(BQ) Part 2 book "Industrial boilers and heat recovery steam generators" has contents: Fluid flow, valve sizing, and pressure drop calculations; heat transfer equipment design and performance, fans, pumps, and steam turbines. | 7 Fluid Flow, Valve Sizing, and Pressure Drop Calculations Sizing flow meters; discharge coefficients for orifices, venturis, and nozzles; permanent pressure drop across flow meters; correcting steam flow readings for different operating conditions Sizing orifices for water flow measurement Sizing orifices for steam flow measurement Significance of permanent pressure drop in flow meters; cost of permanent pressure drop across flow meters Converting pitot tube readings to air velocity, flow in ducts Sizing safety valves for boilers; ASME Code procedure Relieving capacities for steam service; orifice designations for safety valves; relating set and accumulated inlet pressures Selecting safety valves for boiler superheater; actual and required relieving capacities Relieving capacities of a given safety valve on different gases Relieving capacity of safety relief valve for liquid service Determining relieving capacity of a given safety valve on air and steam service Sizing control valves; valve coefficient Cv Calculating Cv for steam service; saturated and superheated steam; critical and noncritical flow Calculating Cv for liquid service Copyright © 2003 Marcel Dekker, Inc. On cavitation: recovery factors Selecting valves for laminar flow Calculating pressure loss in water line; determining friction factor for turbulent flow; equivalent length of piping; viscosity of water Pressure loss in boiler superheater; estimating friction factor in smooth tubes; pressure drop in smooth tubing; Reynolds number for gases Determining pressure drop under laminar conditions; pressure drop in fuel oil lines; effect of temperature on specific volume, viscosity of oils Pressure drop for viscous liquids; friction factor under turbulent conditions Calculating flow in gpm and in lb=h for fuel oils; expansion factors for fuel oils at different temperatures Pressure loss in natural gas lines using Spitzglass .