1. No | 2. Title | 0. ID | 5. Type | 9. Subtopic | 10. Topic | 11. Reference | 8.Minor Subject | 12. Subject |

1101 | Basic Terminology | 287 | Example | Temperature Dependence | Reaction Parameters |
RH_p174 |
Symbols and Definitions |
Kinetics |

1102 | Evaluation of Arrhenius Parameters | 288 | Example | Temperature Dependence | Temperature Dependence |
RH_p178 |
Symbols and Definitions |
Kinetics |

1103 | Batch Reactor | 289 | Example | Batch Reactor | Batch Reactor |
RH_p179 |
Integrated Reactor Equations for Irreversible Reaction |
Kinetics |

1104 | Batch Reactor | 290 | Example | Batch Reactor | Batch Reactor |
RH_p179 |
Integrated Reactor Equations for Irreversible Reaction |
Kinetics |

1105 | Differential Method | 291 | Example | Reaction Parameters | Reaction Parameters |
RH_p174 |
Symbols and Definitions |
Kinetics |

1106 | Batch Reactor - Constant Pressure | 292 | Example | Batch Reactor | Batch Reactor |
RH_p179 |
Integrated Reactor Equations for Irreversible Reaction |
Kinetics |

1107 | Batch Reactor - Constant Volume | 293 | Example | Batch Reactor | Batch Reactor |
RH_p179 |
Integrated Reactor Equations for Irreversible Reaction |
Kinetics |

1108 | Plug Flow Reactor (PFR) - First Order | 294 | Example | First-Order | Flow Reactors, Steady State |
RH_p178 |
Reactor Equations |
Kinetics |

1110 | Plug Flow Reactor (PFR) - Second Order - Constant Pressure | 295 | Example | Second-Order | Flow Reactors, Steady State |
RH_p178 |
Reactor Equations |
Kinetics |

1111 | Continuously Stirred Tank Reactor (CSTR) | 296 | Example | Flow Reactors, Steady State | Flow Reactors, Steady State |
RH_p178 |
Reactor Equations |
Kinetics |

1112 | Reactors in Series | 297 | Example | Flow Reactors, Steady State | Flow Reactors, Steady State |
RH_p178 |
Reactor Equations |
Kinetics |

1113 | Reactors in Series | 298 | Example | Flow Reactors, Steady State | Flow Reactors, Steady State |
RH_p178 |
Reactor Equations |
Kinetics |

2101 | Compressibility factor | 299 | Example | Ideal and Real Gas Laws | Nonideal Systems |
RH_p96 |
Behavior of Single-Component Systems |
Mass/Energy Balances and Thermodynamics |

2102 | Pitzer acentric factor | 300 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

2103 | Pitzer acentric factor | 301 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

2104 | van der Waals equation of state | 302 | Example | Ideal and Real Gas Laws | Ideal and Real Gas Laws |
RH_p96 |
Behavior of Single-Component Systems |
Mass/Energy Balances and Thermodynamics |

2105 | Redlich Kwong Equation | 303 | Example | Redlich Kwong Equation | Redlich Kwong Equation |
PE |
Redlich Kwong Equation |
Mass/Energy Balances and Thermodynamics |

2106 | Internal energy, enthalpy, entropy, and volume | 304 | Example | Internal energy, enthalpy, entropy, and volume | Internal energy, enthalpy, entropy, and volume |
PE |
Ideal and Real Gas Laws |
Mass/Energy Balances and Thermodynamics |

2107 | Adiabatic process | 305 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

2108 | Polytropic process | 306 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

2109 | Isothermal process | 307 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

2110 | Isobaric | 308 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

2111 | Isochoric | 309 | Example | Isometic/isochoric (constant volume) operation | Isometic/isochoric (constant volume) operation |
PE |
Ideal and Real Gas Laws |
Mass/Energy Balances and Thermodynamics |

2113 | Joule-Thompson effect | 310 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

2116 | Vapor pressure | 311 | Example | Thermodynamics | Phase Equilibrium for a Pure Component |
RH_p96 |
Behavior of Single-Component Systems |
Mass/Energy Balances and Thermodynamics |

2117 | Enthalpy of vaporization | 312 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

2118 | Activity coefficient | 313 | Example | Nonideal Systems | Nonideal Systems |
RH_p97 |
Thermodynamic Properties |
Mass/Energy Balances and Thermodynamics |

2119 | Heat of formation | 314 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

