, and 2 liters. The threaded design includes two caps for enhanced safety, whereas the flange type uses two tightly secured flanges with bolts. It is important to heat or cool the reactor at a controlled rate to prevent deformation of the inner vessel. Ensure temperatures do not exceed the safe limit. Users should not fill the reactor more than 90% of its capacity to maximize its efficiency and safety. Ensure it is thoroughly cleaned before each use to avoid contamination. The hydrothermal autoclave is an effective tool for conducting high-temperature and high-pressure reactions in various scientific and industrial applications.

A hydrothermal autoclave, sometimes called a hydrothermal reactor, is a specialized device made from high-quality stainless steel (SS 316). The reactor comes in sizes ranging from 10ml to 2000ml and is primarily used for synthesizing chemicals, nanoparticles, catalysts, and crystals under high temperature and pressure conditions. The hydrothermal or solvothermal reactions take place in this high-pressure environment. There are two main types of hydrothermal autoclaves: Teflon-lined and PPL-lined. The Teflon-lined variety can operate at temperatures up to 220 °C (428 °F), with a safe working temperature set at 200 °C (392 °F). In contrast, the PPL-lined reactor is designed for higher temperature operations, with a maximum operating temperature of 280 degrees Celsius (536°F) and a safe limit of 260 °C (500°F). The autoclave is widely used in laboratories, research facilities, institutional organizations, and quality control sectors in various industries.

The hydrothermal reactor features an outer stainless steel jacket and an inner chamber. It operates safely up to a maximum pressure of 3 MPa and is designed to withstand corrosive, acidic, and alkaline solutions, making it suitable for various chemical processes. There are two configurations available: threaded and flange types. The threaded type is available in 10ml to 500ml, while the flange type is offered in 1 liter, 1.5 liters, and 2 liters. The threaded design includes two caps for enhanced safety, whereas the flange type uses two tightly secured flanges with bolts. It is important to heat or cool the reactor at a controlled rate to prevent deformation of the inner vessel. Ensure temperatures do not exceed the safe limit. Users should not fill the reactor more than 90% of its capacity to maximize its efficiency and safety. Ensure it is thoroughly cleaned before each use to avoid contamination. The hydrothermal autoclave is an effective tool for conducting high-temperature and high-pressure reactions in various scientific and industrial applications.

The core elements of a hydrothermal reactor are the external high-quality stainless-steel jacket and the internal teflon liner or teflon chamber. The reaction is carried out at a maximum temperature of 240 °C (428 °F) in a teflon-lined autoclave, whereas the safe temperature is 200 °C (392 °F). The autoclave for hydrothermal synthesis is primarily used for crystallization procedures and the production of nanoparticles. It is also known as the hydrothermal bomb because it operates at extremely high temperatures and pressures.

The core elements of a hydrothermal reactor are the external high-quality stainless-steel jacket and the internal teflon liner or teflon chamber. The reaction is carried out at a maximum temperature of 240 °C (428 °F) in a teflon-lined autoclave, whereas the safe temperature is 200 °C (392 °F). The autoclave for hydrothermal synthesis is primarily used for crystallization procedures and the production of nanoparticles. It is also known as the hydrothermal bomb because it operates at extremely high temperatures and pressures.

A hydrothermal autoclave, sometimes called a hydrothermal reactor, is a specialized device made from high-quality stainless steel (SS 316). The reactor comes in sizes ranging from 10ml to 2000ml and is primarily used for synthesizing chemicals, nanoparticles, catalysts, and crystals under high temperature and pressure conditions. The hydrothermal or solvothermal reactions take place in this high-pressure environment. There are two main types of hydrothermal autoclaves: Teflon-lined and PPL-lined. The Teflon-lined variety can operate at temperatures up to 220 °C (428 °F), with a safe working temperature set at 200 °C (392 °F). In contrast, the PPL-lined reactor is designed for higher temperature operations, with a maximum operating temperature of 280 degrees Celsius (536°F) and a safe limit of 260 °C (500°F). The autoclave is widely used in laboratories, research facilities, institutional organizations, and quality control sectors in various industries.

The hydrothermal reactor features an outer stainless steel jacket and an inner chamber. It operates safely up to a maximum pressure of 3 MPa and is designed to withstand corrosive, acidic, and alkaline solutions, making it suitable for various chemical processes. There are two configurations available: threaded and flange types. The threaded type is available in 10ml to 500ml, while the flange type is offered in 1 liter, 1.5 liters, and 2 liters. The threaded design includes two caps for enhanced safety, whereas the flange type uses two tightly secured flanges with bolts. It is important to heat or cool the reactor at a controlled rate to prevent deformation of the inner vessel. Ensure temperatures do not exceed the safe limit. Users should not fill the reactor more than 90% of its capacity to maximize its efficiency and safety. Ensure it is thoroughly cleaned before each use to avoid contamination. The hydrothermal autoclave is an effective tool for conducting high-temperature and high-pressure reactions in various scientific and industrial applications.

