EXCUSATORIBUS: Electio, Rating, et Designatio Thermal cursus est qui praebet altissimam intelligentiam diversorum generum caloris nummariorum, eorum delectu, aestimationem, et methodologiam thermarum designandi. Cursus principales principia caloris translationis, fluidorum mechanicorum et themodynamicorum operit prout pertinent ad consilium commutatoris caloris. Discipuli varias rationes caloris nummulariorum discent, puta putamen et tubum, laminam et compagem, et aerem caloris nummularii refrigeratum, earumque diversorum applicationum opportunitatem. Discent etiam de variis modis adhibitis ad ratem et selectos caloris nummularios, inter stipes mediae caliditatis differentiam, efficaciam-NTU methodum et consilium scelerisque. Accedit, cursus consilium scelerisque caloris nummulariorum operiet incluso usu codicis designati, consilium commutatoris caloris, et usum instrumentorum instrumentorum computatorii adiuvantis. Cursus destinatus est studentibus mechanicis et chemicis Engineerings et professionalibus in campis actis sicut Aerospace et Energy engineering.
Argumenta in hoc cursu contexuimus A Module 8 ad Module 13:
8. Design Correlations for Condensers and Evaporators
8.1 Introduction
8.2 Condensatio
8.3 Film Condensatio in Uno Tube Horizontali
8.3.1
8.3.2 Coactus Convection
8.4 Film Condensatio in Tube Fasciculos
8.5 Condensatio intus Tubuli
8.6 Fluere fervens
9. Testa et Tubus Caloris Commutatores
9.1 Introduction
9.2 Basic Components
9.3 Basic Design De agendi ratione caloris Exchanger
9.4 Testa-Latus Caloris serie et Impetus Iacta
10. Foedus Caloris Exchangers
10.1 Introduction
10.2 Caloris transitus et Impetus Iacta
11. Gasketed-Plate Heat Exchangers
11.1 Introduction
11.2 Mechanica Features
11.3 Operational Characteres
11.4 Transit et O Dispositiones
III Applications
11.6 Caloris transitus ac Pressurae Iacta Rationes
11.7 Scelerisque euismod
12. Condensers et Evaporators
12.1 Introduction
12.2 Testa et Tube Condensers
12.3 Vapor Turbine Exhaurienda Condensers
12.4 Plate Condensers
12.5 Air-Cooled Condensers
12.6 Direct Contact Condensers
12.7 Thermal Design of Testa-and-Tube Condensers
12.8 Design and Operational Considerations
12.9 Condensers pro Refrigeration et Air-Conditioning
12.10 Evaporators pro Refrigeration et Air-Conditioning
12.11 Scelerisque Analysis
12.12 Signa pro Evaporatoribus et Condensers
13. Polymerus Caloris Commerciorum
13.1 Introduction
13.2 Polymerus Matrix Materias compositas (PMC)
13.3 Nanocomposites
13.4 Application Polymerorum in Caloris Commerciorum
13.5 Polymerus Foedus Caloris Commerciorum
13.6 Potentia Applications pro Polymer Film Foedus Caloris Commutatores
13.7 Thermal Design of Polymer heat exchangers