?_ t       ░ d   [    l  Е<M   ! Energy Conversion ... - Tutorial         Engineering Software (c) 1996 /  &  ;) z4 Ш^  ЛF
╞uщ             п     |CONTEXT ╓з |CTXOMAP ЬЯ |FONT Пm |SYSTEM    |TOPIC г  |TTLBTREE зЯ  Я          ╛k╟B1 '   dctl   туЇЇдз00ру╖}
}
-0{{So nowidctlpar  cs16   super  #  Engineering Software %                T                 K    nc-   - #   r[+▓[+ ║D[+  Xs╟B ╫      ┐      # - #   w[+╞[+ ╬D[+  Жs╟B ╫          *s╟B- #    А  ╦[+ ╙D[+  ╬y╟B ╫          Xs╟B┘^r╟B  - #   dctl$[+ ,F[+  ъs╟B M          Оs╟Bin- #   ware)[+ 1F[+  $v╟B M          ╝s╟B        А   Ж╪бQic C[+ S[+  рt╟B │       Ы  Оs╟BU Й #   thicЗ[+ ПE[+  x╟B t           
k╟B- #   Gothю[+ ЎQ[+  Вy╟B Ж           иj╟B  - #    PGoW[+ _R[+  Lu╟B Э   - #     ╓j[+ !E[+  w╟B                       (t А   Ж╪бQre[+ 'S[+       │   щn            ╦ &          p- #   #   [+ 'S[+  zu╟B Ю       a  ▓t╟B╩p- #   #   3[+ ;S[+- #    Ю А
[+ ИJ[+  оv╟B а          ^r╟B - #   dctlЎ[+ ■M[+  8w╟B ╗          r╟Bin1 nowidctlpar  cs16   super  #            @S[+     -  ьh уh             1           =   1   Т              =   n  єH  щ   ░      &  9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  H   #   =   n  %    АF А  ░░А В  Energy Conversion 1.1 - Tutorial  H  ║   &  ╢  О    ъАu А   ШШу\к╙PА ЙА ВуSП?А ЙА Ву$чdIА ЙА Ву╠ зnА ЙА Ву\Ц А ЙА Вуfвv┤А ЙА Ву   А ЙА ВА Гу>	  А	 ЙА
 В   Program Description     Claim Sheet     How to Use the Program     Limited Warranty     Suggestion/Evaluation Form     License Agreement     Properties       Temperature - Pressure    \   +   n    1    2АV А    А ГГуМН А ЙА В      Running  -  Temperature - Pressure    M      ╢  _  2    4А6 А   ░ША Гу?	  А	 ЙА
 В     Enthalpy - Pressure    Y   (     ╕  1    2АP А    А	 ГГу╖Н А ЙА В      Running  -  Enthalpy - Pressure    L      _    2    4А4 А   ░ША Гу@	  А	 ЙА
 В     Entropy - Pressure    X   '   ╕  \  1    2АN А    А ГГутН А ЙА В      Running  -  Entropy - Pressure    n   /     ╩  ?    NА^ А   ШШу   А ЙА ВА Гуw  А	 ЙА
 В   Steam Approximations       Saturated Area    ▒   q   \  {  @    PАт А    А ГГуNх∙А ЙА ВА ГГуyх∙ЙА В      Running  -  Saturated Area - Temperature Dependent       Running  -  Saturated Area - Pressure Dependent    J      ╩  ┼  2    4А0 А   ░ША Гуx  А	 ЙА
 В     Superheated Area    V   %   {    1    2АJ А    А ГГуJ─ А ЙА В      Running  -  Superheated Area    ^      ┼  y  ?    NА> А   ШШу   А ЙА ВА Гу░  А	 ЙА
 В   Power Cycles       Carnot    R   !     ╦  1    2АB А    А ГГу▓· А ЙА В      Running  -  Carnot Cycle    A      y    2    4А А   ░ША Гу▒  А	 ЙА
 В     Brayton    I      ╦  U  3    6А, А   ШША ГГуnл А	 ЙА
 В      Power (Ideal)    e   3     ║  2    4Аf А    А ГГГуЬG╛А ЙА В       Running  -  Brayton Cycle:  Power (Ideal)    H      U    3    6А* А   ░ША ГГуoл А	 ЙА
 В      Power (Real)    d   2   ║  f  2    4Аd А    А	 ГГГу╟G╛А ЙА В       Running  -  Brayton Cycle:  Power (Real)    J        ░  0    0А4 А   ░ША	 ГГуpл ЙА
 В     Propulsion (Ideal)    j   8   f  	  2    4Аp А    А	 ГГГуЄG╛А ЙА В       Running  -  Brayton Cycle:  Propulsion (Ideal)    I      ░  c	  0    0А2 А   ░ША	 ГГуqл ЙА
 В     Propulsion (Real)    i   7   	  ╠	  2    4Аn А    А	 ГГГуH╛А ЙА В       Running  -  Brayton Cycle:  Propulsion (Real)    =      c	  	
  /    .А А   ░ША	 Гу▓  ЙА
 В    Rankine    S   "   ╠	  \
  1    2АD А    А	 ГГу√ А ЙА В      Running  -  Rankine Cycle    :      	
  Ц
  /    .А А   ░ША	 Гу│  ЙА
 В    Otto    P      \
  ц
  1    2А> А    А	 ГГу3√ А ЙА В      Running  -  Otto Cycle    <      Ц
  "  /    .А А   ░ША	 Гу┤  ЙА
 В    Diesel    R   !   ц
  t  1    2АB А    А	 ГГу^√ А ЙА В      Running  -  Diesel Cycle    J      "  ╛  /    .А6 А   ░ША	 Гу╡  ЙА
 В    Magnetohydrodynamics    `   /   t    1    2А^ А    А	 ГГуЙ√ А ЙА В      Running  -  Magnetohydrodynamics Cycle    ?      ╛  ]  /    .А  А   ░ША	 Гу╢  ЙА
 В    Fuel Cell    U   $     ▓  1    2АH А    А	 ГГу┤√ А ЙА В      Running  -  Fuel Cell Cycle    Я   Q   ]  Q  N    lАв А   ШШу   А ЙА ВА Гущ  А	 ЙА
 ВА	 ГГуцB▀ ЙА
 В   Power Cycle Components/Processes       Compression       Isentropic (Ideal)    h   6   ▓  ╣  2    4Аl А    А	 ГГГу─<А%А ЙА
 В       Running  -  Compression:  Isentropic (Ideal)    I      Q    0    0А2 А   ░ША	 ГГучB▀ ЙА
 В     Isentropic (Real)    g   5   ╣  i  2    4Аj А    А	 ГГГуя<А%А ЙА В       Running  -  Compression:  Isentropic (Real)    B        л  0    0А$ А   ░ША	 ГГушB▀ ЙА
 В     Isothermal    `   .   i    2    4А\ А    А	 ГГГу=А%А ЙА В       Running  -  Compression:  Isothermal    @      л  K  /    .А" А   ░ША	 Гуъ  ЙА
 В    Combustion    @        Л  0    0А  А   ШША	 ГГуJ▀ ЙА
 В     Coal/Oil    ]   +   K  @  2    4АV А    А	 ГГГуWsБ%А ЙА В       Running  -  Combustion:  Coal/Oil                            Л  @     ;      Л  G@  0    0А А   ░ША	 ГГу J▀ ЙА
 В     Gas    X   &   @  Я@  2    4АL А    А	 ГГГуВsБ%А ЙА В       Running  -  Combustion:  Gas    ?      G@  ▐@  /    .А  А   ░ША	 Гуы  ЙА
 В    Expansion    J      Я@  (A  0    0А4 А   ШША	 ГГуXQ▀ ЙА
 В     Isentropic (Ideal)    f   4   ▐@  ОA  2    4Аh А    А	 ГГГуъйВ%А ЙА В       Running  -  Expansion:  Isentropic (Ideal)    I      (A  ╫A  0    0А2 А   ░ША	 ГГуYQ▀ ЙА
 В     Isentropic (Real)    e   3   ОA  <B  2    4Аf А    А	 ГГГукВ%А ЙА В       Running  -  Expansion:  Isentropic (Real)    B      ╫A  ~B  0    0А$ А   ░ША	 ГГуZQ▀ ЙА
 В     Isothermal    ^   ,   <B  ▄B  2    4АX А    А	 ГГГу@кВ%А ЙА В       Running  -  Expansion:  Isothermal    C      ~B  C  /    .А( А   ░ША	 Гуь  ЙА
 В    Heat Transfer    S   "   ▄B  rC  1    2АD А    А	 ГГу╞1 А ЙА В      Running  -  Heat Transfer    <      C  оC  /    .А А   ░ША	 Гуэ  ЙА
 В    Mixing    L      rC  ·C  1    2А6 А    А	 ГГуё1 А ЙА В      Running  -  Mixing    j   .   оC  dD  <    HА\ А   ШШу   А ЙА ВА	 Гу"&  ЙА
 В   Compressible Flow      Velocity of Sound    W   &   ·C  ╗D  1    2АL А    А	 ГГу╪g А ЙА В      Running  -  Velocity of Sound    A      dD  №D  /    .А$ А   ░ША	 Гу#&  ЙА
 В    Mach Number    Q       ╗D  ME  1    2А@ А    А	 ГГуh А ЙА В      Running  -  Mach Number    @      №D  НE  /    .А" А   ░ША	 Гу$&  ЙА
 В    Properties    B      ME  ╧E  0    0А$ А   ШША	 ГГу	|ЙА
 В     Stagnation    ]   +   НE  ,F  2    4АV А    А	 ГГГуе╒E.А ЙА В       Running  -  Stagnation Properties    >      ╧E  jF  0    0А А   ░ША	 ГГу
|ЙА
 В     Static    Y   '   ,F  ├F  2    4АN А    А	 ГГГу╨╒E.А ЙА В       Running  -  Static Properties    <      jF   F  /    .А А   ░ША	 Гу%&  ЙА
 В    Nozzle    L      ├F  KG  1    2А6 А    А	 ГГуYh А ЙА В      Running  -  Nozzle    B       F  НG  /    .А& А   ░ША	 Гу&&  ЙА
 В    Normal Shock    R   !   KG  ▀G  1    2АB А    А	 ГГуДh А ЙА В      Running  -  Normal Shock    >      НG  H  /    .А А   ░ША	 Гу'&  ЙА
 В    Diffuser    N      ▀G  kH  1    2А: А    А	 ГГупh А ЙА В      Running  -  Diffuser    <      H  зH  /    .А А   ░ША	 Гу(&  ЙА
 В    Thrust    L      kH  єH  1    2А6 А    А	 ГГу┌h А ЙА В      Running  -  Thrust    1       зH  $I  1   .                 $I  -Е  щ   ░   єH  J  9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      $I  8J  (     А А  ШШВQА В    7  №  J  oL  ;    DА∙ А    А ВА ВА	 А ВА	 А ВВВВВВ  Program Description    Engineering Software  has developed a new Windows based software package,  Energy Conversion , that quickly and reliably calculates thermodynamic and transport properties of gaseous, liquid and solid species, contains coefficients for the calculation of the physical properties of various species -- the user has the capability to use the coefficients to carry out independent engineering calculations involving physical properties of various species, steam approximations, analyzes    ь  8J  ЖN  +    $А┘ А    А ВВВВВВВВ  power cycles, power cycle components/processes and compressible flow.  This software package should prove to be a good tool for those who are involved at various levels with design, operation and management of energy conversion systems.  It should provide you with the opportunity to more quickly and effectively do your work, explore more options, save time and give more confidence in carrying out your calculations. To get a free evaluation copy of the program, place an order, find out  	  ▓  oL  ЫА  W    |Аe А    А ВА	 А А	 А ВВА	 ВА ГВГВГВВА	 ВА ГВГВВА	 ВА ГВГВ  more about how you can profit or benefit from this software package, please send an e-mail to  info@engineering-4e.com  or call  (301) 540-3605 .   Thermodynamic and Transport Properties   Temperature and Pressure (270 K < T < 5,000 K)  Enthalpy and Pressure  Entropy and Pressure   Steam AЖN  ЫА  єH  pproximations   Saturated Area (Temperature and Pressure Dependent)  Superheated Area   Power Cycles   Carnot  Brayton (Power and Propulsion)  
