?_˙˙˙˙4Łoflů„€€ ƒƒă3ű€ ‰€ ‚˙Running - Otto Cycle< üˆ/ .€€°˜€ ƒă´‰€ ‚˙DieselR!LÚ1 2€B€€ ƒƒă^ű€ ‰€ ‚˙Running - Diesel CycleT&ˆ.. ,€L€°˜ă€‰€‚˙Power Cycle Components/Processesm,Ú›A R€X€˜˜€ƒăé€ ‰€ ‚€ ƒƒăćB߉€ ‚˙CompressionIsentropic (Ideal)h6. 2 4€l€€ ƒƒƒăÄ<€%€ ‰€ ‚˙Running - Compression: Isentropic (Ideal)I›L 0 0€2€°˜€ ƒƒăçB߉€ ‚˙Isentropic (Real)g5 ł 2 4€j€€ ƒƒƒăď<€%€ ‰€ ‚˙Running - Compression: Isentropic (Real)BL ő 0 0€$€°˜€ ƒƒăčB߉€ ‚˙Isothermal`.ł U 2 4€\€€ ƒƒƒă=€%€ ‰€ ‚˙Running - Compression: Isothermal@ő • / .€"€°˜€ ƒăꉀ ‚˙Combustion@U Ő 0 0€ €˜˜€ ƒƒăJ߉€ ‚˙Coal/Oil]+• 2 2 4€V€€ ƒƒƒăWs%€ ‰€ ‚˙Running - Combustion: Coal/Oil; Ő m 0 0€€°˜€ ƒƒă J߉€ ‚˙GasX&2 Ĺ 2 4€L€€ ƒƒƒă‚s%€ ‰€ ‚˙Running - Combustion: Gas?m  / .€ €°˜€ ƒă뉀 ‚˙ExpansionJĹ N 0 0€4€˜˜€ ƒƒăXQ߉€ ‚˙Isentropic (Ideal)f4 ´ 2 4€h€€ ƒƒƒăꩂ%€ ‰€ ‚˙Running - Expansion: Isentropic (Ideal)IN ý 0 0€2€°˜€ ƒƒăYQ߉€ ‚˙Isentropic (Real)e3´ b 2 4€f€€ ƒƒƒăŞ‚%€ ‰€ ‚˙Running - Expansion: Isentropic (Real)Bý ¤ 0 0€$€°˜€ ƒƒăZQ߉€ ‚˙Isothermal^,b 2 4€X€€ ƒƒƒă@Ş‚%€ ‰€ ‚˙Running - Expansion: IsothermalE¤ G. ,€.€°˜ă€‰€‚˙Compressible FlowGŽ/ .€0€˜˜€ ƒă"&‰€ ‚˙Velocity of SoundW&Gĺ1 2€L€€ ƒƒăŘg€ ‰€ ‚˙Running - Velocity of SoundAŽ&/ .€$€°˜€ ƒă#&‰€ ‚˙Mach NumberQ ĺw1 2€@€€ ƒƒăh€ ‰€ ‚˙Running - Mach Number@&ˇ/ .€"€°˜€ ƒă$&‰€ ‚˙PropertiesBw @0 0€$€˜˜€ ƒƒă |‰€ ‚˙Stagnationˇ @ ]+ˇi@2 4€V€€ ƒƒƒăĽŐE.€ ‰€ ‚˙Running - Stagnation Properties> @§@0 0€€°˜€ ƒƒă |‰€ ‚˙StaticY'i@A2 4€N€€ ƒƒƒăĐŐE.€ ‰€ ‚˙Running - Static Properties< §@ĘAZB/ .€€°˜€ ƒă'&‰€ ‚˙DiffuserNB¨B1 2€:€€ ƒƒăŻh€ ‰€ ‚˙Running - Diffuser< ZBäB/ .€€°˜€ ƒă(&‰€ ‚˙ThrustL¨B0C1 2€6€€ ƒƒăÚh€ ‰€ ‚˙Running - Thrust1äBaC1W ˙˙˙˙˙˙˙˙˙˙˙˙aC‡Lëą0CLD: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+aCwD( €€˜˜‚Q€ ‚˙ËLD~F< F€—€€‚€‚€ €‚€ €‚‚‚‚‚‚‚˙Program DescriptionEngineering Software has developed a new Windows based softwarepackage, Power and Propulsion Systems Analysis, that quickly andreliably analyzes power cycles, power cycle components/processes andcompressible flow.This software package should prove to be a good tool for those who areinvolved at various levels with design, operation and management ofpower and propulsion systems. It should provide you with the opportunity$ŘwD˘HL f€ą€€‚‚‚‚‚€ €€ €‚‚€ ‚€ƒ‚ƒ‚ƒ‚ƒ‚ƒ‚‚€ ‚˙to more quickly and effectively do your work, explore more options, savetime and give more confidence in carrying out your calculations.To get a free evaluation copy of the program, place an order, find outmore about how you can profit or benefit from this software package,please send an e-mail to info@engineering-4e.com or call (301) 540-3605.Power CyclesCarnotBrayton (Power and Propulsion)RankineOttoDieselPower Cycle Components/ProcessesœM~F>JO l€›€€ƒ‚ƒ‚ƒ‚‚€ ‚€ƒ‚ƒ‚ƒ‚ƒ‚ƒ‚ƒ‚ƒ‚‚€ ‚€ƒ‚ƒ‚ƒ‚ƒ‚˙CompressionCombustion (Coal/Oil/Gas)ExpansionCompressible FlowVelocity of SoundMach NumberProperties (Stagnation and Static)NozzleNormal ShockDiffuserThrustHardware Requirements and Software Compatibility80486 or higher microprocessor16 MB RAM10 MB available on hard driveIBM compatible systems:h:˘HŚJ. ,€t€†üEĄ€ƒƒ‚ƒƒ‚˙Windows 98, Windows 2000, Windows ME andWindows XP ß>JąK, &€ż€€‚‚‚‚‚ƒ‚‚‚˙Distributed on CD ROMFree Technical and Product Support30 Day Money Back GuaranteeTrademarks:All product names, company names andservice marks are trademarks or registered trademarks of theirrespective companies.ÖĽŚJ‡L1 0€K€€‚€ ‚€‚‚‚‚‚‚˙Engineering SoftwareP.O. Box 1180Germantown, MD 20875Phone: (301) 540-3605FAX: (301) 540-3605E-Mail: info@engineering-4e.comhttp://www.engineering-4e.com1ąK¸L1q˙˙˙˙˙˙˙˙˙˙˙˙¸L„빇LŁM: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+¸LÎM( €€˜˜‚Q€ ‚˙ ËŁM×O> J€—€†ŘĄQ€‚€‚€ €‚‚‚‚‚‚‚‚‚‚˙Claim SheetEngineering Software products allow quick and reliablecalculation of thermodynamic and transport properties ofgaseous, liquid and solid species, contain coefficients forthe calculation of physical properties, steam approximationsfor both saturated and superheated areas, analyze powercycles, power cycle components/processes andcompressible flow.The aforementioned engineering calculations are valid underthe following assumptions:"ŕÎM‚B R€Á€†ŘĄQ€‚×O‚‡L€ €‚‚‚‚‚‚‚‚‚‚€ ‚€‚˙Thermodynamic and Transport PropertiesSingle specie considerationIdeal gas approach is used (pv=RT)Specific heat is not constantCoefficients describing thermodynamic and transport propertieswere obtained from the NASA Glenn Research Center at LewisField in Center in Cleveland, OH -- such coefficients conform withthe standard reference temperature of 298.15 K (77 F) and theJANAF tablesPower CyclesSingle specie consideration -- fuel mass flow rate ignored and˙ˇ×O„H ^€o€†ŘĄQ€‚‚‚‚‚€ €‚‚‚‚‚‚€ ‚€‚‚‚€‚˙its impact on the properties of the working fluidBasic equations hold (continuity, momentum and energyequations)Specific heat is constantPower Cycle Components/ProcessesSingle specie considerationBasic equations hold (continuity, momentum and energyequations)Specific heat is constantCompressible FlowSingle specie considerationBasic equations hold (continuity, momentum and energyequations)Specific heat is constant1‚5„1P˙˙˙˙˙˙˙˙˙˙˙˙5„T‡ëą„ …: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+5„K…( €€˜˜‚Q€ ‚˙ Î …T‡; D€€†ŘĄQ€‚€‚€ ‚€‚‚‚‚‚‚˙How to Use the ProgramIn each section, subsection of the Power and Propulsion SystemsAnalysis program, the user needs to change one or more input valuesin order to calculate a new case. Input values are in boxes with whitebackground and can be changed by clicking on each individual box oreven by using the arrow keys and changing the current value. Outputvalues cannot be modified, changed by the user and they are in boxeswith black background.1K……‡1W˙˙˙˙˙˙˙˙˙˙˙˙…‡ŤëąT‡pˆ: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+…‡›ˆ( €€˜˜‚Q€ ‚˙5ópˆĐŠB R€ç€†ŘĄQ€‚€‚€ €‚‚‚‚€ €‚‚‚‚˙Limited WarrantyThis software package is sold AS IS, without warranty as to itsperformance. The entire risk as to the quality and of the performanceof this computer software program is assumed by the user.However, to the original purchaser only, Engineering Software warrantsthe medium on which the program is recorded to be free from defects inmaterials and faulty workmanship under normal use and service for aperiod of thirty (30) days from the date of purchase. If during thisAń›ˆP n€ă€†ŘĄQ€‚€ €€ €‚€ €€ €‚‚‚‚‚€ €‚‚˙period a defect on the medium should occur, the medium may bereturned to Engineering Software or to an authorized EngineeringSoftware distributor and Engineering Software will replace themedium without charge to you. Your sole and exclusive remedy in theevent of a defect is expressly limited to replacement of the medium asprovided above.If the failure of the medium, in the judgment of Engineering Softwareresulted from accident, abuse or misapplication of the medium, thenšmЊŤ- *€Ú€†ŘĄQ€ €‚‚˙Engineering Software shall have no responsibility to replace themedium under the terms of this warranty.1Ü1"˙˙˙˙˙˙˙˙˙˙˙˙܍ŮÁ빍ÇŽ: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+܍ňŽ( €€˜˜‚Q€ ‚˙Lǎ>- *€>€†ŘĄQ€‚€‚˙Suggestion/Evaluation FormÜňŽ^Ŕ8 >€š€ †ŘĄQ€‚‚€ ‚€‚‚‚‚‚‚˙Please FAX or Mail This Suggestion/Evaluation Form To:Engineering SoftwareP.O. Box 1180Germantown, MD 20875Phone: (301) 540-3605F>^ŔŤAX: (301) 540-3605E-Mail: info@engineering-4e.comhttp://www.engineering-4e.com‘]>ďŔ4 8€ş€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚‚‚˙Name:Title:Company/Organization:Street Address:City:State:Zip:Phone:FAX:E-Mail:Q(^Ŕ@Á) "€P€ †ŘĄQ€ ‚˙Power and Propulsion Systems Analysis™[ďŔŮÁ> L€ś€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Quality:Usefulness:Possible areas of improvement:Other suggestions:1@Á Â1j˙˙˙˙˙˙˙˙˙˙˙˙ ÂCÇëąŮÁőÂ: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+  Ă( €€˜˜‚Q€ ‚˙ ÜőÂ@ĹD V€š€†ŘĄQ€‚€‚€ €‚€ €‚‚‚‚‚‚‚‚‚˙License AgreementThis software is the property of Engineering Software and is protectedby federal copyright