Heat & Power Review

Heat Transfer

Property Data and Phases

Numerical Problems

Miscellaneous

Units

100

The three modes of heat transfer.

Conduction, convection, radiation

100

The phase of water at 25°C and 5 kPa.

compressed liquid

100

The maximum coefficient of performance of a refrigeration cycle with maximum and minimum temperatures of 293 K and 265 K, respectively.

9.46

100

This is how we determine if a system is closed or open.

Mass crosses boundary of open system.

100

This SI unit is equivalent to one Newton per square meter.

200

Mode of energy transfer between a solid surface and the adjacent liquid or gas that is in motion.

Convection

200

The phase of water at 3.0 kPa and 30°C.

superheated vapor

200

The amount of work done by air that expands at a constant pressure of 100 kPa from a volume of 0.1 m³ to 0.2 m³.

10 kJ

200

The ideal version of this cycle consists of the following processes: isentropic compression, constant-volume heat addition, isentropic expansion, and constant-volume heat rejection.

Otto cycle

200

This prefix means 10⁶.

mega, M

300

Property that is a measure of the ability of the material to conduct heat.

thermal conductivity

300

In a saturated mixture, this is the ratio of the mass of the vapor to the total mass.

quality

300

The log mean temperature difference of a counterflow heat exchanger that heats water from 20°C to 80°C with hot water that enters at 160°C and is cooled to 125°C.

91.9°C

300

This word means no heat transfer.

adiabatic

300

This SI unit is equivalent to one joule per second.

watt (W)

400

Dimensionless number used to determine if flow is laminar or turbulent.

Reynolds number

400

The quality of a saturated liquid.

400

The thermal resistance of a 0.2-m-thick wall with an area of 10 m², if the wall has a thermal conductivity of 1.0 W/m∙K.

0.02 K/W

400

The value of this constant is 5.670×10^-8 W/m²∙K⁴.

Stefan-Boltzmann constant

400

This SI unit is equivalent to one Newton times one meter.

joule (J)

500

Typical units for the overall heat transfer coefficient.

W/m²∙K

500

This property is equivalent to internal energy plus pressure times volume.

enthalpy

500

Oil with a density of 780 kg/m3 is discharged from a pipe with a volume flow rate of 0.2 m3/min. Determine the mass flow rate in units of kg/s.

2.6 kg/s

500

This statement of the 2nd law states that heat flows spontaneously from high to low temperature, but not conversely.

Clausius statement

500

This prefix means 10^-6.

micro (μ)