Machine generated contents note: Design of Thermo-Fluids Systems -- Engineering Design -- Definition -- Types of Design in Thermo-Fluid Science -- Difference between Design and Analysis -- Classification of Design -- General Steps in Design -- Abridged Steps in the Design Process -- Air Distribution Systems -- Fluid Mechanics -- A Brief Review -- Internal Flow -- Air Duct Sizing -- Special Design Considerations -- General Considerations -- Sizing Straight Rectangular Air Ducts -- Use of an Air Duct Calculator to Size Rectangular Air Ducts -- Minor Head Loss in a Run of Pipe or Duct -- Minor Losses in the Design of Air Duct Systems -- Equal Friction Method -- Fans -- Brief Overview and Selection Procedures -- Classification and Terminology -- Types of Fans -- Fan Performance -- ^ Fan Selection from Manufacturer's Data or Performance Curves -- Fan Laws -- Design for Advanced Technology -- Small Duct High-Velocity (SDHV) Air Distribution Systems -- Problems -- References and Further Reading -- Liquid Piping Systems -- Liquid Piping Systems -- Minor Losses: Fittings and Valves in Liquid Piping Systems -- Fittings -- Valves -- Typical Piping System -- A Closed-Loop Fuel Oil Piping System -- Sizing Liquid Piping Systems -- General Design Considerations -- Pipe Data for Building Water Systems -- Fluid Machines (Pumps) and Pump-Pipe Matching -- Classifications and Terminology -- Types of Pumps -- Pump Fundamentals -- Pump Performance and System Curves -- Pump Performance Curves for a Family of Pumps -- Manufacturer's Performance Plot for a Family of Centrifugal Pumps -- Cavitation and Net Positive Suction Head
Note continued: External Flow over Bare Tubes in Cross Flow -- Equations and Charts -- External Flow over Tube Banks -- Pressure Drop -- External Flow over Finned-Tubes in Cross Flow -- Equations and Charts -- Manufacturer's Catalog Sheets for Heat Exchanger Selection -- Problems -- References and Further Reading -- Applications of Heat Exchangers in Systems -- Operation of a Heat Exchanger in a Plasma Spraying System -- Components and General Operation of a Hot Water Heating System -- Boilers for Water -- Types of Boilers -- Operation and Components of a Typical Boiler -- Water Boiler Sizing -- Boiler Capacity Ratings -- Burner Fuels -- Design of Hydronic Heating Systems c/w Baseboards or Finned-Tube Heaters -- Zoning and Types of Systems -- One-Pipe Series Loop System -- Two-Pipe Systems -- Baseboard and Finned-Tube Heaters -- Design Considerations for Hot Water Heating Systems -- Problems -- References and Further Reading -- Performance Analysis of Power Plant Systems -- Thermodynamic Cycles for Power Generation -- Brief Review -- Types of Power Cycles -- Vapor Power Cycles -- Ideal Carnot Cycle -- Vapor Power Cycles -- Ideal Rankine Cycle for Steam Power Plants -- Vapor Power Cycles -- Ideal Regenerative Rankine Cycle for Steam Power Plants -- Real Steam Power Plants -- General Considerations -- Steam-Turbine Internal Efficiency and Expansion Lines -- Closed Feedwater Heaters (Surface Heaters) -- Steam Turbine -- Steam-Turbine Internal Efficiency and Exhaust End Losses -- Casing and Shaft Arrangements of Large Steam Turbines -- Turbine-Cycle Heat Balance and Heat and Mass Balance Diagrams
Note continued: Steam-Turbine Power Plant System Performance Analysis Considerations -- Second-Law Analysis of Steam-Turbine Power Plants -- Gas-Turbine Power Plant Systems -- Ideal Brayton Cycle for Gas-Turbine Power Plant Systems -- Real Gas-Turbine Power Plant Systems -- Regenerative Gas-Turbine Power Plant Systems -- Operation and Performance of Gas-Turbine Power Plants -- Practical Considerations -- Combined-Cycle Power Plant Systems -- Waste Heat Recovery Boiler -- Problems -- References and Further Reading -- Pipe and Duct Systems -- Symbols for Drawings -- Heat Exchanger Design -- Design Project -- Possible Solution -- Fuel Oil Piping System Design -- Applicable Standards and Codes -- Equipment Manufacturers -- General Design Checklists -- Air and Exhaust Duct Systems -- Liquid Piping Systems -- Heat Exchangers, Boilers, and Water Heaters.
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