2120 | Saturated volume of liquid | 315 | Example | Thermodynamic Property | Thermodynamic Property |
PE |
Ideal and Real Gas Laws |
Mass/Energy Balances and Thermodynamics |

2121 | Viscosity of gas at low pressure | 316 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

2122 | Viscosity of gas at high pressure | 317 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

2123 | Viscosity of liquid | 318 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

2124 | Thermal conductivity of gases | 319 | Example | Thermal conductivity of gases | Thermal conductivity of gases |
PE |
Thermodynamic Properties |
Mass/Energy Balances and Thermodynamics |

2125 | Chemical equilibrium | 320 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

2126 | Partial molar properties | 321 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

2127 | Ideal gas heat capacity | 322 | Example | Thermodynamics | Ideal Systems |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

2128 | Liquid heat capacity | 323 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

3103 | Combustion Air Requirement | 324 | Example | Material Balances With Reaction | Energy Balances and Thermodynamics |
PE |
Mass Balances with Reaction |
Mass/Energy Balances and Thermodynamics |

3104 | Excess Air for Combustion | 325 | Example | Material Balances With Reaction | Energy Balances and Thermodynamics |
PE |
Mass Balances with Reaction |
Mass/Energy Balances and Thermodynamics |

3105 | Products of Combustion | 326 | Example | Material Balances With Reaction | Energy Balances and Thermodynamics |
PE |
Mass Balances with Reaction |
Mass/Energy Balances and Thermodynamics |

3106 | Steam Superheater | 327 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

3107 | Explosive Limits | 328 | Example | Environmental Considerations | Environmental Considerations |
RH_p529 |
Safety, Health, and Environment |
Plant Design and Operation |

3108 | Oxygen Correction | 329 | Example | Mass/Energy Balances | Mass/Energy Balances |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

3109 | Performance _ Destruction and Removal | 330 | Example | Environmental Considerations | Environmental Considerations |
RH_p529 |
Safety, Health, and Environment |
Plant Design and Operation |

3110 | Process Stoichiometry and Energy Balances | 331 | Example | Mass/Energy Balances | Mass/Energy Balances |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

3111 | Moist Air Properties | 332 | Example | Humidification and Dehumidification | Humidification and Dehumidification |
RH_p338 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

3112 | Heating of Moist Air | 333 | Example | Humidification and Dehumidification | Humidification and Dehumidification |
RH_p338 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

3113 | Cooling of Moist Air | 334 | Example | Humidification and Dehumidification | Humidification and Dehumidification |
RH_p338 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

3114 | Adiabatic Mixing of Two Streams of Moist Air | 335 | Example | Humidification and Dehumidification | Humidification and Dehumidification |
RH_p338 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

3115 | Adiabatic Mixing of Moist Air with Injected Water | 336 | Example | Humidification and Dehumidification | Humidification and Dehumidification |
RH_p338 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

3116 | Adiabatic Saturation | 337 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

3117 | Enthalpy Concentration Chart | 338 | Example | Thermodynamics | Thermodynamics |
PE |
Thermodynamics |
Mass/Energy Balances and Thermodynamics |

3118 | Dehumidification | 339 | Example | Dehumidification | Dehumidification |
RH_p338 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

4101 | Pitot Tube _ Liquid | 340 | Example | Flow Measurement Application | Flow Measurement Application |
PE |
Flow and Pressure Measurement Techniques |
Fluids |

4102 | Pitot Tube _ Gas | 341 | Example | Flow Measurement Application | Flow Measurement Application |
PE |
Flow and Pressure Measurement Techniques |
Fluids |

4103 | Venturi Meter _ Liquid | 342 | Example | Orifice, Nozzle, and Venturi Meters | Orifice, Nozzle, and Venturi Meters |
RH_p256 |
Flow and Pressure Measurement Techniques |
Fluids |

4104 | Venturi Meter _ Gas | 343 | Example | Orifice, Nozzle, and Venturi Meters | Orifice, Nozzle, and Venturi Meters |
RH_p256 |
Flow and Pressure Measurement Techniques |
Fluids |

4105 | Flow through Nozzle | 344 | Example | Orifice, Nozzle, and Venturi Meters | Orifice, Nozzle, and Venturi Meters |
RH_p256 |
Flow and Pressure Measurement Techniques |
Fluids |

4106 | Flow through Orifice Plate | 345 | Example | Orifice, Nozzle, and Venturi Meters | Orifice, Nozzle, and Venturi Meters |
RH_p256 |
Mass and Volumetric Meters |
Fluids |