law. While Engineering Software continues to ownthe software, you will have certain rights to use the software after youracceptance of this license. Your rights and obligations with respect tothe use of this software are as follows:You may:- use one copy of the software on a single computer,- make one copy of the software for backup purposes andĎ ĂCÇ4 6€Ÿ€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚‚˙- use the software on a network, provided that you have a licensed copy of the software for each computer that can access the software over the networkYou may not:- copy the documentation which accompanies the software,- sublicense, rent or lease any portion of the software and- reverse engineer, decompile, disassemble, modify, translate, make any attempt to discover the source code of the software or create derivative works from the software1@ĹtÇ1ł˙˙˙˙˙˙˙˙˙˙˙˙tÇöĘëąCÇ_Č: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+tNJČ( €€˜˜‚Q€ ‚˙ß_ȟĘ6 :€ż€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚˙PropertiesThis section provides physical properties of available species forassigned two state values such as: temperature and pressure,enthalpy and pressure, and entropy and pressure. Physical propertiesare given in both U.S. customary and International units.Note: Physical properties for H2O(S), H2O(L) and H2O(G) areavailable. The accuracy of the available H2O properties is only goodfor the purpose of combustion calculation. Therefore, this indicates thatW.ŠČöĘ) "€\€†ŘĄQ€‚˙steam table calculations are not available.1ŸĘ'Ë1˙˙˙˙˙˙˙˙˙˙˙˙'ˆÍëąöĘĚ: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+'Ë=Ě( €€˜˜‚Q€ ‚˙ĬÍ9 @€!€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚˙Properties: Temperature - PressureThis subsection provides physical properties of the selected specie forassigned temperature and pressure.Input Values:Specie, Temperature, PressureOutput Values:Physical PropertiesAssumptions:Specific heat is not constant1=̡Í1_˙˙˙˙˙˙˙˙ ˙˙˙˙ˇÍ7ﲆͦÎ= H€e€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ€‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ˇÍŃÎ( €€˜˜‚Q€ ‚˙ âŚÎý> J€Ĺ€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Properties: Temperature - PressureSTEP 1Select the desired specie or go with the default specie.STEP 2Enter the desired temperature value or go with the default temperaturevalue.STEP 3Enter the desired pressure valueŃÎý†Í or go with the default pressure value.STEP 4Click on the Calculate button to start the calculation of the physicalproperties for the chosen input values.STEP 5When done with Steps 1 through 4, click on the Exit button to go back to:ŃÎ7) "€"€†ŘĄQ€‚˙the Main menu.1ýh1‡˙˙˙˙˙˙˙˙ ˙˙˙˙hžëą7S: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+h~( €€˜˜‚Q€ ‚˙@Sž9 @€€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚˙Properties: Enthalpy - PressureThis subsection provides physical properties of the selected specie forassigned enthalpy and pressure.Input Values:Specie, Enthalpy, PressureOutput Values:Physical PropertiesAssumptions:Specific heat is not constant1~ď1—˙˙˙˙˙˙˙˙ ˙˙˙˙ďUëąžÚ: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ď( €€˜˜‚Q€ ‚˙ŮÚ= H€ł€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Properties: Enthalpy - PressureSTEP 1Select the desired specie or go with the default specie.STEP 2Enter the desired enthalpy value or go with the default enthalpy value.STEP 3Enter the desired pressure value or go with the default pressure value.STEP 4Click on the Calculate button to start the calculation of the physicalproperties for the chosen input values.STEP 5When done with Steps 1 through 4, click on the Exit button to go back to:U) "€"€†ŘĄQ€‚˙the Main menu.1†1‚˙˙˙˙˙˙˙˙ ˙˙˙˙†× ëąUq: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+†œ( €€˜˜‚Q€ ‚˙;q× 8 >€€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚˙Properties: Entropy - PressureThis subsection provides physical properties of the selected specie forassigned entropy and pressure.Input Values:Specie, Entropy, PressureOutput Values:Physical PropertiesAssumptions:Specific heat is not constant1œ 1”˙˙˙˙˙˙˙˙ ˙˙˙˙ k ëą× ó : B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+  ( €€˜˜‚Q€ ‚˙Öó 1 = H€­€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Properties: Entropy - PressureSTEP 1Select the desired specie or go with the default specie.STEP 2Enter the desired entropy value or go with the default entropy value.STEP 3Enter the desired pressure value or go with the default pressure value.STEP 4Click on the Calculate button to start the calculation of the physicalproperties for the chosen input values.STEP 5When done with Steps 1 through 4, click on the Exit button to go back to: k ) "€"€†ŘĄQ€‚˙the Main menu.11 œ 1š˙˙˙˙˙˙˙˙˙˙˙˙œ †Aëąk ‡: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+œ ˛( €€˜˜‚Q€ ‚˙(í‡ć@; D€Ű€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙CoefficientsFor each reaction specie, the thermodynamic functions specific heat,enthalpy and entropy as functions of temperature are given in the form ofleast squares coefficients as follows:Cp/R = A1 + A2*T + A3*T^2 + A4*T^3 + A5*T^4 [/]H/(R*T) = A1 + A2*T/2 + ˛ć@k A3*T^2/3 + A4*T^3/4 + A5*T^4/5 + A6/T [/]S/R = A1*lnT + A2*T + A3*T^2/2 + A4*T^3/3 + A5*T^4/4 + A7 [/]For each specie, two sets of coefficients are included for two adjecent v˛†A* $€ě€†ŘĄQ€‚‚˙temperature intervals, 273 to 1,000 K and 1,000 to 5,000 K. The data havebeen constrained to be equal at 1,000 K.1ć@ˇA1Ť˙˙˙˙˙˙˙˙˙˙˙˙ˇA1D뱆A˘B: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ˇAÍB( €€˜˜‚Q€ ‚˙d,˘B1D8 >€Y€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚˙Running: CoefficientsSTEP 1Select the desired specie or go with the default specie.STEP 2Read and/or print the coefficients for the calculation of the physicalproperties for the chosen specie.STEP 3When done with Steps 1 through 2, click on the Exit button to go back tothe Main menu.1ÍBbD1˙˙˙˙˙˙˙˙˙˙˙˙bD@Fëą1DME: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+bDxE( €€˜˜‚Q€ ‚˙ȘME@F0 .€1€†ŘĄQ€‚€‚‚‚˙Steam ApproximationsThis section deals with steam approximations, steam table calculationsare available for both saturated and superheated areas.1xEqF1˙˙˙˙˙˙˙˙˙˙˙˙qFBIëą@F\G: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+qF‡G( €€˜˜‚Q€ ‚˙ťƒ\GBI8 >€€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚˙Steam Approximations: Saturated AreaThis subsection deals with steam approximations for the saturated area,steam table calculations are available for the saturated area only. In thiscase, steam approximations are either temperature or pressuredependent.Input Values:Saturated Steam Temperature and Pressure, Steam QualityOutput Values:Saturated Steam Physical Properties1‡GsI1Š˙˙˙˙˙˙˙˙˙˙˙˙sIĚLëąBI^J: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+sI‰J( €€˜˜‚Q€ ‚˙ Ě^J’L= H€™€†ŘĄQ€‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Steam Approximations:Saturated Area: Temperature DependentSTEP 1Enter the desired saturated steam temperature value or go with the defaulttemperature value.STEP 2Enter the desired steam quality or go with the default steam quality value.STEP 3Click on the Calculate button to start the calculation of the steam propertiesfor the chosen input values.STEP 4When done with Steps 1 through 3, click on the Exit button to go back to:‰JĚL) "€"€†ŘĄQ€‚˙the Main menu.1’LýL1W˙˙˙˙˙˙˙˙˙˙˙˙ýL/€ëąĚLčM: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ýLN( €€˜˜‚Q€ ‚˙ŇčM/€> J€Ľ€†ŘĄQ€‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Steam Approximations:Saturated Area: Pressure DependentSTEP 1Enter the desired saturated steam pressure value or go with the defaultpressure value.STEP 2Enter the desired steam quality or go with the default steam quality value.STEP 3Click on the Calculate button to start the calculation of the steamproperties for the