# J/s∙m²∙K to kcal/h∙ft²∙°C Conversion

## Joule/Second Square Meter K to Kilocalorie/Hour Square Foot °C Conversion - Convert Joule/Second Square Meter K to Kilocalorie/Hour Square Foot °C (J/s∙m²∙K to kcal/h∙ft²∙°C)

### You are currently converting Heat Transfer Coefficient units from Joule/Second Square Meter K to Kilocalorie/Hour Square Foot °C

1 Joule/Second Square Meter K (J/s∙m²∙K)

=

0.07988 Kilocalorie/Hour Square Foot °C (kcal/h∙ft²∙°C)

Joule/Second Square Meter K : The joule per second per square meter per Kelvin is a metric unit of the heat transfer coefficient. Its symbol is J/s•m²•K. It is equal to 1 watt/m²•K.

Kilocalorie/Hour Square Foot °C : The kilocalorie per hour per square foot per degree Celsius is a unit of the heat transfer coefficient. Its symbol is kcal/h•ft²•°С. It is equal to 12.51842782052 watt/m²•K.

### Heat Transfer Coefficient Conversion Calculator

1 Joule/Second Square Meter K = 0.07988 Kilocalorie/Hour Square Foot °C

### How to convert Joule/Second Square Meter K to Kilocalorie/Hour Square Foot °C ?

1 joule/second square meter k (J/s∙m²∙K) is equal to 0.07988 kilocalorie/hour square foot °c (kcal/h∙ft²∙°C).

1J/s∙m²∙K = 0.07988kcal/h∙ft²∙°C

The heat transfer coefficient h in kilocalorie/hour square foot °c (kcal/h∙ft²∙°C) is equal to the heat transfer coefficient h in joule/second square meter k (J/s∙m²∙K) times 0.07988, that conversion formula:

h(kcal/h∙ft²∙°C) = h(J/s∙m²∙K) × 0.07988

#### How many Kilocalorie/Hour Square Foot °C in a Joule/Second Square Meter K?

One Joule/Second Square Meter K is equal to 0.07988 Kilocalorie/Hour Square Foot °C:

1J/s∙m²∙K = 1J/s∙m²∙K × 0.07988 = 0.07988kcal/h∙ft²∙°C

#### How many Joule/Second Square Meter K in a Kilocalorie/Hour Square Foot °C?

One Kilocalorie/Hour Square Foot °C is equal to 12.51843 Joule/Second Square Meter K:

1kcal/h∙ft²∙°C = 1kcal/h∙ft²∙°C × 12.51843 = 12.51843J/s∙m²∙K

#### How to Convert 5 Joule/Second Square Meter K to Kilocalorie/Hour Square Foot °C?

h(kcal/h∙ft²∙°C) = 5(J/s∙m²∙K) × 0.07988 = 0.3994kcal/h∙ft²∙°C