Internal Energy• E=U(internal energy)+KE(kinetic energy)+PE(potential energy)• Extensive property since it depends on the mass of the system, U=mu, where m is the mass of the system, u is the specific energy of the system (an intensive property like temperature and pressure)• Unlike KE & PE, the internal energy is a form of energy measured on a molecular scale. It can consist of different modes: translational kinetic energy of individual molecules, rotational energy and vibrational energies associated with molecules, and intermolecular forces between molecules. The sum of all these molecular-level energies is called the internal energy.• Internal energy is a property of the substance, thus, its change in value between two states is independent of the process.12Process AProcess BEnthalpy• H=U+PV, defined as total enthalpy• H=mh, h=u+Pv, specific enthalpy will be an intensive property• It is an important property in many situations, for example, the steady flow process, h=u+P/ρ is a measure of the combined internal energy and the pressure work• It is also useful when one considers phase transition: Example: when liquid water vaporizes into water vapor, its internal energy changes from ufto ug. At the same time, itsa specific volume also changes from vfto vg, going through an expansion process; and it does work. Therefore, the total combined change of the energy will be from hf=uf+pvfto hg. Their difference hfg=hg-hfis called the latent heat of vaporization at the given temperature/pressure. TvhfhgLatent heat=hg-hf=hfgSpecific Heats• The state of a pure, compressible substance can be determined by values of two thermodynamic properties. Ex: P=P(v, T)• u=u(T,v): internal energy is a function of two variables T and v (or any other two independent properties such as P, h)• The internal energy can be varied by altering these two properties:() ()vT vvT Tuu udu du du dT dv c dT dvTv v∂∂ ∂ =+= + =+ ∂∂ ∂ • Define constant-volume specific heat cv(can sometimes be considered as heat capacity, the ability of a substance to absorb or store energy.• Similarly, the enthalpy can be described by:() ()pT ppTThh hdh dh dh dT dp c dT dpTp p ∂∂ ∂=+= + =+ ∂∂ ∂ • Define constant-pressure specific heat cpSpecific Heats (cont.)• Both cpand cvcan be considered as heat capacities but under different processes• Their ratio k(specific heat ratio) k=cp/cvis also a property of the substance.• Special cases: incompressible fluid (density and v is a constant)vpP( , ) ( ) since v is a constantc ( ) ordinary differential equation is usedh(T,P)=u(T)+Pvc , since v=constantc , for an incompressible substanceThat isPPvuuTv uTduTdThdu vduPTdT TdTc===∂∂ ==+ = ∂∂ =, for most of the compressed liquids and
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