chosen input values.STEP 4When done with Steps 1 through 3, click on the Exit buN/€ĚLtton to go back tothe Main menu.1N`€1Š˙˙˙˙˙˙˙˙˙˙˙˙`€؂ëą/€K: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+`€v( €€˜˜‚Q€ ‚˙b,K؂6 :€Y€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚˙Steam Approximations: Superheated AreaThis subsection deals with steam approximations for the superheated area,steam table calculations are available for the superheated area only.Input Values:Superheated Steam Temperature and PressureOutput Values:Superheated Steam Physical Properties1v ƒ1Y˙˙˙˙˙˙˙˙˙˙˙˙ ƒ1†ëąŘ‚ôƒ: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ ƒ„( €€˜˜‚Q€ ‚˙Őôƒ1†= H€Ť€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Steam Approximations: Superheated AreaSTEP 1Enter the desired superheated steam temperature value or go with the defaulttemperature value.STEP 2Enter the desired superheated steam pressure value or go with the defaultpressure value.STEP 3Click on the Calculate button to start the calculation of the steamproperties for the chosen input values.STEP 4When done with Steps 1 through 3, click on the Exit button to go back tothe Main menu.1„b†1é˙˙˙˙˙˙˙˙˙˙˙˙b†ˆëą1†M‡: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+b†x‡( €€˜˜‚Q€ ‚˙˘sM‡ˆ/ .€ć€†ŘĄQ€‚€‚‚‚˙Power CyclesThis section provides analysis of a few power cycles (Carnot, Brayton,Rankine, Otto and Diesel).1x‡Kˆ1Î˙˙˙˙˙˙˙˙˙˙˙˙KˆčŠëąˆ6‰: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+Kˆa‰( €€˜˜‚Q€ ‚˙‡N6‰čŠ9 @€€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚˙Power Cycles: CarnotThis subsection provides analysis of the Carnot cycle.Input Values:Heat Addition Temperature, Heat Rejection TemperatureOutput Values:Cycle Efficiency, Heat RateAssumptions:Isentropic compression and expansion. Heat addition and rejectionoccur at constant temperature. Specific heat is constant.1a‰‹1P˙˙˙˙˙˙˙˙˙˙˙˙‹8ŽëąčŠŒ: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+‹/Œ( €€˜˜‚Q€ ‚˙ ĚŒ8Ž= H€™€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power Cycles: CarnotSTEP 1Enter the desired heat addition temperature value or go with the defaulttemperature value.STEP 2Enter the desired heat rejection temperature value or go with the defaulttemperature value.STEP 3Click on the Calculate button to start the calculation of the Carnot cycleoutput values for the chosen input values.STEP 4When done with Steps 1 through 3, click on the Exit button to go back tothe Main menu.1/ŒiŽ1˙˙˙˙˙˙˙˙˙˙˙˙iŽDŔëą8ŽT: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+iŽ( €€˜˜‚Q€ ‚˙š‰TDŔ0 .€€†ŘĄQ€‚€‚‚‚˙Power Cycles: BraytonThis subsection provides analysis of the Brayton cycle DŔ8Žfor both powergeneration and propulsion applications.1uŔ1˙˙˙˙˙˙˙˙˙˙˙˙uŔJÄëąDŔ`Á: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+uŔ‹Á( €€˜˜‚Q€ ‚˙Ű`ÁĄĂ; D€ˇ€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Power Cycles: Brayton: Power (Ideal)This subsection provides analysis of the Brayton cycle for the powergeneration application.Input Values:Working Fluid, Working Fluid Mass Flow Rate, Compressor InletTemperature, Compressor Inlet Pressure, Turbine Inlet Temperature,Turbine Inlet Pressure, Fuel HHVOutput Values:Power Output, Fuel Consumption, Cycle Efficiency, Heat RateAssumptions:Isentropic compression and expansion. Ideal combustion, heat transfer.Š‹ÁJÄ* $€ţ€†ŘĄQ€‚‚˙Fuel mass flow rate is ignored when calculating the gas turbine poweroutput. No pressure loss. Specific heat is constant.1ĄĂ{Ä1k˙˙˙˙˙˙˙˙˙˙˙˙{ÄľÉëąJÄfĹ: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+{Ä‘Ĺ( €€˜˜‚Q€ ‚˙@fĹŃÇ? L€€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power Cycles: Brayton: Power (Ideal)STEP 1Select the desired specie (working fluid) or go with the default specie.STEP 2Enter the desired compressor inlet temperature value or go with thedefault temperature value.STEP 3Enter the desired compressor inlet pressure value or go with the defaultpressure value.STEP 4Enter the desired turbine inlet temperature value or go with the defaulttemperature value.STEP 5Enter the desired turbine inlet pressure value or go with the default䍑žÉ9 @€W€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙turbine inlet pressure value.STEP 6Enter the desired mass flow rate value or go with the default mass flowrate value.STEP 7Enter the desired fuel HHV value or go with the default fuel HHV value.STEP 8Click on the Calculate button to start the calculation of the Brayton cycleoutput values for the chosen input values.STEP 9When done with Steps 1 through 8, click on the Exit button to go back tothe Main menu.1ŃÇćÉ1˙˙˙˙˙˙˙˙˙˙˙˙ćÉşÍëąľÉŃĘ: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ćÉüĘ( €€˜˜‚Q€ ‚˙ÚŃĘÍ; D€ľ€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Power Cycles: Brayton: Power (Real)This subsection provides analysis of the Brayton cycle for the powergeneration application.Input Values:Working Fluid, Working Fluid Mass Flow Rate, Compressor InletTemperature, Compressor Inlet Pressure, Turbine Inlet Temperature,Turbine Inlet Pressure, Fuel HHVOutput Values:Power Output, Fuel Consumption, Cycle Efficiency, Heat RateAssumptions:Isentropic compression and expansion. Ideal combustion, heat transfer.ŠüĘşÍ* $€ţ€†ŘĄQ€‚‚˙Fuel mass flow rate is ignored when calculating the gas turbine poweroutput. No pressure loss. Specific heat is constant.1ÍëÍ1z˙˙˙˙˙˙˙˙˙˙˙˙ëÍ0ëąşÍÖÎ: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ëÍĎ( €€˜˜‚Q€ ‚˙?ÖÎL? L€€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power Cycles: Brayton: Power (Real)STEP 1Select the desired specie (working fluid) or go with the default specie.STEP 2Enter the desired compressor inlet temperature valuĎLşÍe or go with thedefault temperature value.STEP 3Enter the desired compressor inlet pressure value or go with the defaultpressure value.STEP 4Enter the desired turbine inlet temperature value or go with the defaulttemperature value.STEP 5Enter the desired turbine inlet pressure value or go with the defaultäŤĎ09 @€W€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙turbine inlet pressure value.STEP 6Enter the desired mass flow rate value or go with the default mass flowrate value.STEP 7Enter the desired fuel HHV value or go with the default fuel HHV value.STEP 8Click on the Calculate button to start the calculation of the Brayton cycleoutput values for the chosen input values.STEP 9When done with Steps 1 through 8, click on the Exit button to go back tothe Main menu.1La1˙˙˙˙˙˙˙˙˙˙˙˙aKëą0L: B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+aw( €€˜˜‚Q€ ‚˙9ýL°< F€ű€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Power Cycles: Brayton: Propulsion (Ideal)This subsection provides analysis of the Brayton cycle for the propulsionapplication.Input Values:Working Fluid, Working Fluid Mass Flow Rate, Compressor InletTemperature, Compressor Inlet Pressure, Turbine Inlet Temperature,Turbine Inlet Pressure, Fuel HHVOutput Values:Thrust, Fuel ConsumptionAssumptions:Isentropic compression and expansion. Ideal combustion, heat transfer.Fuel mass flow rate is ignored when calculating the gas turbine power›qwK* $€â€†ŘĄQ€‚‚˙output. Ambient pressure is equal to compressor inlet pressure.No pressure loss. Specific heat is constant.1°|1p˙˙˙˙˙˙˙˙˙˙˙˙|ť ëąKg: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+|’( €€˜˜‚Q€ ‚˙Eg× ? L€ €†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power Cycles: Brayton: Propulsion (Ideal)STEP 1Select the desired specie (working fluid) or go with the default specie.STEP 2Enter the desired compressor inlet temperature value or go with thedefault temperature value.STEP 3Enter the desired compressor inlet pressure value or go with the defaultpressure value.STEP 4Enter the desired turbine inlet temperature value or go with the defaulttemperature value.STEP 5Enter the desired turbine inlet pressure