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Table 1-3 section 1-2 SI Prefix Table 1-4 section 1-3 Conversion Factor Table 1-9 section 1-17 Gas Law Constant Table 1-11 section 1-18 Temperature Conversion Table 1-13 section 1-19 Specific Gravity (Baume, API, Twaddell)

Table 2-1 section 2-7 Physical Properties Inorganic Compound Table 2-2 section 2-28 Physical Properties Organic Compound Section 2-48 Vapor Pressure water Section 2-124 Density Section 2-122 Solubility Section 2-135 Linear Expansion Section 2-136 Volume expansion Section 2-138 Critical Constant, Acentric Factor Section 2-145 Heat of Fusion, Heat of Vaporization Section 2-156 Heat of Capacity Section 2-186 Heat and Free energies of Formation Section 2-195 Enthalpy, Gibbs Energy, Entropy Section 2-182 Heat of Solution

Table 2-187 Section 2-211 Thermodynamic Properties of Air

Table 2-305 Section 2-413 Thermodynamic Properties of Water

Table 2-138 Section 2-448 Coordinate Viscosity Liquid Figure 2-32 Section 2-449 Nomograph Viscosity Liquid Section 2-451 Prandtl Number Table 2-323 Section 2-452 Thermophysical Properties Table 2-324 Section 2-454 Diffusivities Pair Gases Equation 2-20 Section 2-477 Antoine Equation Equation 2-24 Section 2-477 Riedel Method Table 2-351 Section 2-500 Z(0) Table 2-352 Section 2-501 Z(1) Equation 2-63 Section 2-499 Lee Kesler Method Equation 2-69 Section 2-503 Rackett Method

Table 4-1 Section 4-6 Thermodynamic Definition Equation 4-36 Section 4-7 Compressibility factor Equation 4-72 Section 4-9 Second Virial Coefficient Equation 4-94 Section 4-10 Third Virial Coefficient Equation 4-74 Section 4-9 Gibbs Residual

Equation 4-75 Section 4-9 Residual enthalpy Equation 4-76 Section 4-9 Residual entropy Equation 4-77 section 4-10 B0 Equation 4-78 section 4-10 B1 Equation 4-79 Section 4-10 dB0/dTr Equation 4-80 Section 4-10 dB1/dTr Equation 4-94 Section 4-10 B Equation 4-97 Section 4-10 C Equation 4-98 Section 4-11 C0 Equation 4-99 Section 4-11 C1 Equation 4-100 Section 4-11 general cubic equation of state Table 4-2 Section 4-11 Parameter assignment Cubic equation wla ang van der waals in which α(Tr)=1 σ=0 ε=0 Ω=1/8 Ψ=27/64 Equation 4-101 section 4-11 a Equation 4-102 section 4-11 b Equation 4-107 β Equation 4-108 q Equation 4-104a saturated vapor see example 3.9 page 98 of introduction to chemical engineering thermodynamics by vaness Equation 4-104b saturated liquid see example 3.9 page 98 of introduction to chemical engineering thermodynamics by vanes Equation 4-127 Section 4-13 volume expansitivity Equation 4-128 Section 4-13 isothermal compressibility Equation 4-131 Section 4-13 see example 3.1 page 69 of introduction to chemical engineering thermodynamics by vanes para ka gets mo para asa ni na equation Equation 4-140 Section 4-13 Clapeyron Equation Between equation 4-143 and equation 4-144 section 4-13 naay equation pero wlang equation no. ΔH/RT=10 Trouton’s rule Equation 4-144 section 4-13 Riedel Equation Equation 4-166 Section 4-16 turbine efficiency Section 4-17 see example 1 LNG vaporization and compression W=Qc(Th/Tc-1) Carnot efficiency

Equation 4-297 Section 4-27 Phase Rule Pag Solve problems in introduction to chemical engineering by vanes

Equation 5-2 Section 5-3 Fourier’s law Equation 5-7 Section 5-5 Conduction Cylinder Equation 5-8 Section 5-5 Conduction Sphere Equation 5-9 Section 5-5 Conduction resistance in series Table 5-4 Section 5-21 Total Emissivity Various Surface Equation 5-197 Section 5-49 Equimolar Counter Diffusion Equation 5-198 Section 5-50 Unimolar Diffusion Table 5-9 Section 5-50 Rule of Thumb for Diffusivities