 Elevate your material science research with our premium PPL-lined Hydrothermal Synthesis Reactor. Designed for chemists and researchers who require higher thermal stability than standard PTFE, this reactor is the industry standard for creating synthetic crystals, nanoparticles, and specialized polymers.

The high-quality stainless steel shell (SS304/SS316) ensures structural integrity under high pressure, while the Polyphenylene (PPL) liner provides exceptional chemical resistance and an increased operational temperature threshold of up to 280°C

Additional Information:

• Item Code: PPL-lined-200ml
• Production Capacity: 1000

The core elements of a hydrothermal reactor are the external high-quality stainless-steel jacket and the internal teflon liner or teflon chamber. The reaction is carried out at a maximum temperature of 240 °C (428 °F) in a teflon-lined autoclave, whereas the safe temperature is 200 °C (392 °F). The autoclave for hydrothermal synthesis is primarily used for crystallization procedures and the production of nanoparticles. It is also known as the hydrothermal bomb because it operates at extremely high temperatures and pressures.

The core elements of a hydrothermal reactor are the external high-quality stainless-steel jacket and the internal teflon liner or teflon chamber. The reaction is carried out at a maximum temperature of 240 °C (428 °F) in a teflon-lined autoclave, whereas the safe temperature is 200 °C (392 °F). The autoclave for hydrothermal synthesis is primarily used for crystallization procedures and the production of nanoparticles. It is also known as the hydrothermal bomb because it operates at extremely high temperatures and pressures.

The core elements of a hydrothermal reactor are the external high-quality stainless-steel jacket and the internal teflon liner or teflon chamber. The reaction is carried out at a maximum temperature of 240 °C (428 °F) in a teflon-lined autoclave, whereas the safe temperature is 200 °C (392 °F). The autoclave for hydrothermal synthesis is primarily used for crystallization procedures and the production of nanoparticles. It is also known as the hydrothermal bomb because it operates at extremely high temperatures and pressures.

The core elements of a hydrothermal reactor are the external high-quality stainless-steel jacket and the internal teflon liner or teflon chamber. The reaction is carried out at a maximum temperature of 240 °C (428 °F) in a teflon-lined autoclave, whereas the safe temperature is 200 °C (392 °F). The autoclave for hydrothermal synthesis is primarily used for crystallization procedures and the production of nanoparticles. It is also known as the hydrothermal bomb because it operates at extremely high temperatures and pressures.

The core elements of a hydrothermal reactor are the external high-quality stainless-steel jacket and the internal teflon liner or teflon chamber. The reaction is carried out at a maximum temperature of 240 °C (428 °F) in a teflon-lined autoclave, whereas the safe temperature is 200 °C (392 °F). The autoclave for hydrothermal synthesis is primarily used for crystallization procedures and the production of nanoparticles. It is also known as the hydrothermal bomb because it operates at extremely high temperatures and pressures.

The core elements of a hydrothermal reactor are the external high-quality stainless-steel jacket and the internal teflon liner or teflon chamber. The reaction is carried out at a maximum temperature of 240 °C (428 °F) in a teflon-lined autoclave, whereas the safe temperature is 200 °C (392 °F). The autoclave for hydrothermal synthesis is primarily used for crystallization procedures and the production of nanoparticles. It is also known as the hydrothermal bomb because it operates at extremely high temperatures and pressures.

The core elements of a hydrothermal reactor are the external high-quality stainless-steel jacket and the internal teflon liner or teflon chamber. The reaction is carried out at a maximum temperature of 240 °C (428 °F) in a teflon-lined autoclave, whereas the safe temperature is 200 °C (392 °F). The autoclave for hydrothermal synthesis is primarily used for crystallization procedures and the production of nanoparticles. It is also known as the hydrothermal bomb because it operates at extremely high temperatures and pressures.

The core elements of a hydrothermal reactor are the external high-quality stainless-steel jacket and the internal teflon liner or teflon chamber. The reaction is carried out at a maximum temperature of 240 °C (428 °F) in a teflon-lined autoclave, whereas the safe temperature is 200 °C (392 °F). The autoclave for hydrothermal synthesis is primarily used for crystallization procedures and the production of nanoparticles. It is also known as the hydrothermal bomb because it operates at extremely high temperatures and pressures.