value or go with the default䍒ť 9 @€W€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙turbine inlet pressure value.STEP 6Enter the desired mass flow rate value or go with the default mass flowrate value.STEP 7Enter the desired fuel HHV value or go with the default fuel HHV value.STEP 8Click on the Calculate button to start the calculation of the Brayton cycleoutput values for the chosen input values.STEP 9When done with Steps 1 through 8, click on the Exit button to go back tothe Main menu.1× ě 1$˙˙˙˙˙˙˙˙ ˙˙˙˙ě á@ëąť × : B€c€†ŘĄQ€€ƒ‚€‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ě ( €€˜˜‚Q€ ‚˙8ü× F@< F€ů€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Power Cycles: Brayton: Propulsion (Real)This subsection provides analysis of the Brayton cycle for the propulsionapplication.Input Values:Working Fluid, Working Fluid Mass Flow Rate, Compressor InletTemperature, Compressor Inlet Pressure, Turbine Inlet Temperature,Turbine Inlet Pressure, Fuel HHVOutput Values:Thrust, Fuel ConsumptionAssumptions:Isentropic compression and expansion. Ideal combustion, heat transfer.Fuel mass floF@ť w rate is ignored when calculating the gas turbine power›qá@* $€â€†ŘĄQ€‚‚˙output. Ambient pressure is equal to compressor inlet pressure.No pressure loss. Specific heat is constant.1F@A1o˙˙˙˙˙˙˙˙!˙˙˙˙APFëąá@ýA: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+A(B( €€˜˜‚Q€ ‚˙DýAlD? L€ €†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power Cycles: Brayton: Propulsion (Real)STEP 1Select the desired specie (working fluid) or go with the default specie.STEP 2Enter the desired compressor inlet temperature value or go with thedefault temperature value.STEP 3Enter the desired compressor inlet pressure value or go with the defaultpressure value.STEP 4Enter the desired turbine inlet temperature value or go with the defaulttemperature value.STEP 5Enter the desired turbine inlet pressure value or go with the defaultäŤ(BPF9 @€W€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙turbine inlet pressure value.STEP 6Enter the desired mass flow rate value or go with the default mass flowrate value.STEP 7Enter the desired fuel HHV value or go with the default fuel HHV value.STEP 8Click on the Calculate button to start the calculation of the Brayton cycleoutput values for the chosen input values.STEP 9When done with Steps 1 through 8, click on the Exit button to go back tothe Main menu.1lDF1Ü˙˙˙˙˙˙˙˙"˙˙˙˙F,IëąPFlG: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+F—G( €€˜˜‚Q€ ‚˙•[lG,I: B€ˇ€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚˙Power Cycles: RankineThis subsection provides analysis of the Rankine cycle.Input Values:Turbine Inlet Conditions (Temperature and Pressure), Steam Mass FlowRate, Fuel HHVOutput Values:Power Output, Fuel Consumption, Cycle Efficiency, Heat RateAssumptions:Isentropic compression and expansion. Ideal combustion and heattransfer.1—G]I1ä˙˙˙˙˙˙˙˙#˙˙˙˙]IMëą,IHJ: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+]IsJ( €€˜˜‚Q€ ‚˙ÓHJ‚L< F€§€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power Cycles: RankineSTEP 1Select the desired steam turbine inlet conditions (temperature andpressure values) or go with the default selection.STEP 2Enter the steam mass flow rate value or go with the default steam massflow rate value.STEP 3Enter the desired fuel HHV value or go with the default fuel HHV value.STEP 4Click on the Calculate button to start the calculation of the Rankine cycleoutput values for the chosen input values.ŽbsJM, (€Ä€†ŘĄQ€‚‚‚‚˙STEP 5When done with Steps 1 through 4, click on the Exit button to go back tothe Main menu.1‚LAM1,˙˙˙˙˙˙˙˙$˙˙˙˙AM÷€ëąM,N: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+AMWN( €€˜˜‚Q€‚˙*ń,N€9 @€ă€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚˙Power Cycles: OttoThis subsection provides analysis of the Otto cycle.Input Values:Working Fluid, Ambient Temperature, Ambient Pressure, CompressionRatio, Combustion Temperature, Number of Revolutions, Fuel HHVNumber of Cylinders, Cylinder Stroke, Stroke to Diameter RatioOutput Values:Compression Temperature, Compression Pressure, Combustion Pressure,EWN€Mxhaust Temperature, Exhaust Pressure, Cycle Efficiency, Working FluidMass Flow Rate, Heat Rate, Power Output, Fuel Consumptionj?WN÷€+ &€~€†ŘĄQ€‚‚‚˙Assumptions:Specific heat is constant. Four stroke engine.1€(1ˇ˙˙˙˙˙˙˙˙%˙˙˙˙(Ž‡ëą÷€‚: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+(>‚( €€˜˜‚Q€ ‚˙)ę‚g„? L€Ő€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power Cycles: OttoSTEP 1Select the desired specie (working fluid) or go with the default selection.STEP 2Enter the desired ambient temperature value or go with the defaulttemperature value.STEP 3Enter the desired ambient pressure value or go with the defaultpressure value.STEP 4Enter the desired compression ratio (volumetric) value or go with thedefault compression ratio value.STEP 5Enter the desired combustion temperature value or go with the default!ĺ>‚ˆ†< F€Ë€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙temperature value.STEP 6Enter the desired number of revolutions value or go with the defaultnumber of revolutions value.STEP 7Enter the desired fuel HHV value or go with the default fuel HHV value.STEP 8Enter the desired number of cylinders value or go with the default numberof cylinders value.STEP 9Enter the desired cylinder stroke value or go with the default cylinderstroke value.STEP 10Enter the desired stroke to diameter value or go with the default stroke&ôg„Ž‡2 2€é€†ŘĄQ€‚‚‚‚‚‚‚‚‚˙to diameter value.STEP 11Click on the Calculate button to start the calculation of the Otto cycleoutput values for the chosen input values.STEP 12When done with Steps 1 through 11, click on the Exit button to go backto the Main menu.1ˆ†߇1ń˙˙˙˙˙˙˙˙&˙˙˙˙߇Ÿ‹빎‡ʈ: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+߇őˆ( €€˜˜‚Q€ ‚˙2ůʈ'‹9 @€ó€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚˙Power Cycles: DieselThis subsection provides analysis of the Diesel cycle.Input Values:Working Fluid, Ambient Temperature, Ambient Pressure, CompressionRatio, Cut-Off Ratio, Number of Revolutions, Fuel HHV, Number of Cylinders,Cylinder Stroke, Stroke to Diameter RatioOutput Values:Compression Temperature, Compression Pressure, Combustion Temperature,Combustion Pressure, Exhaust Temperature, Exhaust Pressure, CycleEfficiency, Working Fluid Mass Flow Rate, Heat Rate, Power Output, FuelxLőˆŸ‹, (€˜€†ŘĄQ€‚‚‚‚˙ConsumptionAssumptions:Specific heat is constant. Four stroke engine.1'‹Ћ1Ţ˙˙˙˙˙˙˙˙'˙˙˙˙ЋxÂ뱟‹ťŒ: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ЋćŒ( €€˜˜‚Q€ ‚˙/đťŒ? L€á€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power Cycles: DieselSTEP 1Select the desired specie (working fluid) or go with the default selection.STEP 2Enter the desired ambient temperature value or go with the defaulttemperature value.STEP 3Enter the desired ambient pressure value or go with the defaultpressure value.STEP 4Enter the desired compression ratio (volumetric) value or go with thedefault compression ratio value.STEP 5Enter the desired cut-off ratio (volumetric) value or go with the default,đćŒMÁ< F€á€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙cut-off ratio value.STEP 6Enter the desired number of revolutions value or go with the defaultnumber of revolutions value.STEP 7Enter the desired fuel HHV value or go MÁŸ‹with the default fuel HHV value.STEP 8Enter the desired number of cylinders value or go with the default numberof cylinders value.STEP 9Enter the desired cylinder stroke value or go with the default cylinderstroke value.STEP 10Enter the desired stroke to diameter ratio value or go with the default stroke to+ůxÂ2 2€ó€†ŘĄQ€‚‚‚‚‚‚‚‚‚˙diameter ratio value.STEP 11Click on the Calculate button to start the calculation of the Diesel cycleoutput values for the chosen input values.STEP 