Difference between revisions of "CIO 320"
(Created page with "Chemical Engineering Design was born out of two previous curriculum subjects, namely Heat Transfer and Piping Systems Design. Thus CIO 320 and CMO 310 Mass Transfer 3...") |
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| − | Chemical Engineering Design was born out of two previous curriculum subjects, namely Heat Transfer and Piping Systems Design. Thus [[CIO 320]] and [[CMO 310]] Mass Transfer 310 is a continuation of [[COP 311]] Transfer processes 311 | + | Chemical Engineering Design was born out of two previous curriculum subjects, namely Heat Transfer and Piping Systems Design. Thus [[CIO 320]] and [[CMO 310]] (Mass Transfer 310) is a continuation of [[COP 311]] (Transfer processes 311). The subject also serves to prepare students for [[CPJ 421]] ( Design project 421) through an assignment focusing on the design of a piping system including a heating/cooling utility. |
| − | Steady and unsteady state conductive heat transfer in one to three dimensions. Temperature distributions. Convective heat transfer. Application of boundary layer theory. Determination of film coefficients. Design of heat transfer equipment. | + | The subject covers: |
| + | * Heat transfer | ||
| + | Steady and unsteady state conductive heat transfer in one to three dimensions. Temperature distributions. Convective heat transfer. Application of boundary layer theory. Determination of film coefficients. Radiant heat transfer. Boiling and condensation. Design of heat transfer equipment. | ||
| + | |||
| + | * Momentum Transfer | ||
| + | Application of the mechanical energy balance to single phase Newtonian fluids in steady state systems. Adjustment for multi-phase, non-Newtonian, compressible as well as pulsating systems. Orifice design. Optimal economic choice of pipe diameters, pumps and control valves. Design of piping systems. | ||
Revision as of 13:29, 24 October 2015
Chemical Engineering Design was born out of two previous curriculum subjects, namely Heat Transfer and Piping Systems Design. Thus CIO 320 and CMO 310 (Mass Transfer 310) is a continuation of COP 311 (Transfer processes 311). The subject also serves to prepare students for CPJ 421 ( Design project 421) through an assignment focusing on the design of a piping system including a heating/cooling utility.
The subject covers:
- Heat transfer
Steady and unsteady state conductive heat transfer in one to three dimensions. Temperature distributions. Convective heat transfer. Application of boundary layer theory. Determination of film coefficients. Radiant heat transfer. Boiling and condensation. Design of heat transfer equipment.
- Momentum Transfer
Application of the mechanical energy balance to single phase Newtonian fluids in steady state systems. Adjustment for multi-phase, non-Newtonian, compressible as well as pulsating systems. Orifice design. Optimal economic choice of pipe diameters, pumps and control valves. Design of piping systems.