  з  ЖN  еВ  c    ФАO А    А ГВГВГВГВГВВА	 ВА ГВГВГВГВГВВА	 ВА ГВГВГВГВГВГВГВВА	 ВА ГВГВГВ   Rankine  Otto  Diesel  Magnetohydrodynamics  Fuel Cell   Power Cycle Components/Processes   Compression  Combustion (Coal/Oil/Gas)  Expansion  Heat Transfer  Mixing   Compressible Flow   Velocity of Sound  Mach Number  Properties (Stagnation and Static)  Nozzle  Normal Shock  Diffuser  Thrust   Hardware Requirements and Software Compatibility   80486 or higher microprocessor  16 MB RAM  10 MB available on hard drive  ?      ЫА  фВ  $    А6 А    А ГВ   IBM compatible systems:  h   :   еВ  LГ  .    ,Аt А   Ж№EбА ГГВГГВ    Windows 98, Windows 2000, Windows ME and   Windows XP    ▀   фВ  WД  ,    &А┐ А    А ВВВВВГВВВ   Distributed on CD ROM Free Technical and Product Support 30 Day Money Back Guarantee  Trademarks: All product names, company names and service marks are trademarks or registered trademarks of their respective companies.  ╓   е   LГ  -Е  1    0АK А   А ВА	 ВА ВВВВВВ    Engineering Software  P.O. Box 1180 Germantown, MD 20875 Phone: (301) 540-3605 FAX: (301) 540-3605 E-Mail: info@engineering-4e.com http://www.engineering-4e.com  1       WД  ^Е  1   o                 ^Е  ЬМ  щ   ░   -Е  GЖ  9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ^Е  rЖ  (     А А  ШШВQА В    	  ╦  GЖ  {И  >    JАЧ А   Ж╪бQА ВА ВА	 А ВВВВВВВВВВ  Claim Sheet    Engineering Software  products allow quick and reliable calculation of thermodynamic and transport properties of gaseous, liquid and solid species, contain coefficients for the calculation of physical properties, steam approximations for both saturated and superheated areas, analyze power cycles, power cycle components/processes and compressible flow.  The aforementioned engineering calculations are valid under the following assumptions:  "  р  rЖ  ЭК  B    RА┴ А   Ж╪бQА ВА	 А ВВВВВВВВВВА	 ВА В    Thermodynamic and Transport Properties  Single specie consideration Ideal gas approach is used (pv=RT) Specific heat is not constant Coefficients describing thermodynamic and transport properties were obtained from the NASA Glenn Research Center at Lewis Field in Center in Cleveland, OH -- such coefficients conform with the standard reference temperature of 298.15 K (77 F) and the JANAF tables   Power Cycles  Single specie consideration -- fuel mass flow rate ignored and     ╖  {И  ЬМ  H    ^Аo А   Ж╪бQА ВВВВВА	 А ВВВВВВА	 ВА ВВВА В  its impact on the properties of the working fluid Basic equations hold (continuity, momentum and energy equations) Specific heat is constant   Power Cycle Components/Processes  Single specie consideration Basic equations hold (continuity, momentum and energy equations) Specific heat is constant   Compressible Flow  Single specie consideration Basic equations hold (continuity, momentum and energy equations) Specific heat is constant   1       ЭК  ═М  1   9                 ═М  └  щ   ░   ЬМ  ╢Н  9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ═М  сН  (     А А  ШШВQА В    Ї  ║  ╢Н  └  :    BАu А   Ж╪бQА ВА ВА	 А ВВВВВВ  How to Use the Program   In each section, subsection of the  Energy Conversion  program, the user needs to change one or more input values in order to calculate a new case.  Input values are in boxes with white background and can be changed by clicking on each individual box or even by using the arrow keys and changing the current value.  Output values cannot be modified, changed by the user and they are in boxes with black background.                                             сН  └  ЬМ  1       сН  =└  1   U                 =└  a╞  щ   ░   └  &┴  9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      =└  Q┴  (     А А  ШШВQА В    5  є  &┴  Ж├  B    RАч А   Ж╪бQА ВА ВА	 А ВВВВА	 А ВВВВ  Limited Warranty   This software package is sold  AS IS , without warranty as to its performance.  The entire risk as to the quality and of the performance of this computer software program is assumed by the user.  However, to the original purchaser only,  Engineering Software  warrants the medium on which the program is recorded to be free from defects in materials and faulty workmanship under normal use and service for a period of thirty (30) days from the date of purchase.  If during this  A  ё  Q┴  ╟┼  P    nАу А   Ж╪бQА ВА	 А А	 А ВА	 А А	 А ВВВВВА	 А ВВ  period a defect on the medium should occur, the medium may be returned to  Engineering Software  or to an authorized  Engineering   Software  distributor and  Engineering Software  will replace the medium without charge to you.  Your sole and exclusive remedy in the event of a defect is expressly limited to replacement of the medium as provided above.  If the failure of the medium, in the judgment of  Engineering Software  resulted from accident, abuse or misapplication of the medium, then  Ъ   m   Ж├  a╞  -    *А┌ А   Ж╪бQА	 А ВВ  Engineering Software  shall have no responsibility to replace the medium under the terms of this warranty.  1       ╟┼  Т╞  1   
                 Т╞  k╩  щ   ░   a╞  {╟  9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      Т╞  ж╟  (     А А  ШШВQА В    L      {╟  Є╟  -    *А> А   Ж╪бQА ВА В  Suggestion/Evaluation Form      ▄   ж╟  ╔  8    >А╣ А   
Ж╪бQА ВВА	 ВА ВВВВВВ  Please FAX or Mail This Suggestion/Evaluation Form To:   Engineering Software  P.O. Box 1180 Germantown, MD 20875 Phone: (301) 540-3605 FAX: (301) 540-3605 E-Mail: info@engineering-4e.com http://www.engineering-4e.com  С   ]   Є╟  Ч╔  4    8А║ А   Ж╪бQА ВВВВВВВВВВВВ   Name: Title: Company/Organization: Street Address: City: State: Zip: Phone: FAX: E-Mail:   =      ╔  ╘╔  )    "А( А   
Ж╪бQА	 В  Energy Conversion  Ч   Z   Ч╔  k╩  =    JА┤ А   Ж╪бQА ВВВВВВВВВВВВВВВВВВВВВ   Quality:     Usefulness:     Possible areas of improvement:     Other suggestions:      1       ╘╔  Ь╩  1   h                 Ь╩    щ   ░   k╩  Е╦  9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      Ь╩  ░╦  (     А А  ШШВQА В       ▄  Е╦  ╨═  D    VА╣ А   Ж╪бQА ВА ВА	 А ВА	 А ВВВВВВВВВ  License Agreement   This software is the property of  Engineering Software  and is protected by federal copyright law.  While  Engineering Software  continues to own the software, you will have certain rights to use the software after your acceptance of this license.  Your rights and obligations with respect to the 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 and    ╧  ░╦    4    6АЯ А   Ж╪бQА ВВВВВВВВВВВ  - 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 network  You 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 software                                               ╨═    k╩  1       ╨═  =  1   +                 =  ╜ щ   ░     & 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      =  Q (     А А  ШШВQА В      ▀  & f 6    :А┐ А   Ж╪бQА ВА ВВВВВВВВВ  Properties   This section provides physical properties of available species for assigned two state values such as:  temperature and pressure, enthalpy and pressure, and entropy and pressure.  Physical properties are given in both U.S. customary and International units.  Note:  Physical properties for H2O(S), H2O(L) and H2O(G) are available.  The accuracy of the available H2O properties is only good for the purpose of combustion calculation.  Therefore, this indicates that  W   .   Q ╜ )    "А\ А   Ж╪бQА В  steam table calculations are not available.  1       f ю 1   О                 ю K щ   ░   ╜ ╫ 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ю  (     А А  ШШВQА В    I    ╫ K 9    @А! А   Ж╪бQА ВА ВВВВВВВВВВВВ  Properties:  Temperature - Pressure   This subsection provides physical properties of the selected specie for assigned temperature and pressure.  Input Values: Specie, Temperature, Pressure  Output Values: Physical Properties  Assumptions: Specific heat is not constant  1        | 1   г          	       | ю	 э   ▒   K i <    FАc А   Ж╪бQА А ВА ВГВГВГВГА В  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com   +      | Ф (     А А  ШШВQА В       т  i ┤	 >    JА┼ А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВВ  Running  -  Properties:  Temperature - Pressure   STEP 1 Select the desired specie or go with the default specie.  STEP 2 Enter the desired temperature value or go with the default temperature value.  STEP 3 Enter the desired pressure value or go with the default pressure value.  STEP 4 Click on the Calculate button to start the calculation of the physical properties for the chosen input values.  STEP 5 When done with Steps 1 through 4, click on the Exit button to go back to  :      Ф ю	 )    "А" А   Ж╪бQА В  the Main menu.  1       ┤	 
 1   Е          
       
 s щ   ░   ю	  9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      
 3 (     А А  ШШВQА В    @     s 9    @А А   Ж╪бQА ВА ВВВВВВВВВВВВ  Properties:  Enthalpy - Pressure   This subsection provides physical properties of the selected specie for assigned enthalpy and pressure.  Input Values: Specie, Enthalpy, Pressure  Output Values: Physical Properties  Assumptions: Specific heat is not constant  1       3 д 1   Х                 д @ щ   ░   s Н 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      д ╕ (     А А  ШШВQА В      ┘  Н ╬ =    HА│ А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВ  Running  -  Properties:  Enthalpy - Pressure   STEP 1 Select the desired specie or go with the default specie.  STEP 2 Enter the desired enthalpy value or go with the default enthalpy value.  STEP 3 Enter the desired pressure value or go with the default pressure value.  STEP 4 Click on the Calculate button to start the calculation of the physical properties for the chosen input values.  STEP 5 When done with Steps 1 through 4, click on the Exit button to go back to  :      ╕ @ )    "А" А   Ж╪бQА В  the Main╬ @ s  menu.  1       ╬ E@ 1                    E@ ФB щ   ░   @ .A 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      E@ YA (     А А  ШШВQА В    ;    .A ФB 8    >А А   Ж╪бQА ВА ВВВВВВВВВВВ  Properties:  Entropy - Pressure   This subsection provides physical properties of the selected specie for assigned entropy and pressure.  Input Values: Specie, Entropy, Pressure  Output Values: Physical Properties  Assumptions: Specific heat is not constant 1       YA ┼B 1   Т                 ┼B &F щ   ░   ФB оC 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ┼B ┘C (     А А  ШШВQА В      ╓  оC ьE =    HАн А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВ  Running  -  Properties:  Entropy - Pressure   STEP 1 Select the desired specie or go with the default specie.  