12When done with Steps 1 through 11, click on the Exit button to go backto the Main menu.1MÁŠÂ1•˙˙˙˙˙˙˙˙(˙˙˙˙ŠÂ Çëąx”Ă: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ŠÂżĂ( €€˜˜‚Q€ ‚˙2ů”ĂńĹ9 @€ó€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚˙Power Cycles: MagnetohydrodynamicsThis subsection provides analysis of the Magnetohydrodynamics cycle.Input Values:Working Fluid, Inlet Stagnation Temperature, Inlet Stagnation Pressure,Velocity, Conductivity, Loading Parameter, Magnetic Field Strength,Channel Length, MobilityOutput Values:Inlet Static Temperature, Inlet Static Pressure, Inlet Mach Number,Induced Voltage Field, Current Density, Hall Voltage, Outlet StaticTemperature, Outlet Static Pressure, Outlet Mach Number, OutletíżĂ Ç/ ,€Ű€†ŘĄQ€‚‚‚‚‚‚˙Stagnation Temperature, Outlet Stagnation Pressure, Specific WorkOutput, Enthalpy ExtractionAssumptions:Specific heat, velocity, conductivity, mobility, induced voltage field, Hallvoltage and magnetic field strength are constant.1ńĹ>Ç1S˙˙˙˙˙˙˙˙)˙˙˙˙>Ç`Íëą Ç)Č: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+>ÇTČ( €€˜˜‚Q€ ‚˙4ö)ČˆĘ> J€í€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power Cycles: MagnetohydrodynamicsSTEP 1Select the desired specie (working fluid) or go with the default selection.STEP 2Enter the desired inlet stagnation temperature value or go with the defaulttemperature value.STEP 3Enter the desired inlet stagnation pressure value or go with the defaultpressure value.STEP 4Enter the desired velocity value or go with the default velocity value.STEP 5Enter the desired conductivity value or go with the default conductivity value.H TČĐĚ< F€€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙STEP 6Enter the desired loading parameter value or go with the default loadingparameter value.STEP 7Enter the desired magnetic field strength value or go with the defaultmagnetic field strength value.STEP 8Enter the desired channel length value or go with the default channellength value.STEP 9Enter the desired mobility value or go with the default mobility value.STEP 10Click on the Calculate button to start the calculation of the Magnetohydrodynamics cycle output values for the chosen input values.dˆĘ`Í, (€Č€†ŘĄQ€‚‚‚‚˙STEP 11When done with Steps 1 through 10, click on the Exit button to go backto the Main menu.1ĐĚ‘Í1Â˙˙˙˙˙˙˙˙*˙˙˙˙‘Í.ëą`Í|Î: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+‘ͧÎ( €€˜˜‚Q€ ‚˙ß|ÎľĎ/ ,€ż€€‚€‚‚‚‚‚‚‚‚˙Power Cycles: Fuel CellThis subsection provides analysis of the Fuel Cell cycle.Input Values:Fuel, Fuel Inlet Temperature, Oxidant (O2) Inlet Temperature,Fuel Flow Rate, Product Outlet TemperatureOutput Values:mD§Î.) "€ˆ€†ŘĄQ€‚˙Oxidant Flow Rate, Fuel Cell VoltľĎ.`Íage, Power, Fuel Cell Efficiency1ľĎ_1˙˙˙˙˙˙˙˙+˙˙˙˙_˝ëą.J: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+_u( €€˜˜‚Q€ ‚˙ áJ•? L€Ă€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power Cycles: Fuel CellSTEP 1Select the desired fuel (working fluid) or go with the default selection.STEP 2Enter the desired fuel inlet temperature or go with the defaulttemperature value.STEP 3Enter the desired oxidant inlet temperature value or go with the defaulttemperature value.STEP 4Enter the desired fuel flow rate or go with the default fuel flow ratevalue.STEP 5Enter the desired product outlet temperature value or go with the default(öu˝2 2€í€†ŘĄQ€‚‚‚‚‚‚‚‚‚˙temperature value.STEP 6Click on the Calculate button to start the calculation of the Fuel Cell cycleoutput values for the chosen input values.STEP 7When done with Steps 1 through 6, click on the Exit button to go back tothe Main menu.1•î1˙˙˙˙˙˙˙˙,˙˙˙˙îĹëą˝Ů: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+î( €€˜˜‚Q€ ‚˙Á‘ŮĹ0 .€#€†ŘĄQ€‚€‚‚‚˙Power Cycle Components/ProcessesThis section provides analysis of power cycle components/processes(compression, combustion and expansion).1ö1Ú˙˙˙˙˙˙˙˙-˙˙˙˙öŸëąĹá: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ö ( €€˜˜‚Q€ ‚˙“eáŸ. ,€Ę€†ŘĄQ€‚€‚‚˙Power Cycle Components/Processes: CompressionThis subsection provides analysis of compression.1 Đ1ô˙˙˙˙˙˙˙˙.˙˙˙˙Đ“ 뱟ť : B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+Đć ( €€˜˜‚Q€ ‚˙­pť “ = H€á€†ŘĄQ€‚ƒ‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚˙Power CycleComponents/Processes:Compression: Isentropic (Ideal)This subsection provides analysis of isentropic compression.Input Values:Working Fluid (Specie), Working Fluid Mass Flow Rate, InletTemperature, Inlet Pressure, Outlet PressureOutput Values:Power Input, Outlet TemperatureAssumptions:Isentropic compression. Specific heat is constant.1ć Ä 1˙˙˙˙˙˙˙˙/˙˙˙˙Ä w@뱓 Ż : B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+Ä Ú ( €€˜˜‚Q€ ‚˙ ÇŻ ăB R€€†ŘĄQ€‚ƒ‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power CycleComponents/Processes:Compression: Isentropic (Ideal)STEP 1Select the desired specie or go with the default specie.STEP 2Enter the desired compressor inlet temperature value or go with thedefault temperature value.STEP 3Enter the desired compressor inlet pressure value or go with the defaultpressure value.STEP 4Enter the desired compressor outlet pressure value or go with the defaultpressure value.STEP 5ˆUÚ w@3 4€Ť€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚˙Enter the desired compressor mass flow rate value or go with the defaultmass flow rate value.STEP 6Click on the Calculate button to start the calculation of compressor outlettemperature and power input values for the chosen inpuăw@“ t values.STEP 7When done with Steps 1 through 6, click on the Exit button to go back tothe Main menu.1ă¨@1ó˙˙˙˙˙˙˙˙0˙˙˙˙¨@jCëąw@“A: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+¨@žA( €€˜˜‚Q€ ‚˙Źo“AjC= H€ß€†ŘĄQ€‚ƒ‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚˙Power CycleComponents/Processes:Compression: Isentropic (Real)This subsection provides analysis of isentropic compression.Input Values:Working Fluid (Specie), Working Fluid Mass Flow Rate, InletTemperature, Inlet Pressure, Outlet PressureOutput Values:Power Input, Outlet TemperatureAssumptions:Isentropic compression. Specific heat is constant.1žA›C1×˙˙˙˙˙˙˙˙1˙˙˙˙›CAHëąjC†D: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+›CąD( €€˜˜‚Q€ ‚˙ƆDšFB R€€†ŘĄQ€‚ƒ‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power CycleComponents/Processes:Compression: Isentropic (Real)STEP 1Select the desired specie or go with the default specie.STEP 2Enter the desired compressor inlet temperature value or go with thedefault temperature value.STEP 3Enter the desired compressor inlet pressure value or go with the defaultpressure value.STEP 4Enter the desired compressor outlet pressure value or go with the defaultpressure value.STEP 5ˆUąDAH3 4€Ť€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚˙Enter the desired compressor mass flow rate value or go with the defaultmass flow rate value.STEP 6Click on the Calculate button to start the calculation of compressor outlettemperature and power input values for the chosen input values.STEP 7When done with Steps 1 through 6, click on the Exit button to go back tothe Main menu.1šFrH1×˙˙˙˙˙˙˙˙2˙˙˙˙rHKëąAH]I: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+rHˆI( €€˜˜‚Q€ ‚˙S]IK= H€§€†ŘĄQ€‚ƒ‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚˙Power CycleComponents/Processs:Compression: IsothermalThis subsection provides analysis of isothermal compression.Input Values:Working Fluid (Specie), Working Fluid Mass, Inlet/Outlet Temperature,Inlet Pressure, Outlet PressureOutput Values:Inlet Volume, Outlet Volume, Outlet DensityAssumptions:Isothermal compression1ˆIIK1 ˙˙˙˙˙˙˙˙3˙˙˙˙IK¸OëąK4L: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+IK_L( €€˜˜‚Q€ ‚˙Aţ4L NC T€ý€†ŘĄQ€‚ƒ‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power CycleComponents/Processes:Compression: IsothermalSTEP 1Select the desired specie or go