4107 | Flow in Pipes | 346 | Example | Bernoulli Equation | Bernoulli Equation |
PE |
Flow Behavior |
Fluids |

4108 | Flow of Fluids and Material of Construction | 347 | Example | Bernoulli Equation | Bernoulli Equation |
PE |
Flow Behavior |
Fluids |

4109 | Fluid Velocity _ Closed Pipe | 348 | Example | Velocity | Velocity |
RH_p194 |
Flow Behavior |
Fluids |

4110 | Pipe Size _ Incompressible Fluids | 349 | Example | Compressible Flow | Compressible Flow |
RH_p216 |
Flow Behavior |
Fluids |

4111 | Pipe Roughness | 350 | Example | Bernoulli Equation | Bernoulli Equation |
PE |
Flow Behavior |
Fluids |

4112 | Losses as Number of Velocity Heads | 351 | Example | Velocity | Velocity |
RH_p194 |
Flow Behavior |
Fluids |

4113 | Losses as Equivalent length | 352 | Example | Turbulent Flow | Turbulent Flow |
RH_p201 |
Flow Behavior |
Fluids |

4114 | Pump Work, Minor Losses | 353 | Example | Flow Behavior | Pumps |
PE |
Flow Applications |
Fluids |

4115 | Isothermal Flow of Liquids | 354 | Example | Compressible Flow | Compressible Flow |
RH_p216 |
Flow Behavior |
Fluids |

4116 | Piping Network | 355 | Example | Pumps | Pumps |
RH_p221 |
Flow Behavior |
Fluids |

4117 | Piping Network | 356 | Example | Pumps | Pumps |
RH_p221 |
Flow Behavior |
Fluids |

4118 | Piping Network | 357 | Example | Pumps | Pumps |
RH_p221 |
Flow Behavior |
Fluids |

4119 | Pumping of Liquids | 358 | Example | Pumps | Pumps |
RH_p221 |
Flow Applications |
Fluids |

4120 | Specific Speed and Pumping Arrangement | 359 | Example | Pumps | Pumps |
RH_p221 |
Flow Applications |
Fluids |

4121 | Operating Point for a Pump | 360 | Example | Pumps | Pumps |
RH_p221 |
Flow Applications |
Fluids |

5101 | Conduction through a Composite Layer | 361 | Example | Conduction | Conduction - Rectangular Body |
RH_p118 |
Heat-Transfer Mechanisms |
Heat Transfer |

5102 | Conduction through a Cylinderical Body | 362 | Example | Conduction | Heat-Exchange Equipment Design |
RH_p118 |
Heat-Transfer Applications |
Heat Transfer |

5103 | Critical Radius of Insulation | 363 | Example | Heat-Exchange Equipment Design | Heat-Exchange Equipment Design |
PE |
Heat-Transfer Applications |
Heat Transfer |

5104 | Free Convection | 364 | Example | Convection | Free-Forced Heat Transfer Coefficients |
RH_p120 |
Heat-Transfer Mechanisms |
Heat Transfer |

5105 | Flow through Tube | 365 | Example | Heat-Exchange Equipment Design | Heat-Exchange Equipment Design |
PE |
Heat-Transfer Applications |
Heat Transfer |

5106 | Flow through annuli | 366 | Example | Heat-Exchange Equipment Design | Heat-Exchange Equipment Design |
PE |
Heat-Transfer Applications |
Heat Transfer |

5107 | Tube Wall temperature | 367 | Example | Tube Wall temperature | Tube Wall temperature |
PE |
Tube Wall temperature |
Heat Transfer |

5108 | Clean Coefficient, Uc and Fouling Resistance | 368 | Example | Heat-Exchange Equipment Design | Heat-Exchange Equipment Design |
PE |
Heat-Transfer Applications |
Heat Transfer |

5109 | Driving Force for Heat Transfer | 369 | Example | Driving Force for Heat Transfer | Driving Force for Heat Transfer |
PE |
Driving Force for Heat Transfer |
Heat Transfer |

5110 | Optimum Outlet Temperature | 370 | Example | Optimum Outlet Temperature | Optimum Outlet Temperature |
PE |
Optimum Outlet Temperature |
Heat Transfer |

5111 | Shell and Tube Exchangers | 371 | Example | Heat-Exchange Equipment Design | Heat-Exchange Equipment Design |
PE |
Heat-Transfer Applications |
Heat Transfer |