STEP 2 Enter the desired entropy value or go with the default entropy value.  STEP 3 Enter the desired pressure value or go with the default pressure value.  STEP 4 Click on the Calculate button to start the calculation of the physical properties for the chosen input values.  STEP 5 When done with Steps 1 through 4, click on the Exit button to go back to  :      ┘C &F )    "А" А   Ж╪бQА В  the Main menu.  1       ьE WF 1                    WF 3J щ   ░   &F @G 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      WF kG (     А А  ШШВQА В    (  э  @G УI ;    DА█ А   Ж╪бQА ВА ВВВВВВВВВВВВВВ  Coefficients   For each reaction specie, the thermodynamic functions specific heat, enthalpy and entropy as functions of temperature are given in the form of least 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 + 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  а   v   kG 3J *    $Аь А   Ж╪бQА ВВ  temperature intervals, 273 to 1,000 K and 1,000 to 5,000 K.  The data have been constrained to be equal at 1,000 K.  1       УI dJ 1   й                 dJ ▄L щ   ░   3J MK 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      dJ xK (     А А  ШШВQА В    d  ,  MK ▄L 8    >АY А   Ж╪бQА ВА ВВВВВВВВВВВ  Running:  Coefficients   STEP 1 Select the desired specie or go with the default specie.  STEP 2 Read and/or print the coefficients for the calculation of the physical properties for the chosen specie.  STEP 3 When done with Steps 1 through 2, click on the Exit button to go back to the Main menu.  1       xK M 1                    M щN щ   ░   ▄L ЎM 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      M !N (     А А  ШШВQА В    ╚   Ш   ЎM щN 0    .А1 А   Ж╪бQА ВА ВВВ  Steam Approximations   This section deals with steam approximations, steam table calculations are available for both saturated and superheated areas.  1       !N O 1   a                 O їБ щ   ░   щN А 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.coO А щN m  +      O :А (     А А  ШШВQА В    ╗  Г  А їБ 8    >А А   Ж╪бQА ВА ВВВВВВВВВВВ  Steam Approximations:  Saturated Area   This subsection deals with steam approximations for the saturated area, steam table calculations are available for the saturated area only.  In this case, steam approximations are either temperature or pressure dependent.  Input Values: Saturated Steam Temperature and Pressure, Steam Quality  Output Values: Saturated Steam Physical Properties  1       :А &В 1   И                 &В }Е щ   ░   їБ Г 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      &В :Г (     А А  ШШВQА В    	  ╠  Г CЕ =    HАЩ А   Ж╪бQА ВГВА ВВВВВВВВВВВВВВ  Running  -  Steam Approximations:  Saturated Area:  Temperature Dependent   STEP 1 Enter the desired saturated steam temperature value or go with the default temperature value.  STEP 2 Enter the desired steam quality or go with the default steam quality value.  STEP 3 Click on the Calculate button to start the calculation of the steam properties for the chosen input values.  STEP 4 When done with Steps 1 through 3, click on the Exit button to go back to  :      :Г }Е )    "А" А   Ж╪бQА В  the Main menu.  1       CЕ оЕ 1   U                 оЕ ╥И щ   ░   }Е ЧЖ 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      оЕ ┬Ж (     А А  ШШВQА В      ╥  ЧЖ ╥И >    JАе А   Ж╪бQА ВГВА ВВВВВВВВВВВВВВВ  Running  -  Steam Approximations:  Saturated Area:  Pressure Dependent   STEP 1 Enter the desired saturated steam pressure value or go with the default pressure value.  STEP 2 Enter the desired steam quality or go with the default steam quality value.  STEP 3 Click on the Calculate button to start the calculation of the steam properties for the chosen input values.  STEP 4 When done with Steps 1 through 3, click on the Exit button to go back to the Main menu.  1       ┬Ж Й 1   з                 Й yЛ щ   ░   ╥И ьЙ 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      Й К (     А А  ШШВQА В    b  ,  ьЙ yЛ 6    :АY А   Ж╪бQА ВА ВВВВВВВВВ  Steam Approximations:  Superheated Area   This 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 Pressure  Output Values: Superheated Steam Physical Properties  1       К кЛ 1   W                 кЛ ╨О щ   ░   yЛ УМ 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      кЛ ╛М (     А А  ШШВQА В      ╒  УМ ╨О =    HАл А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВ  Running  -  Steam Approximations:  Superheated Area   STEP 1 Enter the desired superheated steam temperature value or go with the default temperature value.  STEP 2 Enter the desired superheated steam pressure value or go with the default pressure value.  STEP 3 Click on the Calculate button to start the calculation of the steam properties for the chosen input values.  STEP 4 When done with Steps 1 through 3, click on the Exit button to go back to the Main menu.  1       ╛М П 1   Е                 П √└ щ   ░   ╨О └ 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com                        П └ ╨О +      П 7└ (     А А  ШШВQА В    ─   Ф   └ √└ 0    .А) А   Ж╪бQА ВА ВВВ  Power Cycles   This section provides analysis of a few power cycles (Carnot, Brayton, Rankine, Otto, Diesel, Magnetohydrodynamics and Fuel Cell).  1       7└ ,┴ 1   ╠                 ,┴ ╟├ щ   ░   √└ ┬ 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ,┴ @┬ (     А А  ШШВQА В    З  N  ┬ ╟├ 9    @АЭ А   Ж╪бQА ВА ВВВВВВВВВВВВ  Power Cycles:  Carnot   This subsection provides analysis of the Carnot cycle.  Input Values: Heat Addition Temperature, Heat Rejection Temperature  Output Values: Cycle Efficiency, Heat Rate  Assumptions: Isentropic compression and expansion.  Heat addition and rejection occur at constant temperature.  Specific heat is constant.  1       @┬ °├ 1   N                 °├ ╟ щ   ░   ╟├ с─ 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      °├ ┼ (     А А  ШШВQА В    	  ╠  с─ ╟ =    HАЩ А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВ  Running  -  Power Cycles:  Carnot   STEP 1 Enter the desired heat addition temperature value or go with the default temperature value.  STEP 2 Enter the desired heat rejection temperature value or go with the default temperature value.  STEP 3 Click on the Calculate button to start the calculation of the Carnot cycle output values for the chosen input values.  STEP 4 When done with Steps 1 through 3, click on the Exit button to go back to the Main menu.  1       ┼ F╟ 1   ■                 F╟ ╔ щ   ░   ╟ /╚ 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      F╟ Z╚ (     А А  ШШВQА В    ╣   Й   /╚ ╔ 0    .А А   Ж╪бQА ВА ВВВ  Power Cycles:  Brayton   This subsection provides analysis of the Brayton cycle for both power generation and propulsion applications.  1       Z╚ D╔ 1                    D╔ ═ щ   ░   ╔ -╩ 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      D╔ X╩ (     А А  ШШВQА В      █  -╩ n╠ ;    DА╖ А   Ж╪бQА ВА ВВВВВВВВВВВВВВ  Power Cycles:  Brayton:  Power (Ideal)   This subsection provides analysis of the Brayton cycle for the power generation application.  Input Values: Working Fluid, Working Fluid Mass Flow Rate, Compressor Inlet Temperature, Compressor Inlet Pressure, Turbine Inlet Temperature, Turbine Inlet Pressure, Fuel HHV  Output Values: Power Output, Fuel Consumption, Cycle Efficiency, Heat Rate  Assumptions: Isentropic compression and expansion.  Ideal combustion, heat transfer.  й      X╩ ═ *    $А■ А   Ж╪бQА ВВ  Fuel mass flow rate is ignored when calculating the gas turbine power output.  No pressure loss.  Specific heat is constant.  1       n╠ H═ 1   ┐                 H═ М щ   ░   ═ 1╬ 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      H═ \╬ (     А А  ШШВQА В    @    1╬ и  ?    LА А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВВВ  Running  -  Power Cycles:  Brayton:  Power (Ideal)   STEP 1 Select the desired specie (working fluid) or go with the default specie.  STEP 2 Enter the desired compressor inlet temperature value or go with the default temperature value.  STEP 3 Enter the desired compressor inlet pressure value or go with the default pressure value.  STEP 4 Enter the desir\╬ и  ═ ed turbine inlet temperature value or go with the default temperature value.  STEP 5 Enter the desired turbine inlet pressure value or go with the default  ф  л  \╬ М 9    @АW А   Ж╪бQА ВВВВВВВВВВВВВВВВ  turbine inlet pressure value.  STEP 6 Enter the desired mass flow rate value or go with the default mass flow rate value.  STEP 7 Enter the desired fuel HHV value or go with the default fuel HHV value.  STEP 8 Click on the Calculate button to start the calculation of the Brayton cycle output values for the chosen input values.  STEP 9 When done with Steps 1 through 8, click on the Exit button to go back to the Main menu.  1       и  ╜ 1   \                 ╜ ш щ   ░   М ж 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ╜ ╤ (     А А  ШШВQА В      █  ж х 9    @А╖ А   Ж╪бQА ВА ВВВВВВВВВВВВ  Power Cycles:  Brayton:  Power (Real)   This subsection provides analysis of the Brayton cycle for the power generation application.  Input Values: Working Fluid, Working Fluid Mass Flow Rate, Compressor Inlet Temperature, Compressor Inlet Pressure, Turbine Inlet Temperature, Turbine Inlet Pressure, Fuel HHV, Compressor Isentropic Efficiency, Turbine Isentropic Efficiency, Combustor Efficiency  Output Values: Power Output, Fuel Consumption, Cycle Efficiency, Heat Rate    ╒   ╤ ш .    *Ал А   Ж╪бQА ВВВВВ   Assumptions: Isentropic compression and expansion.  Ideal combustion, heat transfer. Fuel mass flow rate is ignored when calculating the gas turbine power output.  No pressure loss.  Specific heat is constant.  1       х  1   ю                  ╓ щ   ░   ш  9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +       - (     А А  ШШВQА В    ?      l