with the default specie.STEP 2Enter the desired compressor inlet temperature value or go with thedefault temperature value.STEP 3Enter the desired compressor inlet pressure value or go with the defaultpressure value.STEP 4Enter the desired compressor outlet pressure value or go with the defaultpressure value.STEP 5Enter the desired compressor mass value or go with the defaultć_L¸O2 2€Í€†ŘĄQ€‚‚‚‚‚‚‚‚‚˙mass value.STEP 6Click on the Calculate button to start the calculation of compressor outletvalues for the chosen input values.STEP 7When done with Steps 1 through 6, click on the Exit button to go back tothe Main menu.1 N €1|˙˙˙˙˙˙˙˙4˙˙˙˙ €ł¸O €¸O빸O÷€: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ €"( €€˜˜‚Q€ ‚˙‘c÷€ł. ,€Ć€†ŘĄQ€‚€‚‚˙Power Cycle Components/Processes: CombustionThis subsection provides analysis of combustion.1"ä1Š˙˙˙˙˙˙˙˙5˙˙˙˙ä\…ëąłς: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+äú‚( €€˜˜‚Q€ ‚˙Ůς…? L€ł€†ŘĄQ€‚ƒ‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Power CycleComponents/Processes:Combustion: Coal/OilThis subsection provides analysis of the combustion process when coalor oil are considered as the fuel.Input Values:Fuel Composition, Fuel Temperature, Oxidant Composition, OxidantTemperature, Oxidant to Fuel RatioOutput Values:Fuel HHV, Fuel Enthalpy, Oxidant Enthalpy, Stoichiometry, FlameTemperature, Combustion Gas CompositionAssumptions:Complete combustion. No gas dissociation. No heat loss.J!ú‚\…) "€B€†ŘĄQ€‚˙Specific heat is not constant.1……1˙˙˙˙˙˙˙˙6˙˙˙˙…݋ëą\…x†: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+…Ł†( €€˜˜‚Q€ ‚˙Bx†ĺˆ< F€ €†ŘĄQ€‚ƒ‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚˙Running - Power CycleComponents/Processes: Combustion:Coal/OilSTEP 1Enter the desired fuel (coal or oil) composition or go with the default fuelcomposition.Note: If you decide to change the fuel composition, click on theNormalize button to normalize the fuel composition for you.STEP 2Enter the desired oxidant composition or go with the default oxidantcomposition.Note: If you decide to change the oxidant composition, click on theNormalize button to normalize the oxidant composition for you.%룆 ‹: B€×€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Furthermore, click on the fuel Normalize button one more time tocalculate the new stoichiometry value for you.STEP 3Enter the desired fuel temperature value or go with the defaulttemperature value.STEP 4Enter the desired oxidant temperature (preheat) value or go with thedefault temperature value.STEP 5Enter the desired oxidant to fuel ratio ( > 1) or go with the default oxidantto fuel ratio.STEP 6Click on the Calculate button to start the calculation of combustion gasÓŚĺˆ݋- (€M€†ŘĄQ€‚‚‚‚˙composition and flame temperature value for the chosen input values.STEP 7When done with Steps 1 through 6, click on the Exit button to go back tothe Main menu.1 ‹Œ1œ˙˙˙˙˙˙˙˙7˙˙˙˙ŒyëąÝ‹ůŒ: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+Œ$( €€˜˜‚Q€ ‚˙ ĚůŒ/? L€™€†ŘĄQ€‚ƒ‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Power CycleComponents/Processes:Combustion: GasThis subsection provides analysis of the combustion process when gasis considered as the fuel.Input Values:Fuel Composition, Fuel Temperature, Oxidant Composition, OxidantTemperature, Oxidant to Fuel RatioOutput Values:Fuel HHV, Fuel Enthalpy, Oxidant Enthalpy, Stoichiometry, FlameTemperature, Combustion Gas CompositionAssumptions:Complete combustion. No gas dissociation. No heat loss.J!$y) "€B€†ŘĄQ€‚˙Specific heat is not constant.1/ޏ1Ć˙˙˙˙˙˙˙˙8˙˙˙˙ޏýĹëąyĄŔ: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.OޏĄŔy. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ޏĚŔ( €€˜˜‚Q€ ‚˙7úĄŔĂ= H€ő€†ŘĄQ€‚ƒ‚ƒ€‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power CycleComponents/Processes:Combustion: GasSTEP 1Enter the desired fuel (gas) composition or go with the default fuelcomposition.Note: If you decide to change the fuel composition, click on theNormalize button to normalize the fuel composition for you.STEP 2Enter the desired oxidant composition or go with the default oxidantcomposition.Note: If you decide to change the oxidant composition, click on theNormalize button to normalize the oxidant composition for you.%ëĚŔ(Ĺ: B€×€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Furthermore, click on the fuel Normalize button one more time tocalculate the new stoichiometry value for you.STEP 3Enter the desired fuel temperature value or go with the defaulttemperature value.STEP 4Enter the desired oxidant temperature (preheat) value or go with thedefault temperature value.STEP 5Enter the desired oxidant to fuel ratio ( > 1) or go with the default oxidantto fuel ratio.STEP 6Click on the Calculate button to start the calculation of combustion gasŐ§ĂýĹ. *€O€†ŘĄQ€‚‚‚‚‚˙composition and flame temperature value for the chosen input values.STEP 7When done with Steps 1 through 6, click on the Exit button to go back tothe Main menu.1(Ĺ.Ć1Ö˙˙˙˙˙˙˙˙9˙˙˙˙.ĆÓÇëąýĹÇ: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+.ĆDÇ( €€˜˜‚Q€ ‚˙aÇÓÇ. ,€Â€†ŘĄQ€‚€‚‚˙Power Cycle Components/Processes: ExpansionThis subsection provides analysis of expansion.1DÇČ1ď˙˙˙˙˙˙˙˙:˙˙˙˙ČÂĘëąÓÇďČ: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ČÉ( €€˜˜‚Q€ ‚˙¨kďČÂĘ= H€×€†ŘĄQ€‚ƒ‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚˙Power CycleComponents/Processes:Expansion: Isentropic (Ideal)This subsection provides analysis of isentropic expansion.Input Values:Working Fluid (Specie), Working Fluid Mass Flow Rate, InletTemperature, Inlet Pressure, Outlet PressureOutput Values:Outlet Temperature, Power OutputAssumptions:Isentropic expansion. Specific heat is constant.1ÉóĘ1˙˙˙˙˙˙˙˙;˙˙˙˙óĘ ëąÂĘŢË: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+óĘ Ě( €€˜˜‚Q€ ‚˙ßŢË(Î@ N€ż€†ŘĄQ€‚ƒ‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power CycleComponents/Processes:Expansion: Isentropic (Ideal)STEP 1Select the desired specie (working fluid) or go with the default specie.STEP 2Enter the desired turbine/expander inlet temperature value or go with thedefault temperature value.STEP 3Enter the desired turbine/expander inlet pressure value or go with thedefault pressure value.STEP 4Enter the desired turbine/expander outlet pressure value or go with thedefault pressure value.Ÿj Ě 5 8€Ő€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚‚‚˙STEP 5Enter the desired turbine/expander mass flow rate value or go with thedefault mass flow rate value.STEP 6Click on the Calculate button to start the calculation of turbine/expanderoutlet temperature and power output values for the chosen input values.STEP 7When done with Steps 1 through 6, click on the Exit button to go back tothe Main menu.(Î ÂĘ1(Î=1Š˙˙˙˙˙˙˙˙<˙˙˙˙=úëą (: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+=S( €€˜˜‚Q€ ‚˙§j(ú= H€Ő€†ŘĄQ€‚ƒ‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚˙Power CycleComponents/Processes:Expansion: Isentropic (Real)This subsection provides analysis of isentropic expansion.Input Values:Working Fluid (Specie), Working Fluid Mass Flow Rate, InletTemperature, Inlet Pressure, Outlet PressureOutput Values:Outlet Temperature, Power OutputAssumptions:Isentropic expansion. Specific heat is constant.1S+1˙˙˙˙˙˙˙˙=˙˙˙˙+ţëąú: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com++A( €€˜˜‚Q€ ‚˙Ţ_@ N€˝€†ŘĄQ€‚ƒ‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power CycleComponents/Processes:Expansion: Isentropic (Real)STEP 1Select the desired specie (working fluid) or go with the default specie.STEP 2Enter the desired turbine/expander inlet temperature value or go with thedefault temperature value.STEP 3Enter the desired turbine/expander inlet pressure value or go with thedefault pressure value.STEP 4Enter the desired turbine/expander outlet pressure value or go with thedefault pressure value.