5112 | Condensation of Vapors | 372 | Example | Condensation | Condensation of Vapors |
PE |
Heat-Transfer With Phase Change |
Heat Transfer |

5113 | Condensation in a Horizontal Tube | 373 | Example | Condensation | Condensation - Horizontal Tube |
PE |
Heat-Transfer With Phase Change |
Heat Transfer |

5114 | Isothermal Heating of Batch Contents by Internal Coil | 374 | Example | Heat-Exchange Equipment Design | Heat-Exchange Equipment Design |
PE |
Heat-Transfer Applications |
Heat Transfer |

5115 | Non-Isothermal Batch Cooling | 375 | Example | Non-isothermal Heating | Non-isothermal Heating |
PE |
Integrated Reactor Equations for Irreversible Reaction |
Heat Transfer |

5116 | Heating of Tank Contents by an External Heat Exchanger | 376 | Example | Heat-Exchange Equipment Design | Heat-Exchange Equipment Design |
PE |
Heat-Transfer Applications |
Heat Transfer |

5117 | Agitated vessel | 377 | Example | Heat Transfer - Agitated Vessel | Heat Transfer - Agitated Vessel |
PE |
Heat Transfer - Agitated Vessel |
Heat Transfer |

5118 | Parallel Surfaces | 378 | Example | Heat-Exchange Equipment Design | Heat-Exchange Equipment Design |
PE |
Heat-Transfer Applications |
Heat Transfer |

5119 | Radiation Shield | 379 | Example | Radiation | Heat-Exchange Equipment Design |
RH_p127 |
Heat-Transfer Applications |
Heat Transfer |

5120 | Wall of Infinite Thickness Heated on One Side | 380 | Example | Unsteady-state Heat Transfer - Infinite Thickness | Unsteady-state Heat Transfer - Infinite Thickness |
PE |
Unsteady-state Heat Transfer - Infinite Thickness |
Heat Transfer |

5121 | Wall of Finite Thickness Heated on Both Sides | 381 | Example | Unsteady-state Heat Transfer - Finite Thickness | Unsteady-state Heat Transfer - Finite Thickness |
PE |
Unsteady-state Heat Transfer - Finite Thickness |
Heat Transfer |

5122 | Finite Body Heated by a Fluid with Contact Resistance | 382 | Example | Heat-Exchange Equipment Design | Heat-Exchange Equipment Design |
PE |
Heat-Transfer Applications |
Heat Transfer |

6101 | Vapor Liquid Equilibrium, Dew Point | 383 | Example | Phase Equilibrium Applications | Phase Equilibrium Applications |
RH_p272 |
Phase Equilibria |
Mass Transfer |

6102 | Bubble Point | 384 | Example | Bubble Point | Bubble Point |
RH_p272 |
Phase Equilibria |
Mass Transfer |

6103 | Relative Volatility | 385 | Example | Material and Energy Balances for Trayed and Packed Units | Material and Energy Balances for Trayed and Packed Units |
RH_p285 |
Continuous Vapor-Liquid Contactors |
Mass Transfer |

6104 | Equilibrium Curve | 386 | Example | Material and Energy Balances for Trayed and Packed Units | Material and Energy Balances for Trayed and Packed Units |
RH_p285 |
Continuous Vapor-Liquid Contactors |
Mass Transfer |

6105 | Flash Vaporization | 387 | Example | Phase Equilibrium Applications | Phase Equilibrium Applications |
RH_p272 |
Continuous Vapor-Liquid Contactors |
Mass Transfer |

6106 | Batch Distillation | 388 | Example | Batch Distillation | Batch Distillation |
RH_p368 |
Mass Transfer |
Mass Transfer |

6107 | Fractionation | 389 | Example | Material and Energy Balances for Trayed and Packed Units | Material and Energy Balances for Trayed and Packed Units |
RH_p285 |
Continuous Vapor-Liquid Contactors |
Mass Transfer |

6108 | Feed Quality | 390 | Example | Material and Energy Balances for Trayed and Packed Units | Material and Energy Balances for Trayed and Packed Units |
RH_p285 |
Continuous Vapor-Liquid Contactors |
Mass Transfer |

6109 | Minimum Reflux Ratio | 391 | Example | Material and Energy Balances for Trayed and Packed Units | Material and Energy Balances for Trayed and Packed Units |
RH_p285 |
Continuous Vapor-Liquid Contactors |
Mass Transfer |

