Flow torch 800 - Southeast Thermal Systems

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The Flow Torch™ 800 is an open coil air heater designed for high flow rates at low pressure drop due to its efficient design with minimal flow restrictions. The robust construction of this 8” diameter stainless steel heater offers reliable long-life performance and reduced operational cost.

The Flow Torch™ 800 incorporates a spiral wound element of the highest grade material, providing quick heat up and cool down cycles with maximum heat transfer.

The Flow Torch™ 800 is capable of operating with airflow of 2000 SCFM and a maximum operating pressure of 3 PSIG*. Maximum output temperature is 482°C (900°F).

All Flow Torch Heaters are UL recognized components under UL file number E365755.

* Note: minor leakage through stranded leads

MAX WATT	MAX INLET	MAX EXHAUST	MIN SCFM	MAX SCFM	PSIG*
75000 W	250 °F	900 °F	76	2000	3

Mounting.= Horizontal / Vertical

Heater Body = Stainless Steel

Inlet Fittings = Stainless Steel

Exhaust Fittings = Stainless Steel

Standard power of 2 kW to 75 kW is available for a wide range of applications, including:

Hot Air Curtains
Laminating
Plastic Curing
Air Drying
Web Drying
Metallization
Baking
Textile Applications
Exhaust Gas Heating
Chemical Processing
Ink Drying
Hopper Drying
Dehumidification
Paint Baking/Drying
Sterilization

Control Panels are also available to provide precise temperature regulation.

Product Fittings

Exhaust Fitting - 13.5” Flanged Fitting

Exhaust Fitting 13.5″ Flanged Fitting

Inlet Fitting - 13.5” Flanged Fitting

Inlet Fitting 13.5″ Flanged Fitting

Pressure drop Chart (without fittings)

Pressure drop chart (with fittings)

Calculators

Power Flow Rate Temp Calculator

Calculate the electrical power, flow rate or temperature requirement.

airflow in standard cubic feet per minute

SCFM

temperature rise in degrees F from the inlet to the exhaust

ΔT

Watts = SCFM x ΔT/2.5

Watts

Temperature Conversion Calculator

Calculate the electrical power, flow rate or temperature requirement.

°F = ((( °C * 9) / 5 ) + 32)

°F

°C = ((( °F - 32) * 5 ) / 9)

°C

Three-Phase Unit Calculator

Fill in two values to find the 3rd.

W = LC * (V * √2)

Watts

V = (W / LC) / √2

Voltage

LC = W / (V * √2)

Line Current

Single Phase Unit Calculator

Fill in two values to find the 3rd.

W = LC * V

Wattage

V = LC * W

Voltage

LC = W / V

Line Current

Ohms Law Calculator

Fill in two values to find the other two.

O = V / A

O = V² / W

O = W / A²

Ohms

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

V = √(W * O)

V = W / A

Volts

A = V / O

A = W/ V

A = √(W / O)

Amps

W = A * V

W = V² / O

W = A² * O

Watts

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)

Ta-Tb

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

ACFM

gage pressure (psi)

gas temperature °R = 460 + °F

T (°R)

airflow in standard cubic feet per minute

SCFM

Standard Flow Rate (SCFM) Calculator

Calculate the SCFM.

Actual cubic feet per minute

CFM

Actual pounds per square inch at Gauge

PSI

Actual temperature in °F. °R = 460 + °F

CFM * (PSI actual / 14.7psi)*(528°R / T actual)

SCFM

Pressure Conversion

Fill in one value to calculate the other.

PSI = Bar * 14.504

PSI

Bar = PSI / 14.504

Bar

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)

kg/h

Lbs/min = Pounds per minute (kg/h divide by 27.216)

lbs/min

SCFM = Standard cubic feet per minute

SCFM