 ?    LА А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВВВ  Running  -  Power Cycles:  Brayton:  Power (Real)   STEP 1 Select the desired specie (working fluid) or go with the default specie.  STEP 2 Enter the desired compressor inlet temperature value or go with the default temperature value.  STEP 3 Enter the desired compressor inlet pressure value or go with the default pressure value.  STEP 4 Enter the desired turbine inlet temperature value or go with the default temperature value.  STEP 5 Enter the desired turbine inlet pressure value or go with the default  A    - н <    FА А   Ж╪бQА ВВВВВВВВВВВВВВВВВВВ  turbine inlet pressure value.  STEP 6 Enter the desired mass flow rate value or go with the default mass flow rate value.  STEP 7 Enter the desired fuel HHV value or go with the default fuel HHV value.  STEP 8 Enter the compressor isentropic efficiency value or go with the default compressor isentropic efficiency value.  STEP 9 Enter the turbine isentropic efficiency value or go with the default turbine isentropic efficiency value.  STEP 10 Enter the combustor efficiency value or go with the default combustor  )  ў   l
 ╓ 2    2Ая А   Ж╪бQА ВВВВВВВВВ  efficiency value.  STEP 11 Click on the Calculate button to start the calculation of the Brayton cycle output values for the chosen input values.  STEP 12 When done with Steps 1 through 11, click on the Exit button to go back  to the Main menu.  1       н  1   '                  √A щ   ░   ╓ Ё 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +        (     А А  ШШВQА В    9  ¤  Ё `A <    FА√ А   Ж╪бQА ВА ВВВВВВВВВВВВВВВ  Power Cycles:  Brayton:  Propulsion (Ideal)   This subsection provides analysis of the Brayton cycle for the propulsion application.  Input Values: Working Fluid, Worki `A ╓ ng Fluid Mass Flow Rate, Compressor Inlet Temperature, Compressor Inlet Pressure, Turbine Inlet Temperature, Turbine Inlet Pressure, Fuel HHV  Output Values: Thrust, Fuel Consumption  Assumptions: Isentropic compression and expansion.  Ideal combustion, heat transfer. Fuel mass flow rate is ignored when calculating the gas turbine power  Ы   q    √A *    $Ат А   Ж╪бQА ВВ  output.  Ambient pressure is equal to compressor inlet pressure. No pressure loss.  Specific heat is constant.  1       `A ,B 1   n                 ,B iG щ   ░   √A C 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ,B @C (     А А  ШШВQА В    E    C ЕE ?    LА А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВВВ  Running  -  Power Cycles:  Brayton:  Propulsion (Ideal)   STEP 1 Select the desired specie (working fluid) or go with the default specie.  STEP 2 Enter the desired compressor inlet temperature value or go with the default temperature value.  STEP 3 Enter the desired compressor inlet pressure value or go with the default pressure value.  STEP 4 Enter the desired turbine inlet temperature value or go with the default temperature value.  STEP 5 Enter the desired turbine inlet pressure value or go with the default  ф  л  @C iG 9    @АW А   Ж╪бQА ВВВВВВВВВВВВВВВВ  turbine inlet pressure value.  STEP 6 Enter the desired mass flow rate value or go with the default mass flow rate value.  STEP 7 Enter the desired fuel HHV value or go with the default fuel HHV value.  STEP 8 Click on the Calculate button to start the calculation of the Brayton cycle output values for the chosen input values.  STEP 9 When done with Steps 1 through 8, click on the Exit button to go back to the Main menu.  1       ЕE ЪG 1   o                  ЪG ╪K щ   ░   iG ГH 9    @Аa А   Ж╪бQА А ВА ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ЪG оH (     А А  ШШВQА В    I    ГH ўJ <    FА А   Ж╪бQА ВА ВВВВВВВВВВВВВВВ  Power Cycles:  Brayton:  Propulsion (Real)   This subsection provides analysis of the Brayton cycle for the propulsion application.  Input Values: Working Fluid, Working Fluid Mass Flow Rate, Compressor Inlet Temperature, Compressor Inlet Pressure, Turbine Inlet Temperature, Turbine Inlet Pressure, Fuel HHV, Compressor Isentropic Efficiency, Turbine Isentropic Efficiency, Combustor Efficiency  Output Values: Thrust, Fuel Consumption  Assumptions: Isentropic compression and expansion.  Ideal combustion, heat transfer.  с   ╢   оH ╪K +    $Аm А   Ж╪бQА ВВ  Fuel mass flow rate is ignored when calculating the gas turbine power output.  Ambient pressure is equal to compressor inlet pressure. No pressure loss.  Specific heat is constant. 1       ўJ 	L 1   L          !       	L ╘В щ   ░   ╪K ЄL 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      	L M (     А А  ШШВQА В    D    ЄL aO ?    LА А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВВВ  Running  -  Power Cycles:  Brayton:  Propulsion (Real)   STEP 1 Select the desired specie (working fluid) or go with the default specie.  STEP 2 Enter the desired compressor inlet temperature value or go with the default temperature value.  STEP 3 Enter the desired compressor inlet pressure value or go with the default pressure value.  STEP 4 Enter the desired turbine inlet temperature value or go with the default temperature value.  STEP 5 Enter the desired turbine inlet pressure value or go with the default  A    M оБ <    FА А   Ж╪бQА ВВВВВВВВВВВВВВВВВВВ  turbine inlet pressure value.  STEP 6 Enter the desired mass flow rate value or go with the defaulaO оБ ╪K t mass flow rate value.  STEP 7 Enter the desired fuel HHV value or go with the default fuel HHV value.  STEP 8 Enter the compressor isentropic efficiency value or go with the default compressor isentropic efficiency value.  STEP 9 Enter the turbine isentropic efficiency value or go with the default turbine isentropic efficiency value.  STEP 10 Enter the combustor efficiency value or go with the default combustor  &  ї   aO ╘В 1    0Аы А   Ж╪бQА ВВВВВВВВ  efficiency value.  STEP 11 Click on the Calculate button to start the calculation of the Brayton cycle output values for the chosen input values.  STEP 12 When done with Steps 1 through 11, click on the Exit button to go back to the Main menu. 1       оБ Г 1   ┌          "       Г оЕ щ   ░   ╘В юГ 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      Г Д (     А А  ШШВQА В    Х  [  юГ оЕ :    BА╖ А   Ж╪бQА ВА ВВВВВВВВВВВВВ  Power Cycles:  Rankine   This subsection provides analysis of the Rankine cycle.  Input Values: Turbine Inlet Conditions (Temperature and Pressure), Steam Mass Flow Rate, Fuel HHV  Output Values: Power Output, Fuel Consumption, Cycle Efficiency, Heat Rate  Assumptions: Isentropic compression and expansion.  Ideal combustion and heat transfer.  1       Д ▀Е 1   т          #       ▀Е РЙ щ   ░   оЕ ╚Ж 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ▀Е єЖ (     А А  ШШВQА В      ╙  ╚Ж Й <    FАз А   Ж╪бQА ВА ВВВВВВВВВВВВВВВ  Running  -  Power Cycles:  Rankine   STEP 1 Select the desired steam turbine inlet conditions (temperature and pressure values) or go with the default selection.  STEP 2 Enter the steam mass flow rate value or go with the default steam mass flow rate value.  STEP 3 Enter the desired fuel HHV value or go with the default fuel HHV value.  STEP 4 Click on the Calculate button to start the calculation of the Rankine cycle output values for the chosen input values.  О   b   єЖ РЙ ,    (А─ А   Ж╪бQА ВВВВ   STEP 5 When done with Steps 1 through 4, click on the Exit button to go back to the Main menu.  1       Й ┴Й 1   ┘          $       ┴Й iН щ   ░   РЙ кК 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ┴Й ╒К (     А А  ШШВQА В    *  ё  кК  М 9    @Ау А   Ж╪бQА ВА ВВВВВВВВВВВВ  Power Cycles:  Otto   This subsection provides analysis of the Otto cycle.  Input Values: Working Fluid, Ambient Temperature, Ambient Pressure, Compression Ratio, Combustion Temperature, Number of Revolutions, Fuel HHV Number of Cylinders, Cylinder Stroke, Stroke to Diameter Ratio  Output Values: Compression Temperature, Compression Pressure, Combustion Pressure, Exhaust Temperature, Exhaust Pressure, Cycle Efficiency, Working Fluid Mass Flow Rate, Heat Rate, Power Output, Fuel Consumption  j   ?   ╒К iН +    &А~ А   Ж╪бQА ВВВ   Assumptions: Specific heat is constant. Four stroke engine.  1        М ЪН 1   \          %       ЪН *─ щ   ░   iН ГО 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ЪН оО (     А А  ШШВQА В    )  ъ  ГО у└ ?    LА╒ А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВВВ  Running  -  Power Cycles:  Otto   STEP 1 Select the desired specie (working fluid) or go with the default selection.  STEP 2 Enter the desired ambient temperature value or go with the default temperature value.  STEP 3 Enter the desired ambient pressure value or go with theоО у└ iН  default pressure value.  STEP 4 Enter the desired compression ratio (volumetric) value or go with the default compression ratio value.  STEP 5 Enter the desired combustion temperature value or go with the default  !  х  оО ├ <    FА╦ А   Ж╪бQА ВВВВВВВВВВВВВВВВВВВ  temperature value.  STEP 6 Enter the desired number of revolutions value or go with the default number of revolutions value.  STEP 7 Enter the desired fuel HHV value or go with the default fuel HHV value.  STEP 8 Enter the desired number of cylinders value or go with the default number of cylinders value.  STEP 9 Enter the desired cylinder stroke value or go with the default cylinder stroke value.  