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Heat Torch™ 150

The Heat Torch™ 150 heating element is contained in a 1 1/2” diameter stainless steel pipe.

The Heat Torch™ 150 comes in two sizes. The 4.7” long heater body accommodates ratings from 500 to 2500 watts (with standard power increments of 250 watts). The 8.3” long heater body handles ratings of 2750 to 5000 watts (with standard power increments of 500 watts).

Heat Torch™ 150 has allowable compressed air flow ranging from 4.8 to 70 SCFM. Maximum air input temperature is 250°F (121°C) with 1300°F (704°C) maximum output temperature. Standard inlet fitting is 1/2” NPT female. Standard outlet fittings include 1/4”, 1/2”, and 1” female NPT fittings or no exhaust fitting.

Heat Torch™ 150 is designed for high reliability, long life, and substantial air flow. Applications include staking, curing, drying, heat-shrinking, sterilization, adhesive activation, air scrubbing, and air knives. Ideal for heating any non-combustible gas. We provide pressure testing as an add-on service.

MAX WATT  

MAX INLET

MAX EXHAUST

MIN  SCFM

MAX SCFM

PSIG*

5000W 250°F 1300°F 4.8 70 120

Mounting = Horizontal / Vertical
Leads = 14 Gauge, 12″ long
Heater Body = Stainless Steel
Air Entryway Fitting = Stainless Steel

Applications for the Heat Torch™ 150 include:

        • Staking
        • Curing
        • Drying
        • Heat Shrinking
        • Sterilization
        • Adhesive Activation
        • Air Scrubbing
        • Air Knives

Additional Information:

airflow / pressure drop

 

AIRFLOW (SCFM) 500W-2500W PRESSURE DROP (PSIG)  2750W-5000W PRESURE DROP (PSIG)
5 0.3 0.6
10 0.6 1.2
20 1.1 2.2
30 2.5 5.0
40 4.4 8.8
50 6.9 14
60 9.9 20
70 13 27

 

Wattage / Minimum Flow Chart

 

WATTAGE MINIMUM FLOW REQUIRED AT MAX POWER INLET AIR TEMPERATURE 72°F (SCFM)
500 4.8
1000 4.8
1500 4.8
2000 4.8
2500 6.6
3000 7.9
3500 9.3
4000 10.8
5000 12.4

 

PRESSURE FITTINGS

Calculators

Power Flow Rate Temp Calculator

Calculate the electrical power, flow rate or temperature requirement.
airflow in standard cubic feet per minute
temperature rise in degrees F from the inlet to the exhaust
Watts = SCFM x ΔT/2.5

Temperature Conversion Calculator

Calculate the electrical power, flow rate or temperature requirement.
°F = ((( °C * 9) / 5 ) + 32)
°C = ((( °F - 32) * 5 ) / 9)

Three-Phase Unit Calculator

Fill in two values to find the 3rd.
W = LC * (V * √2)
V = (W / LC) / √2
LC = W / (V * √2)

Single Phase Unit Calculator

Fill in two values to find the 3rd.
W = LC * V
V = LC * W
LC = W / V

Ohms Law Calculator

Fill in two values to find the other two.

O = V / A

O = V² / W

O = W / A²

V = A * O = A * (V/A)

V = √(W * O)

V = W / A

A = V / O

A = W/ V

A = √(W / O)

W = A * V

W = V² / O

W = A² * O

Heat Transfer Through Convection Calculator

ρ = density (lb/ft3)

V = volume flow rate (ft3/hour)

Cp = specific heat (Btu/lb°F)

Ta-Tb = temperature differential (°F)

Q = ρ x V x Cp x (Ta-Tb)


Fill in four values

ρ = density (lb/ft3)
V = volume flow rate (ft3/hour)
Cp = specific heat (Btu/lb°F)
Ta-Tb = TD (°F)
Q = ρ x V x Cp x (Ta-Tb)

ACFM to SCFM

ACFM = airflow in actual cubic feet per minute

P = gage pressure (psi)

T = gas temperature °R = 460 + °F

SCFM = airflow in standard cubic feet per minute


Find Standard Cubic Feet per Minute based on data from your Actual Cubic Feet per Minute Rotameter

airflow in actual cubic feet per minute
gage pressure (psi)
gas temperature °R = 460 + °F
airflow in standard cubic feet per minute

Standard Flow Rate (SCFM) Calculator

Calculate the SCFM.
Actual cubic feet per minute
Actual pounds per square inch at Gauge
Actual temperature in °F. °R = 460 + °F
CFM * (PSI actual / 14.7psi)*(528°R / T actual)

Pressure Conversion

Fill in one value to calculate the other.
PSI = Bar * 14.504
Bar = PSI / 14.504

Mass Flow to volume Metric Flow

Fill in one value to calculate the other two
kg/h = Kilogram Per Hour (lb/min multiply by 27.216)
Lbs/min = Pounds per minute (kg/h divide by 27.216)
SCFM = Standard cubic feet per minute

Power Flow Rate Temp Calculator

Calculate the electrical power, flow rate or temperature requirement.
airflow in standard cubic feet per minute
temperature rise in degrees F from the inlet to the exhaust
Watts = SCFM x ΔT/2.5

Temperature Conversion Calculator

Calculate the electrical power, flow rate or temperature requirement.
°C = ((( °F - 32) * 5 ) / 9)
°F = ((( °C * 9) / 5 ) + 32)

Three-Phase Unit Calculator

Fill in two values to find the 3rd.
W = LC * (V * √2)
V = (W / LC) / √2
LC = W / (V * √2)

Single Phase Unit Calculator

Fill in two values to find the 3rd.
W = LC * V
V = LC * W
LC = W / V

Ohms Law Calculator

Fill in two values to find the other two.

O = V / A

O = V² / W

O = W / A²

V = A * O = A * (V/A)

V = √(W * O)

V = W / A

A = V / O

A = W/ V

A = √(W / O)

W = A * V

W = V² / O

W = A² * O

Heat Transfer Through Convection Calculator

ρ = density (lb/ft3)

V = volume flow rate (ft3/hour)

Cp = specific heat (Btu/lb°F)

Ta-Tb = temperature differential (°F)

Q = ρ x V x Cp x (Ta-Tb)


Fill in four values

ρ = density (lb/ft3)
V = volume flow rate (ft3/hour)
Cp = specific heat (Btu/lb°F)
Ta-Tb = TD (°F)
Q = ρ x V x Cp x (Ta-Tb)

ACFM to SCFM

ACFM = airflow in actual cubic feet per minute

P = gage pressure (psi)

T = gas temperature °R = 460 + °F

SCFM = airflow in standard cubic feet per minute


Find Standard Cubic Feet per Minute based on data from your Actual Cubic Feet per Minute Rotameter

airflow in actual cubic feet per minute
gage pressure (psi)
gas temperature °R = 460 + °F
airflow in standard cubic feet per minute

Standard Flow Rate (SCFM) Calculator

Calculate the SCFM.
Actual cubic feet per minute
Actual pounds per square inch at Gauge
Actual temperature in °F. °R = 460 + °F
CFM * (PSI actual / 14.7psi)*(528°R / T actual)

Pressure Conversion

Fill in one value to calculate the other.
PSI = Bar * 14.504
Bar = PSI / 14.504

Mass Flow to volume Metric Flow

Fill in one value to calculate the other two
Kg/h = Kilogram Per Hour (lb/min multiply by 27.216)
Lbs/min = Pounds per minute (kg/h divide by 27.216)
SCFM = Standard cubic feet per minute