ZHENGZHOU HENGTONG FURNACE CO,. LTD
1200 C Ultrasonic Spray Pyrolysis 3-Zone Tube Furnace for Nano Particles Synthesis
  • 1200 C Ultrasonic Spray Pyrolysis 3-Zone Tube Furnace for Nano Particles Synthesis
  • 1200 C Ultrasonic Spray Pyrolysis 3-Zone Tube Furnace for Nano Particles Synthesis
  • 1200 C Ultrasonic Spray Pyrolysis 3-Zone Tube Furnace for Nano Particles Synthesis
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1200 C Ultrasonic Spray Pyrolysis 3-Zone Tube Furnace for Nano Particles Synthesis

HTTF-1200-PGEP 3-Zone Tube Furnace is a versatile ultrasonic spray furnace system designed for nano, core-shell structured particle synthesis. The CVD furnace system consists of three major modules: 1.7MHz ultrasonic enhanced bubbler, 1200ºC Max. 3 zone heating tube furnace, and Electrostatic Precipitator.

HTTF-1200-PGEP 3-Zone Tube Furnace is a versatile ultrasonic spray furnace system designed for nano, core-shell structured particle synthesis.  The CVD furnace system consists of three major modules: 1.7MHz ultrasonic enhanced bubbler, 1200ºC Max. 3 zone heating tube furnace, and Electrostatic Precipitator. The processing steps of a particle include aerosol generation, thermal decomposition, and nano powder collection. Such a system enables advanced synthetic method that provides control over particle size, morphology, nano / microstructure.

 

Aerosol Generation: 1.7 MHz Ultrasonic Enhanced Bubbler can "evaporate" catalyst liquid with no heat generated. A stainless steel liquid collector connected in line with the ultrasonic bubble can prevent condensing liquid from streaming into the CVD tube furnace tube chamber.

 

Thermal Decomposition: three-zone (900mm length) tube furnace can be heated up to 1200C maximum to pass the droplets flux across the temperature and atmosphere-regulated firing zone, chemical, and physical conversion processes proceed. 

 

Nanopowder Collection: 30KV electrostatic precipitator (700 ml) can effectively collect nano-size particles from the carrier gas flow

 

The high temperature tube furnace can be tilted to avoid liquid flow back atomizing tank

 

Tube Furnace Thermal Decomposition

Voltage & Power

Single Phase, 208V~240V AC, 50/60 Hz (30A breaker required)

Max. 7 KW

  Working Temperature

1100oC continuous

1200 oC Max. < 1 hours

   Max. Heating / Cooling Rate

< 20oC / min 

Heating Zone & Constant Temperature Zone

Three heating zone, 300+ 300 + 300 mm (900mm L total)

Constant temperature zone:   600 mm with +/- 2oC ( if 3 zone at same )

    Heating Elements

Fe-Cr-Al Alloy doped by Mo

Temperature Controller

Three digital temperature controllers with 30 programmable segments for precise control of heating rate, cooling rate and dwell time.

Built-in over-temperature alarm and protection allow for the operation

+/- 1 ºC temperature accuracy.

RS485 Communication Port.

Precision Eurothermo controller is available with +/- 0.1 oC accuracy

Processing Tube

One fused quartz tube is included with ID 20.5 x OD 25 mm x L 1400 ( mm)

Sealing Flanges
& Fittings

Left side sealing KF flange which connects atomizing bubbler and 1" quartz tube with vacuum gauge.

The right side KF flange connects to the electrostatic precipitator. 

Aerosol Generation

Ultrasonic atomizing bubbler

220VAC, 1.7 MHz Ultrasonic Generator

 Ultrasonic power is adjustable with 8 levels

316 Stainless Steel liquid container with a fluoropolymer sealing ring

The continuous or timed mode can be set. For timed mode, time can be adjusted from 30 minutes to 180 minutes.

A liquid injection pump is equipped with a 60 ml plastic syringe. The speed range for the liquid injection pump is 0.004 ml/min - 70 ml/min

A floating flow meter is included to control the carrier gas flow rate within 0-200 SCCM.

A mass flow controller (MFC) is optional to precisely control the flow rate.

Nanopowder Collection

High Voltage Supply

AC 220V 50/60Hz, 30 W Max. power consumption

Digital Voltmeter and Current meter, 30KV, 1.0 mA max.

Output voltage and current can be set by using knobs on the front panel and read from the digital display

Built-in Arc Protection Circuit

Electrostatic Precipitator

KF25 quick clamp and flange enables the quick coupling to the furnace processing tube

1/4" gas outlet built-in

Another KF25 port is built-in with the collector to connect the vacuum pump (The vacuum pump is required, but do not included in the standard package.)

PTFE plates are installed on top and bottom to insulate high-voltage electrodes

Adjustable supports keep the collector leveled with the furnace tub

Net Weight

~150Kg

Warranty

One-year limited manufacturer warranty with lifetime support (consumable parts such as furnace liner, processing tubes, and O-rings are not covered by the warranty, please order replacements at related products below).

Laptop, software & WiFi Control (Optional)

Brand new laptop with Microsoft Windows 10 and Microsoft Office 2013 

Labview-Based Temperature Control System enables the user to edit temperature profiles, manage heat-treatment recipes, and record and plot data for HT tube furnaces.