STEP 10 Enter the desired stroke to diameter value or go with the default stroke  &  Ї   у└ *─ 2    2Ащ А   Ж╪бQА ВВВВВВВВВ  to diameter value.  STEP 11 Click on the Calculate button to start the calculation of the Otto cycle output values for the chosen input values.  STEP 12 When done with Steps 1 through 11, click on the Exit button to go back to the Main menu.  1       ├ [─ 1   я          &       [─ ╚ щ   ░   *─ D┼ 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      [─ o┼ (     А А  ШШВQА В    2  ∙  D┼ б╟ 9    @Ає А   Ж╪бQА ВА ВВВВВВВВВВВВ  Power Cycles:  Diesel   This subsection provides analysis of the Diesel cycle.  Input Values: Working Fluid, Ambient Temperature, Ambient Pressure, Compression Ratio, Cut-Off Ratio, Number of Revolutions, Fuel HHV, Number of Cylinders, Cylinder Stroke, Stroke to Diameter Ratio  Output Values: Compression Temperature, Compression Pressure, Combustion Temperature, Combustion Pressure, Exhaust Temperature, Exhaust Pressure, Cycle Efficiency, Working Fluid Mass Flow Rate, Heat Rate, Power Output, Fuel  x   L   o┼ ╚ ,    (АШ А   Ж╪бQА ВВВВ  Consumption  Assumptions: Specific heat is constant.  Four stroke engine.  1       б╟ J╚ 1   ╦          '       J╚ ф╬ щ   ░   ╚ 3╔ 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      J╚ ^╔ (     А А  ШШВQА В    /  Ё  3╔ Н╦ ?    LАс А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВВВ  Running  -  Power Cycles:  Diesel   STEP 1 Select the desired specie (working fluid) or go with the default selection.  STEP 2 Enter the desired ambient temperature value or go with the default temperature value.  STEP 3 Enter the desired ambient pressure value or go with the default pressure value.  STEP 4 Enter the desired compression ratio (volumetric) value or go with the default compression ratio value.  STEP 5 Enter the desired cut-off ratio (volumetric) value or go with the default  ,  Ё  ^╔ ╣═ <    FАс А   Ж╪бQА ВВВВВВВВВВВВВВВВВВВ  cut-off ratio value.  STEP 6 Enter the desired number of revolutions value or go with the default number of revolutions value.  STEP 7 Enter the desired fuel HHV value or go with the default fuel HHV value.  STEP 8 Enter the desired number of cylinders value or go with the default number of cylinders value.  STEP 9 Enter the desired cylinder stroke value or go with the default cylinder stroke value.  STEP 10 Enter the desired stroke to diameter ratio value or go with the default stroke to  +  ∙   Н╦ ф╬ 2    2Ає А   Ж╪бQА ВВВВВВВВВ  diameter ratio value.  STEP 11 Click on the Calculate button to start the calculation of the Diesel cycle output values for the chosen input values.  STEP 12 When done with Steps 1 through 11, click on the Exit button to go back to the Main menu.  1       ╣═ ╧ 1   c          (       ╧ U щ   ░   ф╬   9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com    ╧   ф╬ +      ╧ 7  (     А А  ШШВQА В    %  ь    \ 9    @А┘ А   Ж╪бQА ВА ВВВВВВВВВВВВ  Power Cycles:  Magnetohydrodynamics   This 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  Output Values: Inlet Static Temperature, Inlet Static Pressure, Inlet Mach Number, Induced Voltage Field, Current Density, Outlet Static Temperature, Outlet Static Pressure, Outlet Mach Number, Outlet Stagnation  ∙   ╩   7  U /    ,АХ А   Ж╪бQА ВВВВВВ  Temperature, Outlet Stagnation Pressure, Enthalpy Extraction, Specific Work Output  Assumptions: Specific heat, velocity, conductivity, induced voltage field and magnetic field strength are constant.  1       \ Ж 1   №          )       Ж Q	 щ   ░   U o 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      Ж Ъ (     А А  ШШВQА В    4  Ў  o ╬ >    JАэ А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВВ  Running  - Power Cycles:  Magnetohydrodynamics   STEP 1 Select the desired specie (working fluid) or go with the default selection.  STEP 2 Enter the desired inlet stagnation temperature value or go with the default temperature value.  STEP 3 Enter the desired inlet stagnation pressure value or go with the default pressure value.  STEP 4 Enter the desired velocity value or go with the default velocity value.  STEP 5 Enter the desired conductivity value or go with the default conductivity value.  F  
  Ъ 	 <    FА А   Ж╪бQА ВВВВВВВВВВВВВВВВВВВ   STEP 6 Enter the desired loading parameter value or go with the default loading parameter value.  STEP 7 Enter the desired magnetic field strength value or go with the default magnetic field strength value.  STEP 8 Enter the desired channel length value or go with the default channel length value.  STEP 9 Click on the Calculate button to start the calculation of the  Magnetohydrodynamics cycle output values for the chosen input values.  STEP 10 When done with Steps 1 through 9, click on the Exit button to go back  =      ╬ Q	 )    "А( А   Ж╪бQА В  to the Main menu.  1       	 В	 1   └          *       В	  щ   ░   Q	 k
 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      В	 Ц
 (     А А  ШШВQА В      ▀   k
 д /    ,А┐ А    А ВА ВВВВВВВВ  Power Cycles:  Fuel Cell   This subsection provides analysis of the Fuel Cell cycle.  Input Values: Fuel, Fuel Inlet Temperature, Oxidant (O2) Inlet Temperature, Fuel Flow Rate, Product Outlet Temperature  Output Values:  m   D   Ц
  )    "АИ А   Ж╪бQА В  Oxidant Flow Rate, Fuel Cell Voltage, Power, Fuel Cell Efficiency  1       д B 1   ∙          +       B к@ щ   ░    + 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      B V (     А А  ШШВQА В       с  + v ?    LА├ А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВВВ  Running  -  Power Cycles:  Fuel Cell   STEP 1 Select the desired fuel (working fluid) or go with the default selection.  STEP 2 Enter the desired fuel inlet temperature or go with the default temperature value.  STEP 3 Enter the desired oxidant inlet temperature value or go with the default temperature value.  STEP 4 Enter the desired fuel flow rate or go with the default fuel flow rate value.  STEP 5 Enter the desired product outlet temperature value or go with the default  (  Ў   V к@ 2    2Аэ А   Ж╪бQА ВВВВВВВВВ  temperature value.  STEP 6 Click on the Calculate button to start the calculation of thv к@  e Fuel Cell cycle output values for the chosen input values.  STEP 7 When done with Steps 1 through 6, click on the Exit button to go back to the Main menu.  1       v █@ 1             ,       █@ ╟B щ   ░   к@ ─A 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      █@ яA (     А А  ШШВQА В    ╪   и   ─A ╟B 0    .АQ А   Ж╪бQА ВА ВВВ  Power Cycle Components/Processes   This section provides analysis of power cycle components/processes (compression, combustion, expansion, heat transfer and mixing).  1       яA °B 1   ╪          -       °B ЯD щ   ░   ╟B сC 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      °B D (     А А  ШШВQА В    У   e   сC ЯD .    ,А╩ А   Ж╪бQА ВА ВВ  Power Cycle Components/Processes:  Compression   This subsection provides analysis of compression.  1       D ╨D 1   Є          .       ╨D СG щ   ░   ЯD ╣E 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ╨D фE (     А А  ШШВQА В    н  p  ╣E СG =    HАс А   Ж╪бQА ВГВГВА ВВВВВВВВВВВВ  Power Cycle  Components/Processes:  Compression:  Isentropic (Ideal)   This subsection provides analysis of isentropic compression.  Input Values: Working Fluid (Specie), Working Fluid Mass Flow Rate, Inlet Temperature, Inlet Pressure, Outlet Pressure  Output Values: Power Input, Outlet Temperature  Assumptions: Isentropic compression.  Specific heat is constant.  1       фE ┬G 1   ╓          /       ┬G gL щ   ░   СG лH 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ┬G ╓H (     А А  ШШВQА В    	  ╟  лH ▀J B    RАП А   Ж╪бQА ВГВГВА ВВВВВВВВВВВВВВВВВ  Running  -  Power Cycle  Components/Processes:  Compression:  Isentropic (Ideal)   STEP 1 Select the desired specie or go with the default specie.  STEP 2 Enter the desired compressor inlet temperature value or go with the default temperature value.  STEP 3 Enter the desired compressor inlet pressure value or go with the default pressure value.  STEP 4 Enter the desired compressor outlet pressure value or go with the default pressure value.  STEP 5  И  U  ╓H gL 3    4Ал А   Ж╪бQА ВВВВВВВВВВ  Enter the desired compressor mass flow rate value or go with the default mass flow rate value.  STEP 6 Click on the Calculate button to start the calculation of compressor outlet temperature and power input values for the chosen input values.  STEP 7 When done with Steps 1 through 6, click on the Exit button to go back to the Main menu.  1       ▀J ШL 1             0       ШL {O щ   ░   gL БM 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ШL мM (     А А  ШШВQА В    ╧  С  БM {O >    JА# А   Ж╪бQА ВГВГВА ВВВВВВВВВВВВВ  Power Cycle  Components/Processes:  Compression:  Isentropic (Real)   This subsection provides analysis of isentropic compression.  Input Values: Working Fluid (Specie), Working Fluid Mass Flow Rate, Inlet Temperature, Inlet Pressure, Outlet Pressure, Compressor Isentropic Efficiency  Output Values: Power Input, Outlet Temperature  Assumptions: Isentropic compression.  Specific heat is constant.  1       мM мO 1   ║          1       мO ▐Д щ   ░   {O бА 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.OмO бА {O . Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      мO ╠А (     А А  ШШВQА В      ╞  бА ╘В B    RАН А   Ж╪бQА ВГВГВА ВВВВВВВВВВВВВВВВВ  Running  -  Power Cycle  Components/Processes:  Compression:  Isentropic (Real)   STEP 1 Select the desired specie or go with the default specie.  STEP 2 Enter the desired compressor inlet temperature value or go with the default temperature value.  STEP 3 Enter the desired compressor inlet pressure value or go with the default pressure value.  STEP 4 Enter the desired compressor outlet pressure value or go with the default pressure value.  STEP 5  
