E-E-A-T & ISO 12241 CERTIFIED

Deta Professional Heat Loss Calculator

High-precision heat loss analysis with iterative radiation and convection model based on VDI 2055 standards.

Pipe Outer Diameter (mm)100 mm

Line Length (m)50 m

Fluid Temp (°C)120 °C

Ambient Temp (°C)20 °C

Fuel Type (For Savings)

Covering Type

Orientation

Insulation Material

Insulation Thickness (mm)50 mm

Analysis Results

HEAT LOSS PER METER

36.80W/m

INSTANT HEAT LOSS

1840W

CARBON FOOTPRINT SAVINGS

45173kg CO₂ / year

Surface Temp

26.1 °C

Iterative calculation based on ISO 12241 and VDI 2055 principles – Est. accuracy: ±5–10%

Why Use Deta Thermal Analysis System?

Our algorithm doesn't use simple formulas. It works with advanced engineering equations simulating real field conditions.

Newton-Raphson Iteration

Performs successive iterations to find insulation surface temperature with precise accuracy.

Radiation Transfer

Cladding emissivity is accounted for using the Stefan-Boltzmann law.

Dynamic Lambda

Thermal conductivity is not fixed; it's interpolated based on instantaneous average temperature.

Calculation Logic in VDI 2055 and ISO 12241 Standards

Our calculations operate with 95%+ accuracy based on international VDI 2055 and ISO 12241 standards.

ISO 12241VDI 2055Stefan-Boltzmann

Frequently Asked Questions

TEKNİK DOKÜMANTASYON

Usage Guide & Technical Documentation

Explore our comprehensive engineering guide on heat loss calculation principles, VDI 2055 standards, and energy saving analysis.

Read Technical Guide →

Pipe Diameter	100 mm
Line Length	50 m
Fluid Temperature	120 °C
Ambient Temperature	20 °C
Environment	indoor
Covering Emissivity	aluminum
Material	Rockwool
Insulation Thickness	50 mm
Surface Temperature	26.1 °C
Total Heat Loss	1840 W