ŸjAţ5 8€Ő€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚‚‚˙STEP 5Enter the desired turbine/expander mass flow rate value or go with thedefault mass flow rate value.STEP 6Click on the Calculate button to start the calculation of turbine/expanderoutlet temperature and power output values for the chosen input values.STEP 7When done with Steps 1 through 6, click on the Exit button to go back tothe Main menu.1_/1“˙˙˙˙˙˙˙˙>˙˙˙˙/‘ ëąţ : B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+/E ( €€˜˜‚Q€ ‚˙L ‘ ; D€#€†ŘĄQ€‚ƒ‚ƒ‚€‚‚‚‚‚‚‚‚‚‚˙Power CycleComponents/Processs:Expansion: IsothermalInput Values:Working Fluid (Specie), Working Fluid Mass, Inlet/Outlet Temperature,Inlet Pressure, Outlet PressureOutput Values:Inlet Volume, Outlet Volume, Outlet DensityAssumptions:Isothermal expansion1E  1˙˙˙˙˙˙˙˙?˙˙˙˙  뱑 ­ : B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ Ř ( €€˜˜‚Q€ ‚˙3đ­  C T€á€†ŘĄQ€‚ƒ‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power CycleComponents/Processes:Expansion: IsothermalSTEP 1Select the desired specie or go with the default specie.STEP 2Enter the desired turbine inlet temperature value or go with thedefault temperature value.STEP 3Enter the desired turbine inlet pressure value or go with the defaultpressure value.STEP 4Enter the desired turbine outlet pressure value or go with the defaultpressure value.STEP 5Enter the desired turbine mass value or go with the defaultăŘ  2 2€Ç€†ŘĄQ€‚‚‚‚‚‚‚‚‚˙mass value.STEP 6Click on the Calculate button to start the calculation of turbine outletvalues for the chosen input values.STEP 7When done with Steps 1 through 6, click on the Exit button to go back tothe Main menu.1 Q1Y˙˙˙˙˙˙˙˙@˙˙˙˙QyBëą H@: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@QH@ engineering-4e.comWeb Site:http://www.engineering-4e.com+Qs@( €€˜˜‚Q€ ‚˙ËH@yB; D€—€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Power Cycle Components/Processes: Heat TransferThis subsection provides analysis of heat transfer.Input Values:Hot Working Fluid (Specie), Hot Working Fluid Mass Flow Rate, HotWorking Fluid Inlet Temperature, Hot Working Fluid Outlet Temperature,Cold Working Fluid (Specie), Cold Working Fluid Mass Flow Rate, ColdWorking Fluid Inlet TemperatureOutput Values:Cold Working Fluid Outlet TemperatureAssumptions:Ideal heat transfer -- no losses1s@ŞB1Ü˙˙˙˙˙˙˙˙A˙˙˙˙ŞBUHëąyB•C: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ŞBŔC( €€˜˜‚Q€ ‚˙ß•CŢE? L€ż€†ŘĄQ€‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power CycleComponents/Processes: Heat TransferSTEP 1Select the desired hot specie (hot working fluid) or go with the defaultspecie.STEP 2Enter the desired hot working fluid mass flow rate or go with the defaultmass flow rate value.STEP 3Enter the desired hot working fluid inlet temperature value or go with thedefault temperature value.STEP 4Enter the desired hot working fluid outlet temperature value or go with thedefault temperature value.=ŔCH< F€€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙STEP 5Select the desired cold specie (cold working fluid) or go with the defaultspecie.STEP 6Enter the desired cold working fluid mass flow rate or go with the defaultmass flow rate value.STEP 7Enter the desired cold working fluid inlet temperature value or go with thedefault temperature value.STEP 8Click on the Calculate button to start the calculation of heat transfer outletvalues for the chosen input values.STEP 9When done with Steps 1 through 8, click on the Exit button to go back to:ŢEUH) "€"€†ŘĄQ€‚˙the Main menu.1H†H1 ˙˙˙˙˙˙˙˙B˙˙˙˙†H_KëąUHqI: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+†HœI( €€˜˜‚Q€ ‚˙ÉqI_K: B€€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚˙Power Cycle Components/Processes: MixingThis subsection provides analysis of mixing.Input Values:Inlet Working Fluids (Species), Inlet Working Fluids Mass Flow Rate, InletWorking Fluids Temperature, Outlet Working Fluids (Species), Outlet WorkingFluids Mass Flow RateOutput Values:Outlet Working Fluids Temperature -- Mixing TemperatureAssumptions:Ideal mixing -- no losses1œIK1¨˙˙˙˙˙˙˙˙C˙˙˙˙KĀëą_K{L: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+KŚL( €€˜˜‚Q€ ‚˙Ô{L¸N> J€Š€†ŘĄQ€‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Power CycleComponents/Processes: MixingSTEP 1Select the desired inlet species (inlet working fluids) or go with the defaultspecies.STEP 2Enter the desired inlet working fluids mass flow rate values or go with the defaultmass flow rate values.STEP 3Enter the desired inlet working fluids inlet temperature values or go with thedefault temperature values.STEP 4Enter the desired hot working fluid outlet temperature value or go with theĆŚLĀ: B€€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙default temperature value.STEP 5Select the desired outlet species (outlet working fluid) or go with the defaultspecies.STEP 6Enter the desired outlet working fluids mass flow rate values or go with the defaultmass flow rate values.STEP 7Click on the Calculat¸NĀ_Ke button to start the calculation of mixing outletvalues for the chosen input values.STEP 8When done with Steps 1 through 7, click on the Exit button to go back tothe Main menu.1¸Nő€1Ŕ˙˙˙˙˙˙˙˙D˙˙˙˙ő€„‚ëąÄ€ŕ: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ő€ ‚( €€˜˜‚Q€ ‚˙yKŕ„‚. ,€–€†ŘĄQ€‚€‚‚˙Compressible FlowThis section provides analysis of compressible flow.1 ‚ľ‚1R˙˙˙˙˙˙˙˙E˙˙˙˙ľ‚ք뱄‚ ƒ: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ľ‚˃( €€˜˜‚Q€ ‚˙ Ó ƒք8 >€§€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚˙Compressible Flow: Velocity of SoundThis section provides analysis of velocity of sound.Input Values:Working Fluid, TemperatureOutput Values:Velocity of SoundAssumptions:Specific heat is constant1˃…15˙˙˙˙˙˙˙˙F˙˙˙˙… ˆëąÖ„ň…: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+…†( €€˜˜‚Q€ ‚˙î˛ň… ˆ< F€e€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Compressible Flow: Velocity of SoundSTEP 1Select the desired working fluid (specie) or go with the default value.STEP 2Enter the desired temperature value or go with the default temperaturevalue.STEP 3Click on the Calculate button to start the calculation of velocity of soundvalue for the chosen input values.STEP 4When done with Steps 1 through 3, click on the Exit button to go back tothe Main menu.1†<ˆ1M˙˙˙˙˙˙˙˙G˙˙˙˙<ˆXŠëą ˆ'‰: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+<ˆR‰( €€˜˜‚Q€ ‚˙Î'‰XŠ8 >€€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚˙Compressible Flow: Mach NumberThis subsection provides analysis of Mach Number.Input Values:Working Fluid, Temperature, VelocityOutput Values:Mach NumberAssumptions:Specific heat is constant1R‰‰Š1Ś˙˙˙˙˙˙˙˙H˙˙˙˙‰ŠţëąXŠt‹: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+‰ŠŸ‹( €€˜˜‚Q€ ‚˙%çt‹č> J€Ď€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Compressible Flow: Mach NumberSTEP 1Select the desired working fluid (specie) or go with the default value.STEP 2Enter the desired temperature value or go with the default temperaturevalue.STEP 3Enter the desired velocity value or go with the default velocity value.STEP 4Click on the Calculate button to start the calculation of Mach numbervalue for the chosen input values.STEP 5When done with Steps 1 through 4, click on the Exit button to go back to:Ÿ‹ţ) "€"€†ŘĄQ€‚˙the Main menu.1č/Ž1˙˙˙˙˙˙˙˙I˙˙˙˙/Ž Ŕëąţ: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+/ŽE( €€˜˜‚Q€ ‚˙ť‹ Ŕ0 .