  ╘  ╠А ▐Д 6    :Ай А   Ж╪бQА ВВВВВВВВВВВВВ  Enter the desired compressor mass flow rate value or go with the default mass flow rate value.  STEP 6 Enter the desired compressor isentropic efficiency value or go with the default compressor isentropic efficiency value.  STEP 7 Click on the Calculate button to start the calculation of compressor outlet temperature and power input values for the chosen input values.  STEP 8 When done with Steps 1 through 7, click on the Exit button to go back to the Main menu. 1       ╘В Е 1   ╒          2       Е │З щ   ░   ▐Д °Е 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      Е #Ж (     А А  ШШВQА В    Р  S  °Е │З =    HАз А   Ж╪бQА ВГВГВА ВВВВВВВВВВВВ  Power Cycle  Components/Processs:  Compression:  Isothermal   This subsection provides analysis of isothermal compression.  Input Values: Working Fluid (Specie), Working Fluid Mass, Inlet/Outlet Temperature, Inlet Pressure, Outlet Pressure  Output Values: Inlet Volume, Outlet Volume, Outlet Density  Assumptions: Isothermal compression  1       #Ж фЗ 1   Ю          3       фЗ QМ щ   ░   │З ═И 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      фЗ °И (     А А  ШШВQА В    A  ■  ═И 9Л C    TА¤ А   Ж╪бQА ВГВГВА ВВВВВВВВВВВВВВВВВВ  Running  -  Power Cycle  Components/Processes:  Compression:  Isothermal   STEP 1 Select the desired specie or go with the default specie.  STEP 2 Enter the desired compressor inlet temperature value or go with the default temperature value.  STEP 3 Enter the desired compressor inlet pressure value or go with the default pressure value.  STEP 4 Enter the desired compressor outlet pressure value or go with the default pressure value.  STEP 5 Enter the desired compressor mass value or go with the default    ц   °И QМ 2    2А═ А   Ж╪бQА ВВВВВВВВВ  mass value.  STEP 6 Click on the Calculate button to start the calculation of compressor outlet values for the chosen input values.  STEP 7 When done with Steps 1 through 6, click on the Exit button to go back to the Main menu.  1       9Л ВМ 1   ╓          4       ВМ 'О щ   ░   QМ kН 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ВМ ЦН (     А А  ШШВQА В    С   c   kН 'О .    ,А╞ А   Ж╪бQА ВА ВВ  Power Cycle Components/Processes:  Combustion   This subsection provides analysis of combustion.  1       ЦН XО 1   ∙          5       XО ┌┴ щ   ░   'О AП 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      XО lП (     А А  ШШВQА В      ┘  AП Р┴ ?    LА│ А   Ж╪бQА ВГВГВА ВВВВВВВВВВВВВВ  Power Cycle  Components/Processes:  Combustion: Coal/Oil   This subsection provides lП Р┴ 'О analysis of the combustion process when coal or oil are considered as the fuel.  Input Values: Fuel Composition, Fuel Temperature, Oxidant Composition, Oxidant Temperature, Oxidant to Fuel Ratio  Output Values: Fuel HHV, Fuel Enthalpy, Oxidant Enthalpy, Stoichiometry, Flame Temperature, Combustion Gas Composition  Assumptions: Complete combustion.  No gas dissociation.  No heat loss.  J   !   lП ┌┴ )    "АB А   Ж╪бQА В  Specific heat is not constant.  1       Р┴ ┬ 1             6       ┬ Y╚ щ   ░   ┌┴ Ї┬ 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ┬ ├ (     А А  ШШВQА В    B    Ї┬ a┼ <    FА А   Ж╪бQА ВГВГВА ВВВВВВВВВВВ  Running  -  Power Cycle  Components/Processes:  Combustion:  Coal/Oil  STEP 1 Enter the desired fuel (coal or oil) composition or go with the default fuel composition. Note:  If you decide to change the fuel composition, click on the Normalize button to normalize the fuel composition for you.  STEP 2 Enter the desired oxidant composition or go with the default oxidant composition. Note:  If you decide to change the oxidant composition, click on the Normalize button to normalize the oxidant composition for you.  %  ы  ├ Ж╟ :    BА╫ А   Ж╪бQА ВВВВВВВВВВВВВВВВВ  Furthermore, click on the fuel Normalize button one more time to calculate the new stoichiometry value for you.  STEP 3 Enter the desired fuel temperature value or go with the default temperature value.  STEP 4 Enter the desired oxidant temperature (preheat) value or go with the default temperature value.  STEP 5 Enter the desired oxidant to fuel ratio ( > 1) or go with the default oxidant to fuel ratio.  STEP 6 Click on the Calculate button to start the calculation of combustion gas  ╙   ж   a┼ Y╚ -    (АM А   Ж╪бQА ВВВВ  composition and flame temperature value for the chosen input values.  STEP 7 When done with Steps 1 through 6, click on the Exit button to go back to the Main menu. 1       Ж╟ К╚ 1   Ъ          7       К╚ є╦ щ   ░   Y╚ s╔ 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      К╚ Ю╔ (     А А  ШШВQА В      ╠  s╔ й╦ ?    LАЩ А   Ж╪бQА ВГВГВА ВВВВВВВВВВВВВВ  Power Cycle  Components/Processes:  Combustion:  Gas   This subsection provides analysis of the combustion process when gas is considered as the fuel.  Input Values: Fuel Composition, Fuel Temperature, Oxidant Composition, Oxidant Temperature, Oxidant to Fuel Ratio  Output Values: Fuel HHV, Fuel Enthalpy, Oxidant Enthalpy, Stoichiometry, Flame Temperature, Combustion Gas Composition  Assumptions: Complete combustion.  No gas dissociation.  No heat loss.  J   !   Ю╔ є╦ )    "АB А   Ж╪бQА В  Specific heat is not constant.  1       й╦ $╠ 1   ┌          8       $╠ u щ   ░   є╦ ═ 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      $╠ 8═ (     А А  ШШВQА В    7  ·  ═ o╧ =    HАї А   Ж╪бQА ВГВГА ВВВВВВВВВВВВВ  Running  -  Power Cycle  Components/Processes:  Combustion:  Gas   STEP 1 Enter the desired fuel (gas) composition or go with the default fuel composition. Note:  If you decide to change the fuel composition, click on the Normalize button to normalize the fuel composition for you.  STEP 2 Enter the desired oxidant composition or go with the default oxidant composition. Note:  If you decide to change the oxidant composition, click on the Normalize button to normalize the oxidant composition for you.  %  ы  8═ а :    BА╫ А   Ж╪бQА ВВВВВВВВВВВВВВВВВ  Furthermore, click on the fuel Normalize button one more time to calculate the new stoo╧ а є╦ ichiometry value for you.  STEP 3 Enter the desired fuel temperature value or go with the default temperature value.  STEP 4 Enter the desired oxidant temperature (preheat) value or go with the default temperature value.  STEP 5 Enter the desired oxidant to fuel ratio ( > 1) or go with the default oxidant to fuel ratio.  STEP 6 Click on the Calculate button to start the calculation of combustion gas  ╒   з   o╧ u .    *АO А   Ж╪бQА ВВВВВ  composition and flame temperature value for the chosen input values.  STEP 7 When done with Steps 1 through 6, click on the Exit button to go back to the Main menu.  1       а ж 1   ╘          9       ж I щ   ░   u П 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ж ║ (     А А  ШШВQА В    П   a   П I .    ,А┬ А   Ж╪бQА ВА ВВ  Power Cycle Components/Processes:  Expansion   This subsection provides analysis of expansion.  1       ║ z 1   э          :       z 6 щ   ░   I c 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      z О (     А А  ШШВQА В    и  k  c 6 =    HА╫ А   Ж╪бQА ВГВГВА ВВВВВВВВВВВВ  Power Cycle  Components/Processes:  Expansion:  Isentropic (Ideal)   This subsection provides analysis of isentropic expansion.  Input Values: Working Fluid (Specie), Working Fluid Mass Flow Rate, Inlet Temperature, Inlet Pressure, Outlet Pressure  Output Values: Outlet Temperature, Power Output  Assumptions: Isentropic expansion.  Specific heat is constant.  1       О g 1             ;       g 9 щ   ░   6 P 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      g { (     А А  ШШВQА В      ▀  P Ъ
 @    NА┐ А   Ж╪бQА ВГВГВА ВВВВВВВВВВВВВВВ  Running  -  Power Cycle  Components/Processes:  Expansion:  Isentropic (Ideal)   STEP 1 Select the desired specie (working fluid) or go with the default specie.  STEP 2 Enter the desired turbine/expander inlet temperature value or go with the default temperature value.  STEP 3 Enter the desired turbine/expander inlet pressure value or go with the default pressure value.  STEP 4 Enter the desired turbine/expander outlet pressure value or go with the default pressure value.  Я  j  { 9 5    8А╒ А   Ж╪бQА ВВВВВВВВВВВВ   STEP 5 Enter the desired turbine/expander mass flow rate value or go with the default mass flow rate value.  STEP 6 Click on the Calculate button to start the calculation of turbine/expander outlet temperature and power output values for the chosen input values.  STEP 7 When done with Steps 1 through 6, click on the Exit button to go back to the Main menu.  1       Ъ
 j 1   
          <       j C щ   ░   9 S 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      j ~ (     А А  ШШВQА В    ┼  И  S C =    HА А   Ж╪бQА ВГВГВА ВВВВВВВВВВВВ  Power Cycle  Components/Processes:  Expansion:  Isentropic (Real)   This subsection provides analysis of isentropic expansion.  Input Values: Working Fluid (Specie), Working Fluid Mass Flow Rate, Inlet Temperature, Inlet Pressure, Outlet Pressure, Turbine Isentropic Efficiency  Output Values: Outlet Temperature, Power Output  Assumptions: Isentropic expansion.  Specific heat is constant. 1       ~ t 1   ш          =       t 