Application Notes

A two-stage pressure regulator must be installed on the gas cylinder to limit the pressure to below 3 PSI for safe operation. 

 Please tilt the furnace in 10 - 15 degrees to avoid liquid back to atomizing bubbler

It is the customer's responsibility to achieve the ideal parameter for particle size. Usually, the liquid injection rate and carrier gas flow rate has an important influence on particle size.

The SEM picture left is SnO2 particle (~ 500 nm - 5 um) generated by the equipment via Stannic chloride solution at 800oC

 

HTTF-1200-PGEP 3-Zone Tube Furnace is a versatile ultrasonic spray furnace system designed for nano, core-shell structured particle synthesis.  The CVD furnace system consists of three major modules: 1.7MHz ultrasonic enhanced bubbler, 1200ºC Max. 3 zone heating tube furnace, and Electrostatic Precipitator. The processing steps of a particle include aerosol generation, thermal decomposition, and nano powder collection. Such a system enables advanced synthetic method that provides control over particle size, morphology, nano / microstructure.

 

Aerosol Generation: 1.7 MHz Ultrasonic Enhanced Bubbler can "evaporate" catalyst liquid with no heat generated. A stainless steel liquid collector connected in line with the ultrasonic bubble can prevent condensing liquid from streaming into the CVD tube furnace tube chamber.

 

Thermal Decomposition: three-zone (900mm length) tube furnace can be heated up to 1200C maximum to pass the droplets flux across the temperature and atmosphere-regulated firing zone, chemical, and physical conversion processes proceed. 

 

Nanopowder Collection: 30KV electrostatic precipitator (700 ml) can effectively collect nano-size particles from the carrier gas flow

 

The high temperature tube furnace can be tilted to avoid liquid flow back atomizing tank

 

Tube Furnace Thermal Decomposition

Voltage & Power

Single Phase, 208V~240V AC, 50/60 Hz (30A breaker required)

Max. 7 KW

  Working Temperature

1100oC continuous

1200 oC Max. < 1 hours

   Max. Heating / Cooling Rate

< 20oC / min 

Heating Zone & Constant Temperature Zone

Three heating zone, 300+ 300 + 300 mm (900mm L total)

Constant temperature zone:   600 mm with +/- 2oC ( if 3 zone at same )

    Heating Elements

Fe-Cr-Al Alloy doped by Mo

Temperature Controller

Three digital temperature controllers with 30 programmable segments for precise control of heating rate, cooling rate and dwell time.

Built-in over-temperature alarm and protection allow for the operation

+/- 1 ºC temperature accuracy.

RS485 Communication Port.

Precision Eurothermo controller is available with +/- 0.1 oC accuracy

Processing Tube

One fused quartz tube is included with ID 20.5 x OD 25 mm x L 1400 ( mm)

Sealing Flanges
& Fittings

Left side sealing KF flange which connects atomizing bubbler and 1" quartz tube with vacuum gauge.

The right side KF flange connects to the electrostatic precipitator. 

Aerosol Generation

Ultrasonic atomizing bubbler

220VAC, 1.7 MHz Ultrasonic Generator

 Ultrasonic power is adjustable with 8 levels

316 Stainless Steel liquid container with a fluoropolymer sealing ring

The continuous or timed mode can be set. For timed mode, time can be adjusted from 30 minutes to 180 minutes.

A liquid injection pump is equipped with a 60 ml plastic syringe. The speed range for the liquid injection pump is 0.004 ml/min - 70 ml/min

A floating flow meter is included to control the carrier gas flow rate within 0-200 SCCM.

A mass flow controller (MFC) is optional to precisely control the flow rate.

Nanopowder Collection

High Voltage Supply

AC 220V 50/60Hz, 30 W Max. power consumption

Digital Voltmeter and Current meter, 30KV, 1.0 mA max.

Output voltage and current can be set by using knobs on the front panel and read from the digital display

Built-in Arc Protection Circuit

Electrostatic Precipitator

KF25 quick clamp and flange enables the quick coupling to the furnace processing tube

1/4" gas outlet built-in

Another KF25 port is built-in with the collector to connect the vacuum pump (The vacuum pump is required, but do not included in the standard package.)

PTFE plates are installed on top and bottom to insulate high-voltage electrodes

Adjustable supports keep the collector leveled with the furnace tub

Net Weight

~150Kg

Warranty

One-year limited manufacturer warranty with lifetime support (consumable parts such as furnace liner, processing tubes, and O-rings are not covered by the warranty, please order replacements at related products below).

Laptop, software & WiFi Control (Optional)

Brand new laptop with Microsoft Windows 10 and Microsoft Office 2013 

Labview-Based Temperature Control System enables the user to edit temperature profiles, manage heat-treatment recipes, and record and plot data for HT tube furnaces.


Application Notes

A two-stage pressure regulator must be installed on the gas cylinder to limit the pressure to below 3 PSI for safe operation. 

 Please tilt the furnace in 10 - 15 degrees to avoid liquid back to atomizing bubbler

It is the customer's responsibility to achieve the ideal parameter for particle size. Usually, the liquid injection rate and carrier gas flow rate has an important influence on particle size.

The SEM picture left is SnO2 particle (~ 500 nm - 5 um) generated by the equipment via Stannic chloride solution at 800oC