€€†ŘĄQ€‚€‚‚‚˙Compressible Flow: PropertiesThis subsection provides analysis od stagnation and static properties inthe case of compressible flow.E Ŕţ1E=Ŕ1Œ˙˙˙˙˙˙˙˙J˙˙˙˙=Ŕ–Âëą Ŕ(Á: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+=ŔSÁ( €€˜˜‚Q€ ‚˙C (Á–Â8 >€€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚˙Compressible Flow: Properties: StagnationThis subsection provides analysis of stagnation properties.Input Values:Working Fluid, Static Temperature, VelocityOutput Values:Stagnation Temperature, Stagnation PressureAssumptions:Specific heat is constant1SÁÇÂ1I˙˙˙˙˙˙˙˙K˙˙˙˙ÇÂßĆ뱖²Ă: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ÇÂÝĂ( €€˜˜‚Q€ ‚˙*ę˛ĂĆ@ N€Ő€†ŘĄQ€‚ƒ‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Compressible Flow:Properties: StagnationSTEP 1Select the desired working fluid (specie) or go with the default value.STEP 2Enter the desired static temperature value or go with the default statictemperature value.STEP 3Enter the desired static pressure value or go with the default staticpressure value.STEP 4Enter the desired velocity value or go with the default velocity value.STEP 5Click on the Calculate button to start the calculation of stagnationŘŞÝĂßĆ. *€U€†ŘĄQ€‚‚‚‚‚˙temperature and stagnation pressure values for the chosen input values.STEP 6When done with Steps 1 through 5, click on the Exit button to go back tothe Main menu.1ĆÇ1~˙˙˙˙˙˙˙˙L˙˙˙˙Ç]ÉëąßĆűÇ: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+Ç&Č( €€˜˜‚Q€ ‚˙7˙űÇ]É8 >€˙€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚˙Compressible Flow: Properties: StaticThis subsection provides analysis of static properties.Input Values:Working Fluid, Stagnation Temperature, VelocityOutput Values:Static Temperature, Static PressureAssumptions:Specific heat is constant1&ČŽÉ1K˙˙˙˙˙˙˙˙M˙˙˙˙ŽÉ¨Íëą]ÉyĘ: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ŽÉ¤Ę( €€˜˜‚Q€ ‚˙0ňyĘÔĚ> J€ĺ€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Compressible Flow: Properties: StaticSTEP 1Select the desired working fluid (specie) or go with the default value.STEP 2Enter the desired stagnation temperature value or go with the defaultstagnation temperature value.STEP 3Enter the desired stagnation pressure value or go with the defaultstagnation pressure value.STEP 4Enter the desired velocity value or go with the default velocity value.STEP 5Click on the Calculate button to start the calculation of staticÔŚ¤Ę¨Í. *€M€†ŘĄQ€‚‚‚‚‚˙temperature and static pressure values for the chosen input values.STEP 6When done with Steps 1 through 5, click on the Exit button to go back tothe Main menu.1ÔĚŮÍ1ˆ˙˙˙˙˙˙˙˙N˙˙˙˙ŮÍ<빨ÍÄÎ: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ŮÍďÎ( €€˜˜‚Q€ ‚˙A ÄÎ<8 >€€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚˙Compressible Flow: NozzleThis subsection provides analysis of nozzle.Input Values:Working Fluid, Stagnation Temperature, Stagnation Pressure, VelocityOutput Values:Static Temperature, Static Pressure, Mach ďÎ<¨ÍNumberAssumptions:Specific heat is constant1ďÎm1T˙˙˙˙˙˙˙˙O˙˙˙˙mëą<X: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+mƒ( €€˜˜‚Q€ ‚˙)ëXŹ> J€×€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Compressible Flow: NozzleSTEP 1Select the desired working fluid (specie) or go with the default value.STEP 2Enter the desired stagnation temperature value or go with the defaultstagnation temperature value.STEP 3Enter the desired stagnation pressure value or go with the defaultstagnation pressure value.STEP 4Enter the desired velocity value or go with the default velocity value.STEP 5Click on the Calculate button to start the calculation of Mach number,侃/ ,€k€†ŘĄQ€‚‚‚‚‚‚˙stagnation temperature and stagnation pressure values for the choseninput values.STEP 6When done with Steps 1 through 5, click on the Exit button to go back tothe Main menu.1ŹÁ1M˙˙˙˙˙˙˙˙P˙˙˙˙ÁÝ빐Ź: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+Á×( €€˜˜‚Q€ ‚˙ĘŹÝ< F€•€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Compressible Flow: Normal ShockThis subsection provides analysis of normal shock.Input Values:Working Fluid, Inlet Stagnation Temperature, Inlet StagnationPressure, Inlet VelocityOutput Values:Inlet Static Temperature, Inlet StaticPressure, Inlet Mach NumberOutlet Stagnation Temperature, Outlet Stagnation Pressure, OutletVelocity, Outlet Static Temperature, Outlet Static Pressure, Outlet MachNumberAssumptions:Specific heat is constant1×1á˙˙˙˙˙˙˙˙Q˙˙˙˙ž ëąÝů: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+$ ( €€˜˜‚Q€ ‚˙ Ěů. > J€™€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Compressible Flow: Normal ShockSTEP 1Select the desired working fluid (specie) or go with the default selection.STEP 2Enter the desired inlet stagnation temperature value or go with thedefault inlet stagnation temperature value.STEP 3Enter the desired inlet stagnation pressure value or go with the defaultinlet stagnation pressure value.STEP 4Enter the desired inlet velocity value or go with the default velocityvalue.STEP 5_$ ž 1 0€ż€†ŘĄQ€‚‚‚‚‚‚‚‚˙Click on the Calculate button to start the calculation of inlet Machnumber, inlet static temperature, inlet static pressure, outlet Machnumber, outlet velocity, outlet static temperature, and outlet staticpressure values for the chosen input values.STEP 6When done with Steps 1 through 5, click on the Exit button to go back tothe Main menu.1. ď 1Œ˙˙˙˙˙˙˙˙R˙˙˙˙ď Jëąž Ú : B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ď ( €€˜˜‚Q€ ‚˙E Ú J8 >€€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚˙Compressible Flow: DiffuserThis subsection provides analysis of diffuser.Input Values:Working Fluid, Static Temperature, Static Pressure, VelocityOutput Values:Mach Number, Stagnation Temperature, Stagnation PressureAssumptions:Specific heat is constant1{1|˙˙˙˙˙˙˙˙S˙˙˙˙{œCëąJr@: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 5{r@J40-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+{@( €€˜˜‚Q€ ‚˙Ýr@¸B> J€ť€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Compressible Flow: DiffuserSTEP 1Select the desired working fluid (specie) or go with the default value.STEP 2Enter the desired static temperature value or go with the default statictemperature value.STEP 3Enter the desired static pressure value or go with the default staticpressure value.STEP 4Enter the desired velocity value or go with the default velocity value.STEP 5Click on the Calculate button to start the calculation of Mach number,䵝@œC/ ,€k€†ŘĄQ€‚‚‚‚‚‚˙stagnation temperature and stagnation pressure values for the choseninput values.STEP 6When done with Steps 1 through 5, click on the Exit button to go back tothe Main menu.1¸BÍC1Á˙˙˙˙˙˙˙˙T˙˙˙˙ÍC]F뱜C¸D: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ÍCăD( €€˜˜‚Q€ ‚˙zA¸D]F9 @€ƒ€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚˙Compressible Flow: ThrustThis subsection provides analysis of thrust.Input Values:Working Fluid, Working Fluid Mass Flow Rate, Stagnation Temperature,Stagnation Pressure, Velocity, Ambient PressureOutput Values:Static Temperature, Static Pressure, Mach Number, ThrustAssumptions:Specific heat is constant1ăDŽF1˙˙˙˙˙˙˙˙U˙˙˙˙ŽFyKëą]FyG: B€c€†ŘĄQ€€ƒ‚€ ‚ƒ‚ƒ‚ƒ‚ƒ‚˙Engineering SoftwareP.O. Box 1180, Germantown, MD 20875Phone:(301) 540-3605FAX: (301) 540-3605E-Mail:info@engineering-4e.comWeb Site:http://www.engineering-4e.com+ŽF¤G( €€˜˜‚Q€ ‚˙.đyGŇI> J€á€†ŘĄQ€‚€‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙Running - Compressible Flow: ThrustSTEP 1Select the desired working fluid (specie) or go with the default selection.STEP 2Enter the desired stagnation temperature value or go with the defaultstagnation temperature value.STEP 3Enter the desired stagnation pressure value or go with the defaultstagnation pressure value.STEP 4Enter the desired velocity value or go with the default velocity value.STEP 5Enter the desired mass flow rate value or go with the default mass flow§p¤GyK7 <€á€†ŘĄQ€‚‚‚‚‚‚‚‚‚‚‚‚‚‚˙rate value.STEP 6Enter the desired ambient pressure value or go with the default ambientpressure value.STEP 7Click on the Calculate button to start the calculation of Mach number,static temperature, static pressure and thrust values for the choseninput values.STEP 8When done with Steps 1 through 7, click 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