Abstract: . . .  ,(T(26)) 1001 FORMAT (F12.1,30F8.2) CALL PRQBAL('',CURRENT) CALL PRTUC(CURRENT) CALL PRNDTB(' ','L,T,QS,C',CURRENT) CALL PRQNOD('',CURRENT) CALL QRATES('',CURRENT) CALL DMPGFF(' ',CURRENT) $ENDMODEL #solo5_model5 Matthieu Gasquet 122 This document was created with Win2PDF available at http://www.daneprairie.com. The unregistered version of Win2PDF is for evaluation or non-commercial use only.  . . .
. . .  1001 FORMAT (F12.1,30F8.2) CALL PRQBAL('',CURRENT) CALL PRTUC(CURRENT) CALL PRNDTB(' ','L,T,QS,C',CURRENT) CALL PRQNOD('',CURRENT) CALL QRATES('',CURRENT) CALL DMPGFF(' ',CURRENT) $ENDMODEL #solo5_model5 Matthieu Gasquet 122 This document was created with Win2PDF available at http://www.daneprairie.com. The unregistered version of Win2PDF is for evaluation or non-commercial use only.  . . .
. . .  = 0.0; # factor required to correct solar flux HSfac = 1.0; # correction view factor for the heat stop radiator M1fac = 1.0;# correction view factor for the M1 radiator $ARRAYS # this array gives the value of the solar flux (in kiloWatts) # with respect to the time (in seconds) on 1 whole orbit (150 days) $REAL FACSOL(2,151)= 0.0,33.56959, 86400.0, 32.291942, 172800.0, 30.392455, 259200.0, 28.12498, 345600.0, 25.722453, 432000.0, . . .
. . .  requirements of the EUV telescope 2.3 Optical design possibilities 2.3.1 Optical designs Several different optical designs could be applied on the EUV telescope. Two of them seem to be particularly adapted for the Solar Orbiter: • A grazing-incidence telescope feeding a normal-incidence VLS-grating spectrometer (L. Poletto, G. Tondello Istituto Nazionale per la Fisica della Materia (INFM),Information Engineering Department - Padova . . .
. . .  Aluminum Foil 0.14 0.03 4.67 7800-Mystic Aluminum Foil 0.21 0.03 7.00 Y9360-3M Aluminzed Mylar 0.19 0.03 6.33 84 Appendix B Matthieu Gasquet Appendix B : Excel calculation spreadsheets and results of the preliminary thermal analysis 85 Appendix B Matthieu Gasquet 86 Appendix B Matthieu Gasquet 87 Appendix B Matthieu Gasquet 88 Appendix B Matthieu Gasquet 89 Appendix C Matthieu Gasquet Appendix C : Maple program giving the Sun heat . . .
. . .  Gasquet Appendix E : ESATAN program 105 Appendix E # # # # # Esarad version 5.1.3, run date 0:28 Thu Model name: solo5 Analysis case: template file: Template.tpl Esarad version 5.1.3, run date 0:28 Thu Model name: solo5 Analysis case: 22 Aug 2002 model5 22 Aug 2002 model5 Matthieu Gasquet $MODEL solo5_model5 $LOCALS $NODES D100 = 'heat shield internal side' , T = 0.000000, A = 0.708838, ALP = 0.200000, EPS = 0.012000; D150 = 'heat . . .
. . .  carbon-carbon radiator 3g/cm3 # carbon-carbon radiator 3g/cm3 and and and and # carbon-carbon radiator 3g/cm3 # carbon-carbon radiator 3g/cm3 # carbon-carbon radiator 3g/cm3 # carbon-carbon radiator 3g/cm3 and and and and # DEEP_SPACE_NODE # INACTIVE_NODE $VARIABLES1 IF (SOLVER(:2) .EQ. 'SS') THEN CALL QAVERG ELSE CALL QCYCLC CALL RCYCLC END IF $VARIABLES2 $EXECUTION OPEN(UNIT=81,FILE='SOLO.DAT',STATUS='UNKNOWN') NLOOP=100 RELXCA=0.01 . . .
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