E щ   ░   C i@ 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 Ft i@ C AX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      t Ф@ (     А А  ШШВQА В      ▐  i@ ▓B @    NА╜ А   Ж╪бQА ВГВГВА ВВВВВВВВВВВВВВВ  Running  -  Power Cycle  Components/Processes:  Expansion:  Isentropic (Real)   STEP 1 Select the desired specie (working fluid) or go with the default specie.  STEP 2 Enter the desired turbine/expander inlet temperature value or go with the default temperature value.  STEP 3 Enter the desired turbine/expander inlet pressure value or go with the default pressure value.  STEP 4 Enter the desired turbine/expander outlet pressure value or go with the default pressure value.     ш  Ф@ ╥D 8    >А╤ А   Ж╪бQА ВВВВВВВВВВВВВВВ   STEP 5 Enter the desired turbine/expander mass flow rate value or go with the default mass flow rate value.  STEP 6 Enter the desired turbine/expander isentropic efficiency value or go with  the default turbine/expander isentropic efficiency value.  STEP 7 Click on the Calculate button to start the calculation of turbine/expander outlet temperature and power output values for the chosen input values.  STEP 8 When done with Steps 1 through 7, click on the Exit button to go back to  8      ▓B 
E (     А  А   Ж╪бQА   the Main menu. 1       ╥D ;E 1   С          >       ;E ЫG щ   ░   
E $F 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ;E OF (     А А  ШШВQА В    L    $F ЫG ;    DА# А   Ж╪бQА ВГВГВА ВВВВВВВВВВ  Power Cycle  Components/Processs:  Expansion:  Isothermal   Input Values: Working Fluid (Specie), Working Fluid Mass, Inlet/Outlet Temperature, Inlet Pressure, Outlet Pressure  Output Values: Inlet Volume, Outlet Volume, Outlet Density  Assumptions: Isothermal expansion  1       OF ╠G 1   Н          ?       ╠G (L щ   ░   ЫG ╡H 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ╠G рH (     А А  ШШВQА В    3  Ё  ╡H K C    TАс А   Ж╪бQА ВГВГВА ВВВВВВВВВВВВВВВВВВ  Running  -  Power Cycle  Components/Processes:  Expansion:  Isothermal   STEP 1 Select the desired specie or go with the default specie.  STEP 2 Enter the desired turbine inlet temperature value or go with the default temperature value.  STEP 3 Enter the desired turbine inlet pressure value or go with the default pressure value.  STEP 4 Enter the desired turbine outlet pressure value or go with the default pressure value.  STEP 5 Enter the desired turbine mass value or go with the default    у   рH (L 2    2А╟ А   Ж╪бQА ВВВВВВВВВ  mass value.  STEP 6 Click on the Calculate button to start the calculation of turbine outlet values for the chosen input values.  STEP 7 When done with Steps 1 through 6, click on the Exit button to go back to the Main menu.  1       K YL 1   K          @       YL sO щ   ░   (L BM 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      YL mM (     А А  ШШВQА В      ╦  BM sO ;    DАЧ А   Ж╪бQА ВА ВВВВВВВВВВВВВВ  Power Cycle Components/Processes:  Heat Transfer   This subsection provides analysis of heat transfer.  Input Values: Hot Working Fluid (Specie), Hot Working Fluid Mass Flow Rate, Hot Working Fluid Inlet Temperature, Hot Working Fluid Outlet Temperature, Cold Working Fluid (Specie), Cold Working Fluid Mass Flow Rate, Cold Working Fluid Inlet Temperature  Output Values: Cold Working Fluid Outlet Temperature  Assumptions: Ideal heat transfer -- no losses  1       mM дO 1   7          A       дO YЕ щ   ░   sO ЩА 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 11дO ЩА sO 80, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      дO ─А (     А А  ШШВQА В      ▀  ЩА тВ ?    LА┐ А   Ж╪бQА ВГВА ВВВВВВВВВВВВВВВВ  Running  -  Power Cycle  Components/Processes:  Heat Transfer   STEP 1 Select the desired hot specie (hot working fluid) or go with the default specie.  STEP 2 Enter the desired hot working fluid mass flow rate or go with the default mass flow rate value.  STEP 3 Enter the desired hot working fluid inlet temperature value or go with the default temperature value.  STEP 4 Enter the desired hot working fluid outlet temperature value or go with the default temperature value.  =    ─А Е <    FА А   Ж╪бQА ВВВВВВВВВВВВВВВВВВВ   STEP 5 Select the desired cold specie (cold working fluid) or go with the default specie.  STEP 6 Enter the desired cold working fluid mass flow rate or go with the default mass flow rate value.  STEP 7 Enter the desired cold working fluid inlet temperature value or go with the default temperature value.  STEP 8 Click on the Calculate button to start the calculation of heat transfer outlet values for the chosen input values.  STEP 9 When done with Steps 1 through 8, click on the Exit button to go back to  :      тВ YЕ )    "А" А   Ж╪бQА В  the Main menu.  1       Е КЕ 1             B       КЕ aИ щ   ░   YЕ sЖ 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      КЕ ЮЖ (     А А  ШШВQА В    ├  Й  sЖ aИ :    BА А   Ж╪бQА ВА ВВВВВВВВВВВВВ  Power Cycle Components/Processes:  Mixing   This subsection provides analysis of mixing.  Input Values: Inlet Working Fluids (Species), Inlet Working Fluids Mass Flow Rate, Inlet Working Fluids Temperature, Outlet Working Fluids (Species), Outlet Working Fluids Mass Flow Rate  Output Values: Outlet Working Fluids Temperature  --  Mixing Temperature  Assumptions: Ideal mixing -- no losses  1       ЮЖ ТИ 1   W          C       ТИ ╕Н щ   ░   aИ {Й 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ТИ жЙ (     А А  ШШВQА В      ╘  {Й ╕Л >    JАй А   Ж╪бQА ВГВА ВВВВВВВВВВВВВВВ  Running  -  Power Cycle  Components/Processes:  Mixing   STEP 1 Select the desired inlet species (inlet working fluids) or go with the default species.  STEP 2 Enter the desired inlet working fluids mass flow rate values or go with the default mass flow rate values.  STEP 3 Enter the desired inlet working fluids inlet temperature values or go with the default temperature values.  STEP 4 Enter the desired hot working fluid outlet temperature value or go with the     ╞  жЙ ╕Н :    BАН А   Ж╪бQА ВВВВВВВВВВВВВВВВВ  default temperature value.  STEP 5 Select the desired outlet species (outlet working fluid) or go with the default species.  STEP 6 Enter the desired outlet working fluids mass flow rate values or go with the default mass flow rate values.  STEP 7 Click on the Calculate button to start the calculation of mixing outlet values for the chosen input values.  STEP 8 When done with Steps 1 through 7, click on the Exit button to go back to the Main menu.  1       ╕Л щН 1   ╛          D       щН vП щ   ░   ╕Н ╥О 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      щН ¤О (     А А  ШШВQА В    y   K   ╥О vП .    ,АЦ А   Ж╪бQА ВА ВВ  Compressible Flow   This section provides analysis of compressible flow.  1       ¤О зП 1   ░          E       зП ╥┴ щ   ░   vП Ь└ 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. BoxзП Ь└ vП  1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      зП ╟└ (     А А  ШШВQА В      ╙   Ь└ ╥┴ 8    >Аз А   Ж╪бQА ВА ВВВВВВВВВВВ  Compressible Flow:  Velocity of Sound   This section provides analysis of velocity of sound.  Input Values: Working Fluid, Temperature  Output Values: Velocity of Sound  Assumptions: Specific heat is constant  1       ╟└ ┬ 1   3          F       ┬ ┼ щ   ░   ╥┴ ь┬ 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ┬ ├ (     А А  ШШВQА В    ю  ▓  ь┬ ┼ <    FАe А   Ж╪бQА ВА ВВВВВВВВВВВВВВВ  Running  -  Compressible Flow:  Velocity of Sound   STEP 1 Select the desired working fluid (specie) or go with the default value.  STEP 2 Enter the desired temperature value or go with the default temperature value.  STEP 3 Click on the Calculate button to start the calculation of velocity of sound value for the chosen input values.  STEP 4 When done with Steps 1 through 3, click on the Exit button to go back to the Main menu.  1       ├ 6┼ 1   K          G       6┼ P╟ щ   ░   ┼ ╞ 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      6┼ J╞ (     А А  ШШВQА В      ╬   ╞ P╟ 8    >АЭ А   Ж╪бQА ВА ВВВВВВВВВВВ  Compressible Flow:  Mach Number   This subsection provides analysis of Mach Number.  Input Values: Working Fluid, Temperature, Velocity  Output Values: Mach Number  Assumptions: Specific heat is constant  1       J╞ Б╟ 1   д          H       Б╟ Ї╩ щ   ░   P╟ j╚ 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      Б╟ Х╚ (     А А  ШШВQА В    %  ч  j╚ ║╩ >    JА╧ А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВВ  Running  -  Compressible Flow:  Mach Number   STEP 1 Select the desired working fluid (specie) or go with the default value.  STEP 2 Enter the desired temperature value or go with the default temperature value.  STEP 3 Enter the desired velocity value or go with the default velocity value.  STEP 4 Click on the Calculate button to start the calculation of Mach number value for the chosen input values.  STEP 5 When done with Steps 1 through 4, click on the Exit button to go back to  :      Х╚ Ї╩ )    "А" А   Ж╪бQА В  the Main menu.  1       ║╩ %╦ 1              I       %╦ Ї╠ щ   ░   Ї╩ ╠ 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      %╦ 9╠ (     А А  ШШВQА В    ╗   Л   ╠ Ї╠ 0    .А А   Ж╪бQА ВА ВВВ  Compressible Flow:  Properties   This subsection provides analysis od stagnation and static properties in the case of compressible flow.  1       9╠ %═ 1   И          J       %═ |╧ щ   ░   Ї╠ ╬ 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      %═ 9╬ (     А А  ШШВQА В    C    ╬ |╧ 8    >А А   Ж╪бQА ВА ВВВВВВВВВВВ  Compressible Flow:  Properties:  Stagnation   This subsection provides analysis of stagnation properties.  Input Values: Working Fluid, Static Temperature, Velocity  Output Values: Stagnation Temperature, Stagnation Pressure  Assumptions: Specific heat is constant  1       9╬ н╧ 1   н          K       н╧ ╧ щ   ░   |╧ в  9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.