7101 | Gas Absorption | 392 | Example | Material and Energy Balances for Trayed and Packed Units | Material and Energy Balances for Trayed and Packed Units |
RH_p285 |
Continuous Vapor-Liquid Contactors |
Mass Transfer |

7102 | Number of Transfer Unit | 393 | Example | Material and Energy Balances for Trayed and Packed Units | Material and Energy Balances for Trayed and Packed Units |
RH_p285 |
Continuous Vapor-Liquid Contactors |
Mass Transfer |

7103 | Mass Transfer Coefficient | 394 | Example | Nontrayed Continuous Contact Columns | Nontrayed Continuous Contact Columns |
PE |
Mass Transfer Coefficient/Height of Transfer Unit |
Mass Transfer |

7104 | Pressure Drop in a Packed Column | 395 | Example | Material and Energy Balances for Trayed and Packed Units | Material and Energy Balances for Trayed and Packed Units |
RH_p285 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

7105 | Steam Stripping | 396 | Example | Material and Energy Balances for Trayed and Packed Units | Material and Energy Balances for Trayed and Packed Units |
RH_p285 |
Continuous Vapor-Liquid Contactors |
Mass Transfer |

7106 | Number of Transfer Unit | 397 | Example | Material and Energy Balances for Trayed and Packed Units | Material and Energy Balances for Trayed and Packed Units |
RH_p285 |
Continuous Vapor-Liquid Contactors |
Mass Transfer |

8101 | Crosscurrent, multiple stage | 398 | Example | Miscellaneous Mass Transfer Processes | Liquid-Liquid Extraction |
RH_p345 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

8102 | Immiscible Solvents | 399 | Example | Miscellaneous Mass Transfer Processes | Liquid-Liquid Extraction |
RH_p345 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

8103 | Counter-current Extraction | 400 | Example | Liquid-Liquid Extraction | Liquid-Liquid Extraction |
RH_p345 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

9101 | Right-angle Triangular Diagram | 401 | Example | Miscellaneous Mass Transfer Processes | Leaching |
RH_p366 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

9102 | Crosscurrent Leaching | 402 | Example | Leaching | Leaching |
RH_p366 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

9103 | Ponchon-Savarit Diagram | 403 | Example | Miscellaneous Mass Transfer Processes | Leaching |
RH_p366 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

9104 | Counter-current Leaching | 404 | Example | Leaching | Leaching |
RH_p366 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

9105 | Equilibrium Stages for Constant Solvent/Inert Ratio | 405 | Example | Miscellaneous Mass Transfer Processes | Leaching |
RH_p366 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

10101 | Single Effect Evaporation, Boiling Point Rise | 406 | Example | Evaporation | Evaporation |
PE |
Evaporation |
Heat Transfer |

10102 | Multiple Effect Evporation, Heat Transfer Area | 407 | Example | Evaporation | Evaporation |
PE |
Evaporation |
Heat Transfer |

10103 | Backward Feed Multiple Effect Evaporators | 408 | Example | Evaporation | Evaporation |
PE |
Evaporation |
Heat Transfer |

11101 | Rates of Drying | 409 | Example | Drying of Solids | Drying of Solids |
RH_p376 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

11102 | Drying of Granular Solids, Air Requirement | 410 | Example | Drying of Solids | Drying of Solids |
RH_p376 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

11103 | Cooling Tower Operation | 411 | Example | Cooling Towers | Cooling Towers |
RH_p338 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

11104 | Cooling Tower Height | 412 | Example | Cooling Towers | Cooling Towers |
RH_p338 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

12101 | Leaf Filter, Constant Filtration | 413 | Example | Filtration | Filtration |
RH_p374 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

12102 | Plate and Frame Press, Cake Washing | 414 | Example | Miscellaneous Mass Transfer Processes | Filtration |
RH_p374 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

12103 | Centrifugal Filtration | 415 | Example | Filtration | Filtration |
RH_p374 |
Miscellaneous Mass Transfer Processes (Continuous, Batch, and Semicontinuous) |
Mass Transfer |

14101 | Cyclone Separator | 416 | Example | Cyclone | Cyclone |
RH_p242 |
Flow Applications |
Fluids |

14102 | Electrostatic Precipitator | 417 | Example | Gas Cleaning | Gas Cleaning |
PE |
Gas Cleaning |
Plant Design and Operation |