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ZYXWVUTSRQPONMLKJIHysteresis:Hydrostatic testing ofshell-and-tube heatexchangers,Hydrogen sulfide:Hydrogen peroxide:Hydrogen iodide:Hydrogen fluoride:Hydrogen cyanide:Hydrogen chloride:Hydrogen bromide:Hydrogen:Hydrodynamicentrance length, insingle-phase flow inducts,Hydrocarbons:Hydrazine:Hydraulically smoothsurface,Hydraulic resistance,in flow of supercriticalfluids,Hydraulic turbine, lostwork in,Hydraulic expansion,of tubes into tubesheets inshell-and-tube heatexchangers,Hydraulicconveyance:Hybrid cooling towers,Hsu criterion, foronset of nucleateboiling,Hottel's rule, inabsorption ofradiation by gases,Horizontal tubes:Horizontal tube-sideevaporator,Horizontalthermosiphonreboilers:Horizontal surfaces:Horizontal shell-sideevaporator,Horizontal pipes:Horizontal layers, offluid, free convectionheat transfer in,Horizontal cylinders:Horizontalcondensers:Hopkins, D,Honeycombs:Homogeneousnucleation:Homogeneous model:Homogeneouscondensation (fogformation),Holland, guide tonational practice formechanical design ofheat exchangers,Holdup, in liquid-liquidflow,Hohlraum cavity,Hills, P DHigh-finned tubes,correlations forsingle-phase heattransfer in flow over,High-chrome steels,thermal andmechanicalproperties,High pressureclosures, ASME VIIIcode guidance for,Hicks equation, forfixed-bed pressuredrop,Hexylcyclopentane,Hexylcyclohexane:Hexylbenzene:1-Hexene:1-Hexanol:Hexanoic acid:Hexane:Hexamethylbenzene:Hexagonal cells, infree convection,1,5-Hexadiene:Hexadecene:Hexadecane:Hexacyclopentane,superheated vaporproperties,Hexachloroethane(Refrigerant 116):Hewitt, G FHeterogeneousnucleation in boiling,Heterogeneousconveyance inhorizontal pipes,Hermes, C L L,Herman, K W,1-Heptene:1-Heptanol:Heptane:Heptadecene:Heptadecane:Henry's law, forpartial pressure,Henry-Fauske model,for critical two-phaseflow,Henry, J A R,Helmholtz reciprocityprinciple, in radiativeheat transfer,Helium:Helical inserts, forenhancement of heattransfer in boiling,Helical coils ofrectangular crosssection,Helical coils of circularcross section:Heggs, P J,Heavy water, physicalproperties of,Heating media, forreboilers,Heated cavityreflectometer,Heat of vaporization,Heat transferregimes:Heat transfer salt,Heat transfer media,Heat transfercoefficient:Heat transfer:Heat storage (seeRegenerators andthermal energystorage) entropygeneration in,Heat pumping,relation to heatexchanger networkdesign,Heat pipes:Heat of vaporisation(see Enthalpy ofvaporisation), of puresubstancesΘ-method chart for,Θ-method forwith tube inserts,with dimpled surfaces,twisted tube,liquid-to-suction linetype,Suction line heatexchangerscapillary tube tosuction line type,Suction line heatexchangerssuction lineexchangers inrefrigeration,shell-and-tube (singlephase), thermaldesign ofsafety ofrepresentation asinterpenetratingcontinua,pressure drop inheaders, nozzles, andturnarounds,practical aspects ofoperation,P-NTU method forplate, thermal designof,plate fin,numerical solutionmethods for: withcalculation of flowpattern,networks of, pinchanalysis method for,mechanical design:air-cooled,heat pipe,gas-liquid pressuredrop in,fouling of,F-factor charts for,F-correction methodforentropy generation in,effectiveness of:double pipe,design,description of,definitions andquantitativerelationships,costing,corrosion and otherdamage,condensers,Heat exchangers:Heat exchangerdesign, introduction,Heat and masstransfer:Heads, in heatexchangers:Headers inshell-and-tube heatexchangers,Hays, G FHausen equation fordeveloping laminarflow,Harris, D,Hardwick, R,Hardening(precipative) ofstainless steels,Hankinson andThomson method, forliquid density:Handley and Heggsequation for fixed bedpressure drop,Halogenatedhydrocarbons:Hall Taylor, N S,Hagen-Rubensrelation, betweenelectrical and opticalconstants,Hagen-Poiseuille lawHGFEDCBAHEDH

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Suction line heat exchangers