15kW Airtorch

 

Airtorch™ System Introduction


Airtorch™ System Introduction

Which DPF to I need? First asses the power required, then employ the folowing design criteria ~ about 2.6 SCFM/kW. Call MHI for confirmation as this an approximate number only.

Please adjust power requirement to consider any losses in your delivery piping. DPF Airtorches have 1.5"-2.5" NPT Exit Nozzles, depending on model. The DPF models accept user-provided Blower or Compressor driven air/gas input. All three models shown below can also be provided with a fan.


15kW DPF



15kW DPF Airtorch™
Plasma Airtorch 6.5kW
15kW DPF showing exit nozzle (NPT threaded). The control panel XPAN is shown on right. Complete controls are available from MHI.


15kW FDPF showing inlet. User has full control to provide air/gas with blower/compressor or use with fan shown on the right. Use with fan has restrictions with allowable head pressure.

New Models are fully flanged and sealed as shown on left.

Models may be used with XPAN Controllers in single phase mode or three phase controls as displayed on Control Panel page

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XPAN control panel

XPAN Control System. Other controls may be viewed on Control Panel page.



DPF Airtorch™ Benefits

Highly Efficient: Saves energy and time while improving your process heating.
Cost Effective: Airtorches™ have a quick cost recovery time because of their high efficiency.
Dynamic: Operating Temperatures ranging from Ambient to 1500°C/2100°F.
Versatile: Accepts air or inert gas as input.
Precise: When combined with MHI controls, Airtorches™ offer extraordinary control over processes.
Modular: Universal mounting allows for easy integration into existing processes.
Quiet: Airtorches™ operate in near silence, helping reduce background noise and improve user ergonomics.
Durable: Long life heating elements ensure that your device will have a high operating lifespan.


Model No. Power Controller Voltage Integral Fan Transformer
DPF220MP-15 15kW XPAN 220 volts No Yes
DPF220MP-15 with Fan 15kW XPAN/FANCS 220 volts Yes Yes
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For more information, including flow rate tables or detailed specifications, Contact Us Now.

Applications


DPF Airtorch™ Suggested Applications

DPF Airtorch™ Suggested Applications
Sintering
Debonding
Drying
Fusing
Curing
Hot Gas
Heat Treating
Joining
Gas Preheating Air Preheating
Process Heating Brazing



Electronic Controls


Electronic Controls

MHI's DPF Airtorches™ are compatible with our electronic control panels and DACS software. Standard features include overtemperature controls and programmable steps. In addition to standard electronic controls, MHI DACS allows for remote furnace monitoring, data logging and intricate step programming.

MHI Airtorch™ Controls
Many of MHI's electronic furnace controllers feature multiple voltage inputs, overtemperature controls, programmable cycles and a number of other features. For more information about MHI's control panels, Contact Us or See More Information.
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MHI Data Acquisition and Control Software (MHI DACS)
MHI devices are compatible with MHI DACS for furnace controls, step programming, data logging and more. DACS also allows for remote furnace control, allowing one central location to control multiple devices.
MHI DACS Software
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Accessories


Accessories

Airtorch™ Heater Accessories
NPT Nozzle with fitting for pipe extension
FS750-A - Adjustable flow rate detection valve and switch
New FS750 - Flow rate detection valve and switch
FLM750 - Flowmeter 2-23 SCFM (click for larger images)
FTB750-6 - 6' Air/gas supply tubing
MTAR - Moisture trap ensures dry air to AirtorchTM



Electrically Heated and Controlled Hot Air/Gas Device Generators.
Models are rated by kW. Several options are offered to users. Please contact MHI to discuss your requirements.

Full Line of Controls available

Please contact MHI to design the best solution for your application.

Phone (513) 772-0404
Fax (513) 672-3333

Contact Page

© Micropyretics Heaters International Inc. 1995 - 2013

 

 

 

Fans are employed when the drop in pressure of the system is no greater than approximately 50 in. w.c. (50 in. w.c./inches of H20 is approximately 1.8psi.) This condition remains true even when the fan can output large CFM values.  Blowers are considered in circumstances where larger pressure drops are present.