н╧ в  |╧ O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      н╧ ═  (     А А  ШШВQА В    *  ъ  в  ў @    NА╒ А   Ж╪бQА ВГВА ВВВВВВВВВВВВВВВВВ  Running  -  Compressible Flow:  Properties:  Stagnation   STEP 1 Select the desired working fluid (specie) or go with the default value.  STEP 2 Enter the desired static temperature value or go with the default static temperature value.  STEP 3 Enter the desired static pressure value or go with the default static pressure value.  STEP 4 Enter the desired velocity value or go with the default velocity value.  STEP 5 Click on the Calculate button to start the calculation of stagnation  ╪   к   ═  ╧ .    *АU А   Ж╪бQА ВВВВВ  temperature and stagnation pressure values for the chosen input values.  STEP 6 When done with Steps 1 through 5, click on the Exit button to go back to the Main menu.  1       ў   1   |          L         K щ   ░   ╧ щ 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +         (     А А  ШШВQА В    7      щ K 8    >А  А   Ж╪бQА ВА ВВВВВВВВВВВ  Compressible Flow:  Properties:  Static   This subsection provides analysis of static properties.  Input Values: Working Fluid, Stagnation Temperature, Velocity  Output Values: Static Temperature, Static Pressure  Assumptions: Specific heat is constant  1        | 1   I          M       | Ф
 щ   ░   K e 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      | Р (     А А  ШШВQА В    0  Є  e └	 >    JАх А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВВ  Running  -  Compressible Flow:  Properties:  Static   STEP 1 Select the desired working fluid (specie) or go with the default value.  STEP 2 Enter the desired stagnation temperature value or go with the default stagnation temperature value.  STEP 3 Enter the desired stagnation pressure value or go with the default stagnation pressure value.  STEP 4 Enter the desired velocity value or go with the default velocity value.  STEP 5 Click on the Calculate button to start the calculation of static  ╘   ж   Р Ф
 .    *АM А   Ж╪бQА ВВВВВ  temperature and static pressure values for the chosen input values.  STEP 6 When done with Steps 1 through 5, click on the Exit button to go back to the Main menu.  1       └	 ┼
 1   Ж          N       ┼
  щ   ░   Ф
 о 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ┼
 ┘ (     А А  ШШВQА В    A  	  о  8    >А А   Ж╪бQА ВА ВВВВВВВВВВВ  Compressible Flow:  Nozzle   This subsection provides analysis of nozzle.  Input Values: Working Fluid, Stagnation Temperature, Stagnation Pressure, Velocity  Output Values: Static Temperature, Static Pressure, Mach Number  Assumptions: Specific heat is constant  1       ┘ K 1   к          O       K xA щ   ░    4 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      K _ (     А А  ШШВQА В    )  ы  4 Ф@ >    JА╫ А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВВ  Running  -  Compressible Flow:  Nozzle   STEP 1 Select the desired working fluid (specie) or go with the default value.  STEP 2 Enter the desired stagnation temperature value or go with the default stagnation temperature value.  STEP 3 Enter the desired stagnation pressure value or go with the default stagnation pressure value.  STEP 4 Enter the desire_ Ф@  d velocity value or go with the default velocity value.  STEP 5 Click on the Calculate button to start the calculation of Mach number,  ф   ╡   _ xA /    ,Аk А   Ж╪бQА ВВВВВВ  stagnation temperature and stagnation pressure values for the chosen input values.  STEP 6 When done with Steps 1 through 5, click on the Exit button to go back to the Main menu.  1       Ф@ йA 1   K          P       йA ├D щ   ░   xA ТB 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      йA ╜B (     А А  ШШВQА В      ╩  ТB ├D <    FАХ А   Ж╪бQА ВА ВВВВВВВВВВВВВВВ  Compressible Flow:  Normal Shock   This subsection provides analysis of normal shock.  Input Values: Working Fluid, Inlet Stagnation Temperature, Inlet Stagnation Pressure, Inlet Velocity  Output Values: Inlet Static Temperature, Inlet StaticPressure, Inlet Mach Number Outlet Stagnation Temperature, Outlet Stagnation Pressure, Outlet Velocity, Outlet Static Temperature, Outlet Static Pressure, Outlet Mach Number  Assumptions: Specific heat is constant  1       ╜B ЇD 1   ▀          Q       ЇD вI щ   ░   ├D ▌E 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ЇD F (     А А  ШШВQА В    
  ╠  ▌E H >    JАЩ А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВВ  Running  -  Compressible Flow:  Normal Shock   STEP 1 Select the desired working fluid (specie) or go with the default selection.  STEP 2 Enter the desired inlet stagnation temperature value or go with the default inlet stagnation temperature value.  STEP 3 Enter the desired inlet stagnation pressure value or go with the default inlet stagnation pressure value.  STEP 4 Enter the desired inlet velocity value or go with the default velocity value.  STEP 5  Р  _  F вI 1    0А┐ А   Ж╪бQА ВВВВВВВВ  Click on the Calculate button to start the calculation of inlet Mach number, inlet static temperature, inlet static pressure, outlet Mach number, outlet velocity, outlet static temperature, and outlet static pressure values for the chosen input values.  STEP 6 When done with Steps 1 through 5, click on the Exit button to go back to the Main menu.  1       H ╙I 1   К          R       ╙I ,L щ   ░   вI ╝J 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ╙I чJ (     А А  ШШВQА В    E    ╝J ,L 8    >А А   Ж╪бQА ВА ВВВВВВВВВВВ  Compressible Flow:  Diffuser   This subsection provides analysis of diffuser.  Input Values: Working Fluid, Static Temperature, Static Pressure, Velocity  Output Values: Mach Number, Stagnation Temperature, Stagnation Pressure  Assumptions: Specific heat is constant  1       чJ ]L 1   Д          S       ]L |А щ   ░   ,L FM 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      ]L qM (     А А  ШШВQА В      ▌  FM МO >    JА╗ А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВВ  Running  -  Compressible Flow:  Diffuser   STEP 1 Select the desired working fluid (specie) or go with the default value.  STEP 2 Enter the desired static temperature value or go with the default static temperature value.  STEP 3 Enter the desired static pressure value or go with the default static pressure value.  STEP 4 Enter the desired velocity value or go with the default velocity value.  STEP 5 Click on the Calculate button to start the calculation of Mach number,  ф   ╡   qM |А /    ,Аk А   Ж╪бQА ВВВВВВ  stagnation temperature and stagnation pressure values for the chosenМO |А ,L  input values.  STEP 6 When done with Steps 1 through 5, click on the Exit button to go back to the Main menu.  1       МO нА 1   ┐          T       нА ;Г щ   ░   |А ЦБ 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      нА ┴Б (     А А  ШШВQА В    z  A  ЦБ ;Г 9    @АГ А   Ж╪бQА ВА ВВВВВВВВВВВВ  Compressible Flow:  Thrust   This subsection provides analysis of thrust.  Input Values: Working Fluid, Working Fluid Mass Flow Rate, Stagnation Temperature, Stagnation Pressure, Velocity, Ambient Pressure  Output Values: Static Temperature, Static Pressure, Mach Number, Thrust  Assumptions: Specific heat is constant  1       ┴Б lГ 1             U       lГ UИ щ   ░   ;Г UД 9    @Аa А   Ж╪бQА А ВА	 ВГВГВГВГВ  Engineering Software   P.O. Box 1180, Germantown, MD 20875 Phone: (301) 540-3605 FAX:  (301) 540-3605 E-Mail: info@engineering-4e.com Web Site: http://www.engineering-4e.com  +      lГ АД (     А А  ШШВQА В    .  Ё  UД оЖ >    JАс А   Ж╪бQА ВА ВВВВВВВВВВВВВВВВВ  Running  -  Compressible Flow:  Thrust   STEP 1 Select the desired working fluid (specie) or go with the default selection.  STEP 2 Enter the desired stagnation temperature value or go with the default stagnation temperature value.  STEP 3 Enter the desired stagnation pressure value or go with the default stagnation pressure value.  STEP 4 Enter the desired velocity value or go with the default velocity value.  STEP 5 Enter the desired mass flow rate value or go with the default mass flow  з  p  АД UИ 7    <Ас А   Ж╪бQА ВВВВВВВВВВВВВВ  rate value.  STEP 6 Enter the desired ambient pressure value or go with the default ambient pressure value.  STEP 7 Click on the Calculate button to start the calculation of Mach number, static temperature, static pressure and thrust values for the chosen input values.  STEP 8 When done with Steps 1 through 7, click on the Exit button to go back to the Main menu.  1       оЖ ЖИ 1   ]           V       ЖИ ▓И ,      UИ ▓И )    "А А   Ж╪бQА В    1       ЖИ     1              W               2  2   w  T1Helv Лv
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	 Г╥ Palatino Tur & tЪи$Palatino Baltic М╟ЪUnivers CE  tЪH-C╦ОUnivers Tur "0&б╘^Univers Baltic V─^ЛUnivers Condensed C Univers Condensed T Univers Condensed B Terminal 	 Г╥ RP+└PFixedsys %6╬ЛNЇЛ^Ў+Small Fonts 5╕░;О└&ГWST_Czec О└&╟╘ ыWST_Engl &г╘╕  Щ╣Г├WST_Fren & t v v
 WST_Germ ╠ЙF№ЙV■О 0WST_Ital г╘╥|<Г~WST_Span №&D&T&ЛWST_Swed |&9DvTheLearningCompany Л@Terminal UЛьГьWV─^MS Dialog Light 0&╟MS SystemEx  |ЇОF■&News Gothic MT рОF■&Lucida Handwriting %OCR A Extended ў▀ tCalisto MT ЙD&ЙT
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╨Times Tur   ╕┌PSЪTimes Baltic ▄ОF& Helvetica CE └u	ОFHelvetica Cyr  tМ╟ЪHelvetica Greek х]╩Helvetica Tur О^ОFHelvetica Baltic ▐&КTahoma CE ∙═О╪Л╞^_ЛхTahoma Cyr V╟F▄Вf╟F▐Tahoma Greek ╥ЙFцЙNшTahoma Tur Ъаi╪Г─ЙTahoma Baltic v
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