Specific P-V Energy

Thermodynamics ENERGY, WORK, AND HEAT Example: Determine the specific internal energy of 12 lbm of steam if the total internal energy is 23,000 Btu. Solution: Using Equation 1-13. u U m u 23,000 Btu 12 lbm u 1916.67 Btu/lbm Specific P-V Energy In addition to the internal energy (U), another form of energy exists that is important in understanding energy transfer systems. This form of energy is called P-V energy because it arises from the pressure (P) and the volume (V) of a fluid. It is numerically equal to PV, the product of pressure and volume. Because energy is defined as the capacity of a system to perform work, a system where pressure and volume are permitted to expand performs work on its surroundings. Therefore, a fluid under pressure has the capacity to perform work. In engineering applications, the units of P-V energy, also called flow energy, are the units of pressure times volume (pounds-force per square foot times cubic feet), which equals foot-pounds force (ft-lbf). The specific P-V energy of a substance is the P-V energy per unit mass. It equals the total P-V divided by the total mass m, or the product of the pressure P and the specific volume n, and is written as Pn. (1-14) Pn PV m where: P = pressure (lbf/ft²) V = volume (ft³) n = specific volume (ft³/lbm) V m m = mass (lbm) Rev. 0 Page 17 HT-01