Equation 6-17 Section 6-7 Bernoulli Equation Figure 6-9 Section 6-10 Fanning Friction vs Reynolds Number Equation 6-32 Section 6-10 Fanning friction factor Equation 6-33 Section 6-10 Reynolds Number Equation 6-35 Section 6-10 Poiseuille equation Equation 6-37 Section 6-10 Blasius equation Equation 6-38 Section 6-11 Colebrook equation Figure 6-10 Section 6-11 Average velocity Figure 6-40 Section 6-35 Power number stirred tanks Equation 6-155 Section 6-35 impeller Reynolds number Equation 6-156 Section 6-35 power drawn by impeller Table 6-7 Section 6-50 Dimensionless group Equation 6-229 Section 6-51 terminal velocity for spherical particles Figure 6-57 Section 6-52 drag coefficient vs Reynolds number Equation 6-232 Section 6-52 terminal settling velocity Equation 6-233 Section 6-52 intermediate region Equation 6-234 Section 6-52 Newton’s Law region Equation 6-244 Section 6-53 Hindered Settling Velocity

Equation 7-8 Section 7-6 Arrhenius equation Equation 7-54 Section 7-12 τ cstr Equation 7-61 Section 7-12 τ pfr Table 7-4 Section 7-17 Surface Reaction Controlling Equation 7-92 Section 7-18 Michaelis Menten Table 7-5 Section 7-18 Adsorption Rate controlling Equation 7-150 Section 7-31 Monod Equation Equation 7-155 Section 7-32 Faraday’s Law Equation 7-158 Section 7-32 Nerst Equation Equation 7-168 Section 7-36 Differential Data analysis Equation 7-170 Section 7-36 Integral Data analysis Equation 7-171 Section 7-32 Half life

Equation 8-106 Section 8-59 orifice meter

Equation 9-3 Section 9-13 Cost index Table 9-10 Section 9-14 Lang Factor Table 9-11 Section 9-14 Hand Factor Table 9-12 Section 9-14 Wroth Factor

Equation 10-13 Section 10-11 Pitot tube Equation 10-22 Section 10-16 orifice meter Table 10-13 Section 10-36 Affinity Laws Table 10-22 Section 10-78 Properties Steel pipe

Equation 11-2 Section 11-4 Overall Heat Transfer Coefficient Equation 11-5 Section 11-4 logarithmic mean temperature difference Figure 11-4 Section 11-6 LMTD correction factor for heat exchanger Table 11-12 Section 11-42 Characteristic tubing BWG

Figure 11-124 Section 11-115 Boiling point rise

Table 12-1 Section 12-4 interconversion formula air water system Equation 12-3 Section 12-5 Humid Volume Figure 12-2b Section 12-9 psychometric chart Table 12-5 Section 12-14 Calculation method various humidity parameter

Figure 13-9 Section 13-10 Depriester chart Section 13-19 below equation 13-27 q feed Figure 13-23 Section 13-19 five cases of q Equation 13-28 Section 13-19 feedline equation

Equation 14-16 Section 14-12 height contact Equation 14-19 Section 14-12 height transfer unit Equation 14-21 Section 14-12 no. of transfer unit Equation 14-23 Section 14-12 Colburn equation Figure 14-55 section 14-58 pressure drop correlation Table 14-13 section 14-60 characteristics of packings Figure 14-58 section 14-65 robbins generalized pressure drop correlation

Equation 15-5 section 15-21 no. of crosscurrent liquid liquid extraction Equation 15-48 section 15-45 no. of theoretical stage counter current

Equation 16-1 section 16-10 particle density Equation 16-13 section 16-13 langmuir isotherm Equation 16-17 section 16-13 freundlich isotherm Equation 16-22 section 16-14 dubinin radushkevich equation

Equation 17-12 section 17-46 kozeny carman equation

Equation 18-45 section 18-66 no. of ideal stages

Equation 19-65 section 19-31 ergun’s equation

Equation 21-73 section 21-47 kick’s law Equation 21-74 section 21-47 rittinger’s law Equation 21-75 section 21-47 bond law Table 21-8 section 21-48 average work indices Equation 21-92 section 21-64 critical speed

Equation 22-29 section 22-86 dulong’s formula

Section 24-4 solid fuel Section 24-7 liquid fuel Section 24-10 gaseous fuel

Section 25-29 steel Section 25-30 low alloy steel, stainless steel, martensitic alloys Section 25-31 ferritic stainless steel, austenitic stainless Section 25-32 duplex stainless stainless Section 25-33 nickel alloy Section 25-34 copper alloy, brasses, bronze, aluminum and silicon bronze, cupronickel lead and alloys, titanium, zirconium, tantalum, cast materials Section 25-37 thermoplastic, polytetrafluoroethylene Section 25-41 thermosets, polypropylene, polyvinyl chloride Section 25-44 epoxy, bisphenol a, rubber, asphalt, carbon and graphite Section 25-49 refractories Section 25-50 brick Section 25-51 ceramic fiber insulating lining, castable monolithic refractories