Heat converters are types of converters mostly used in thermodynamic calculations i.e. engineering. Here you can convert fuel efficiency –mass , fuel efficiency-volume , temperature intervals , thermal expansion , heat , thermal resistance , thermal conductivity , specific heat capacity , heat flux density , and heat transfer coefficient units.
The fuel efficiency mass converter offers conversion between various fuel efficiency mass units from different unit systems. The general measure of fuel efficiency mass is energy/mass. The SI unit for measuring fuel efficiency mass is Joule per kilogram \(\left[\frac{\mathrm{J}}{\mathrm{kg}}\right]\).
The fuel efficiency–volume converter offers conversion between various fuel efficiency-volume units used in different unit systems. The general form of the unit for measuring fuel efficiency volume is energy/volume. The SI unit for measuring fuel efficiency volume is Joule per cubic meter \(\left[\frac{\mathrm{J}}{\mathrm{m}^3}\right]\)
The temperature intervals converter offers conversion between various temperature interval units.
The thermal expansion converter offers conversion between various thermal expansion units used in different unit systems. Thermal expansion can be defined tendency of matter to change shape, area, volume, and density as a response to temperature change. The SI unit for thermal expansion is \(\left[\frac{1}{\mathrm{K}}\right]\).
The heat converter offers conversion between various heat units used in different unit systems. Heat is defined as energy in transfer to or from a thermodynamic system. In SI unit heat is measured in joule [J].
The thermal resistance converter offers conversion between various thermal resistance units used in different unit systems. Thermal resistance can be defined as a measurement of a temperature difference by which the material resists a heat flow. In SI units the thermal resistance is measured in Kelvins per watt \(\left[\frac{\mathrm{K}}{\mathrm{W}}\right]\).
The thermal conductivity converter offers conversion between various thermal conductivity units from different unit systems. Thermal conductivity can be defined as a measure of material ability to conduct heat. In SI units, thermal conductivity is measured in watts per meter-kelvin \(\left[\frac{\mathrm{K}}{\mathrm{m}\cdot \mathrm{K}}\right]\).
The specific heat capacity converter offers conversion between various specific heat capacity units from different unit systems. The specific heat capacity of a substance is the heat capacity of a sample of the substance which is divided by the sample mass. In other words, it is the amount of heat that must be added to a mass unit of substance to cause a unit temperature increase. The SI unit of specific heat capacity is joule per kelvin per kilogram \(\left[\frac{\mathrm{J}}{\mathrm{kg}\cdot\mathrm{K}}\right]\).
The heat flux density converter (alternative names: heat flux converter/thermal flux converter, heat flow density converter) offers conversion between various heat flux units from different unit systems. The heat flux density is the flow of energy per unit area per unit of time. The heat flux density in SI units is wats per square meter \(\left[\frac{\mathrm{W}}{\mathrm{m}^2}\right]\). The heat flux density is the vector quantity since it has a direction and magnitude.
The heat transfer coefficient converter(alternative names film coefficient converter/film effectiveness converter) offers conversion between various heat transfer coefficient units from different unit systems. The heat transfer coefficient is constant of proportionality between heat flux and the thermodynamic driving force for the flow of heat which is the temperature difference i.e. temperature interval \(\Delta T\). In SI the heat transfer coefficient unit is derived unit and is watt per square meter kelvin \(\left[\frac{\mathrm{W}}{\mathrm{m}^2\cdot \mathrm{K}}\right]\).