What is a heat-flux-density converter?

A heat-flux-density converter helps you convert between different units of heat-flux-density quickly and accurately.

Is this heat-flux-density converter free to use?

Yes, this heat-flux-density converter is completely free and easy to use for all your conversion needs.

Can I switch between kilowatt/square meter and Btu (th)/second/square inch easily?

Yes, there is a switch button provided to quickly swap the conversion direction between kilowatt/square meter and Btu (th)/second/square inch.

How accurate are the conversion results?

The conversion results are calculated using precise formulas to ensure accuracy for most practical purposes.

Convert kilowatt/square meter to Btu (th)/second/square inch Online | Free heat-flux-density Converter

Q: How do I convert kilowatt/square meter to Btu (th)/second/square inch?

Simply enter the value in the kilowatt/square meter input field, and the converter will show you the equivalent value in Btu (th)/second/square inch instantly.

Kilowatt per Square Meter [kW/m²]

The unit kilowatt per square meter (kW/m²) measures heat flux density or radiant flux, representing the amount of energy transferred per unit area per unit time, scaled to kilowatts. One kilowatt equals 1000 watts, so 1 kW/m² = 1000 J of energy passing through 1 square meter every second.

This unit is widely used in solar energy, fire safety engineering, and high-intensity thermal applications to quantify power delivered per area. Typical applications include:

Solar concentrators and photovoltaic panels: assessing the intensity of sunlight on a surface
Fire testing: measuring heat flux from flames or radiative heaters
Industrial processes: calculating energy input in furnaces or reactors

Mathematically, heat flux is expressed as:

q = \frac{Q}{A \cdot t}

where q is heat flux in kW/m², Q is energy in kilojoules, A is area in square meters, and t is time in seconds.

For reference, direct sunlight at noon on a clear day provides roughly 1 kW/m² at the Earth’s surface.

kW/m² is an SI-derived unit and is convenient for large-scale energy calculations, replacing older units like Btu/ft²·h or cal/cm²·s. It provides a straightforward way to assess power per unit area in engineering and environmental applications.

Btu (th) per Second per Square Inch [Btu(th)/(s·in²)]

The unit Btu (th) per second per square inch, written as Btu(th)/(s·in²), measures heat flux density or thermal power per unit area using the thermochemical British Thermal Unit (1 Btu(th) = 1054.35 J). It represents the amount of heat energy transferred through 1 square inch of surface every second.

This unit is commonly used in high-intensity thermal applications, engineering experiments, and solar energy studies where energy flux over small surfaces is significant. Typical applications include:

Heat flux from industrial furnaces or radiative heaters
Solar radiation on concentrated panels or small surfaces
Thermal testing of materials under high-intensity conditions

Heat flux can be expressed mathematically as:

q = \frac{Q}{A \cdot t}

where q is heat flux in Btu(th)/(s·in²), Q is energy in Btu(th), A is area in in², and t is time in seconds.

Conversion to SI units:

1 \, \text{Btu(th)/(s·in²)} \approx 16,324 \, \text{W/m²}

While SI units like W/m² are standard, Btu(th)/(s·in²) is useful in U.S. engineering, laboratory experiments, and historical references, providing an intuitive measure of high-intensity heat flux per square inch per second.

No conversions available for heat-flux-density.