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Tese apresentada a Pr6-Reitoria de Pos-Gradua<;ao e Pesquisa do Instituto Tecnologico de Aeronautica, como parte dos requisitos para obten<;ao do titulo de Doutor em Ciencias no Programa de Pos-Gradua<;ao em Engenharia Aeronautica e Mecanica, Area de Aerodinamica, Propulsao e Energia. Eduat·do Oliveira UMA METODOLOGIA DE PROJETO DE COMBUSTORES PARA TURBIN AS A GAS Tese aprovada em sua versao final pelos abaixo assinados: Prof. Joao Roberto Barbosa Orientador Prof. Celso Massaki Hirata Pro-Reitor de Pos-Gradua<;ao e Pesquisa Campo :tviontenegro Sao Jose dos Campos, SP -Brasil 2013

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Teseapresentadaa Pr6-ReitoriadePos-Gradua 50; RAT_L_DZ_50_D_FT_SEL * D_FT_SEL; SE( E( RAT_DEL_P_DP_34_C1 > 15; RAT_DEL_P_DP_34_C1 < 20 ); ( ( RAT_L_DZ_15_D_FT_SEL * D_FT_SEL - RAT_L_DZ_20_D_FT_SEL * D_FT_SEL ) * ( RAT_DEL_P_DP_34_C1 - 20 ) / ( 15 - 20) + RAT_L_DZ_20_D_FT_SEL * D_FT_SEL ); SE( E( RAT_DEL_P_DP_34_C1 > 20; RAT_DEL_P_DP_34_C1 < 30 ); ( ( RAT_L_DZ_20_D_FT_SEL * D_FT_SEL - RAT_L_DZ_30_D_FT_SEL * D_FT_SEL ) * ( RAT_DEL_P_DP_34_C1 - 30 ) / ( 20 - 30) + RAT_L_DZ_30_D_FT_SEL * D_FT_SEL ); ( ( RAT_L_DZ_30_D_FT_SEL * D_FT_SEL - RAT_L_DZ_50_D_FT_SEL * D_FT_SEL ) * ( RAT_DEL_P_DP_34_C1 - 50 ) / ( 30 - 50) + RAT_L_DZ_50_D_FT_SEL * D_FT_SEL ) ) ) ) ) ) ) L_DZ_CORmC=SE( RAT_L_TRP_L_DZ > 0,1; ( L_DZ - ( ( L_TRP + L_TRP_DS ) / 2 ) );L_DZ ) L_DZ_HmC=L_PZ + L_SZ + ( PER_L_DZ_H / 100 ) * L_DZ_COR PER_L_DZ_H%A75,00=SE( ( ( L_DZ_H - D_H_DZ / 2 ) < ( L_SZ_H + D_H_SZ/2 ) ); 100 * ( 3 / 2 ) * D_H_SZ / L_DZ; "" ) DEL_L_DZmC=L_DZ / NDL_DZ L_FT_TOTALmC=SE( RAT_L_TRP_L_DZ < 0,1; ( L_PZ + L_SZ + L_DZ ); ( L_PZ + L_SZ + L_DZ_COR ) ) RAT_L_FT_TOTAL_D_SEL-C=( L_PZ + L_SZ + L_DZ ) / D_SEL RAT_L_TRP_L_DZ-A0,20= L_TRPmC=RAT_L_TRP_L_DZ * L_DZ L_TRP_DSmC=( 1 / 3 ) * L_TRP L_DIFFmC=SE( CHTY1; ( ( D_SEL - D_3 ) / 2) / ( TAN(RADIANOS( AD )) ); SE( OU( CHTY2; CHTY3 ); ( ( D_OUT_CAS_ANN - D_3_OUT_ANN ) / 2) / ( TAN(RADIANOS( AD )) ); "" ) ) L_SWmC=CHORD * COS( RADIANOS( TA_SW ) ) L_BL_SWmC=SE( ( (- D_SW_IN * SEN(RADIANOS( TA_SW ) ) + ( ( D_SW_IN * SEN(RADIANOS( TA_SW ) ) )^2 - D_SW_IN^2 + D_SW_OUT^2 ) ^0,5 ) / 2 ) > 0;( (- D_SW_IN * 297 APNDICE A GTCD: Variveis, Funes e Procedimentos __________________________________________________________________________ VarivelUnidade de Medida Seletor[Adotado / Calculado (A / C)] Valor de Referncia OU Dado de Entrada Frmula ___________________________________________________________________________ SEN(RADIANOS( TA_SW ) ) + ( ( D_SW_IN * SEN(RADIANOS( TA_SW ) ) )^2 - D_SW_IN^2 + D_SW_OUT^2 ) ^0,5 ) / 2 );( (- D_SW_IN * SEN(RADIANOS( TA_SW ) ) - ( ( D_SW_IN * SEN(RADIANOS( TA_SW ) ) )^2 - D_SW_IN^2 + D_SW_OUT^2 ) ^0,5 ) / 2 ) ) L_RZmC=2 * D_SW_OUT L_SmC=L_DIFF - L_O L_OmC=SE( CHTY1; ABS( ( ( D_O - D_S ) / 2) / ( TAN(RADIANOS( AD ) ) ) ); SE( OU( CHTY2; CHTY3 ); ABS( ( ( D_O_OUT_ANN - D_S_OUT_ANN ) / 2) / ( TAN(RADIANOS( AD ) ) ) ); "") ) L_DmC=SE( OU( CHTY1; CHTY3 ); ( ( D_FT_SEL - 2 * ( HT_SL + TH_D_Y ) ) - ( D_SW_OUT + 2 * TH_SHR_SW ) ) / ( 2 * TAN( RADIANOS( AD_D ) ) ); ( ( ( D_OUT_FT_ANN - ( HT_SL + TH_D_Y ) ) - ( D_IN_FT_ANN + ( HT_SL + TH_D_Y + TH_W ) ) ) / 2 - ( D_SW_OUT + 2 * TH_SHR_SW ) ) / ( 2 * TAN( RADIANOS( AD_D ) ) ) ) L_CFmC=( 2 / 3 ) * L_D L_SK_CFmC=4 * HT_SL_CF L_SK_CF_XmC=L_SK_CF * COS( RADIANOS( AD_D ) ) L_SK_CF_YmC=L_SK_CF * SEN( RADIANOS( AD_D ) ) L_SK_1FCD_RZmC=4 * HT_SL L_TOTALmC=L_DIFF + L_FT_TOTAL + L_TRP + L_TRP_DS TH_SHR_SWmA1,000E-03= TH_BL_SWmA5,000E-04= TH_WmA1,000E-03= TH_DmA1,000E-03= TH_D_YmC=TH_D / COS( RADIANOS( AD_D ) ) TH_D_XmC=TH_D / SEN( RADIANOS( AD_D ) ) TH_W_SLmA1,000E-03= TH_W_SmA1,000E-03= TH_W_DIFFmA1,000E-03= HT_SL_MAXmA2,500E-04= HT_SL_MINmA1,000E-05= HT_SLmA2,500E-04= HT_SL_CFmC=A_C_CF / ( PI() * D_CF ) HT_SL_CF_XmC=HT_SL_CF / COS( ( PI() / 2 ) - RADIANOS( AD_D ) ) HT_SL_CF_YmC=HT_SL_CF / TAN( RADIANOS( AD_D ) ) CHORDmC=SE( ( DEL_D_SW_OUT_IN / RAT_ASP_SW ) * SEN(RADIANOS( TA_SW ) ) < D_SW_IN; ( DEL_D_SW_OUT_IN / RAT_ASP_SW ); D_SW_IN / SEN(RADIANOS( TA_SW ) ) ) WTH_SRH_SW_EXTmC=TH_D_X + HT_SL_CF_X U_REFm/sC= M_3 / ( DENS_A * A_REF_SEL ) U_ANm/sC= ( M_3 * ( PER_AIR_ANN / 100 ) * ST_3 * R_AIR ) / ( A_ANN * SP_3 ) U_Om/sC= ( M_3_C1 * ST_3_C1 * R_AIR ) / ( A_O * SP_3_C1 ) U_2_AXIm/sC127,60=U_3 U_3m/sC= MACH_3 * ( (GAMA_AIR * R_AIR *ST_3)^0,5 ) U_4m/sC342,76=( ( M_3 + MF) * ST_4 * R_G ) / ( A_4 * SP_4) U_Sm/sC=U_O U_Gm/sC=SE( A_C0; 0; M_1FCD_RZ / ( DENS_A * A_C ) ) U_G_FTm/sC=( M_G * R_G * T_G ) / ( A_FT_SEL * SP_G ) U_Am/sC=M_A / ( DENS_A * A_A ) U_SL_FCDm/sC=( M_3 * PFCA / 100 ) / ( DENS_A * A_C ) U_SL_FCD_Dm/sC=( M_CF ) / ( DENS_A * A_C_CF ) U_SW_OUTm/sC=M_SW / ( DENS_A * A_SW_MECH ) U_H1_PZm/sC= M_PZ_H1 / ( DENS_A * A_H1_PZ ) U_H2_PZm/sC= SEERRO( M_PZ_H2 / ( DENS_A * A_H2_PZ * CD_H2PZ ); 0 ) U_H_SZm/sC=M_SZ_H / ( DENS_A * A_H_SZ ) U_H_DZm/sC=M_DZ_H / ( DENS_A * A_H_DZ ) MACH_3_DES-A0,30=( ( M_3_C1 * ST_3_C1 * R_AIR ) / ( A_3 * SP_3_C1) ) / ( ( GAMA_AIR * R_AIR * ST_3_C1 )^0,5 ) MACH_4_DES-A0,43=( ( ( M_3_C1 + MF_C1 ) * ST_4_C1 * R_G ) / ( A_4 * SP_4_C1) ) / ( (GAMA_GAS * R_G * ST_4_C1)^0,5 ) MACH_1_C1-A0,00= MACH_1_C2-A0,80= MACH_1_C3-A0,50= MACH_1_C4-A0,74= MACH_1_C5-A0,40= MACH_3_C1-C=( ( M_3_C1 * ST_3_C1 * R_AIR ) / ( A_3 * SP_3_C1) ) / ( ( GAMA_AIR * R_AIR * ST_3_C1 )^0,5 ) C251-C=( ( M_3_C2 * ST_3_C2 * R_AIR ) / ( A_3 * SP_3_C2) ) / ( ( GAMA_AIR * R_AIR * ST_3_C2 )^0,5 ) MACH_3_C3-C=( ( M_3_C3 * ST_3_C3 * R_AIR ) / ( A_3 * SP_3_C3) ) / ( ( GAMA_AIR * R_AIR * ST_3_C3 )^0,5 ) MACH_3_C4-C=( ( M_3_C4 * ST_3_C4 * R_AIR ) / ( A_3 * SP_3_C4) ) / ( ( GAMA_AIR * R_AIR * ST_3_C4 )^0,5 ) MACH_3_C5-C=( ( M_3_C5 * ST_3_C5 * R_AIR ) / ( A_3 * SP_3_C5) ) / ( ( GAMA_AIR * R_AIR * ST_3_C5 )^0,5 ) MACH_4_C1-C=( ( (M_3_C1 + MF_C1 ) * ST_4_C1 * R_G ) / ( A_4 * SP_4_C1) ) / ( ( GAMA_GAS * R_G * ST_4_C1 )^0,5 ) MACH_4_C2-C=( ( (M_3_C2 + MF_C2 ) * ST_4_C2 * R_G ) / ( A_4 * SP_4_C2) ) / ( ( GAMA_GAS * R_G * ST_4_C2 )^0,5 ) MACH_4_C3-C=( ( (M_3_C3 + MF_C3 ) * ST_4_C3 * R_G ) / ( A_4 * SP_4_C3) ) / ( ( GAMA_GAS * R_G * ST_4_C3 )^0,5 ) MACH_4_C4-C=( ( (M_3_C4 + MF_C4 ) * ST_4_C4 * R_G ) / ( A_4 * SP_4_C4) ) / ( ( GAMA_GAS * R_G * ST_4_C4 )^0,5 ) MACH_4_C5-C=( ( (M_3_C5 + MF_C5 ) * ST_4_C5 * R_G ) / ( A_4 * SP_4_C5) ) / ( ( GAMA_GAS * R_G * ST_4_C5 )^0,5 ) MACH_3-C=SE( COND"C1"; MACH_3_C1; SE( COND"C2"; MACH_3_C2;SE( COND"C3"; MACH_3_C3;SE( COND"C4"; MACH_3_C4;MACH_3_C5 ) ) ) ) MACH_4-C=SE( COND"C1"; MACH_4_C1; SE( COND"C2"; MACH_4_C2;SE( COND"C3"; MACH_4_C3;SE( COND"C4"; MACH_4_C4;MACH_4_C5 ) ) ) ) 298 APNDICE A GTCD: Variveis, Funes e Procedimentos __________________________________________________________________________ VarivelUnidade de Medida Seletor[Adotado / Calculado (A / C)] Valor de Referncia OU Dado de Entrada Frmula ___________________________________________________________________________ ALT_C1mA0,00= ALT_C2mA10668,00= ALT_C3mA5000,00= ALT_C4mA10668,00= ALT_C5mA0,00= JP_MAXmC=SE( E( DIF > L_D; DIF < L_RZ ); 1,25 * ( D_H1_PZ * CD_H1PZ^0,5 ) * ( ( ( DENS_A * U_H1_PZ^2 ) / ( DENS_G * U_G_FT^2 ) )^0,5 ) * ( M_G / (M_PZ_H1 + M_G ) ); SE( E( DIF > L_RZ; DIF < L_PZ_H2); 1,25 * ( D_H2_PZ * CD_H2PZ^0,5 ) * ( ( ( DENS_A * U_H2_PZ^2 ) / ( DENS_G * U_G_FT^2 ) )^0,5 ) * ( M_G / (M_PZ_H2 + M_G ) ); SE( E( DIF > L_PZ_H2; DIF < ( L_PZ + L_SZ ) ); 1,25 * ( D_H_SZ * CD_HSZ^0,5 ) * ( ( ( DENS_A * U_H_SZ^2 ) / ( DENS_G * U_G_FT^2 ) )^0,5 ) * ( M_G / (M_SZ_H + M_G ) ); SE( E( DIF > ( L_PZ + L_SZ ); DIF < ( L_PZ + L_SZ + L_DZ ) ); 1,25 * ( D_H_DZ * CD_HDZ^0,5 ) * ( ( ( DENS_A * U_H_DZ^2 ) / ( DENS_G * U_G_FT^2 ) )^0,5 ) * ( M_G / (M_DZ_H + M_G ) ); "" ) ) ) ) FCA-A0,40000=SE( ERRO( 1 - (( ( 1 - ( PER_AIR_SW + PER_AIR_CF + 100 * ( ( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5 ) / M_3_C1 ) / 100 )^2 - ( ( RAT_DEL_P_DIFF_P_3_C1 / 100 ) * P_3_C1 ) / ( ( 0,5 * ( SP_3_C1 / ( R_AIR * T_3_C1 ) ) * ( MACH_3_C1 * ( ( GAMA_AIR * R_AIR * ST_3_C1 )^0,5 ) )^2 ) * ( 1 - 1 / AR_DIFF^2 ) ) ) / ( DEL_P_34_C1 / DP_REF_C1 - ( ( RAT_DEL_P_DIFF_P_3_C1 / 100 ) * P_3_C1 ) / ( ( 0,5 * ( SP_3_C1 / ( R_AIR * T_3_C1 ) ) * ( MACH_3_C1 * ( ( GAMA_AIR * R_AIR * ST_3_C1 )^0,5 ) )^2 ) * ( 1 - 1 / AR_DIFF^2 ) ) * ( A_REF_SEL / A_3 )^2 ) )^(1/3) ); SE(OU( CHTY1; CHTY2 );0,7; 0,66 ); SE( ( 1 - (( ( 1 - ( PER_AIR_SW + PER_AIR_CF + 100 * ( ( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5 ) / M_3_C1 ) / 100 )^2 - ( ( RAT_DEL_P_DIFF_P_3_C1 / 100 ) * P_3_C1 ) / ( ( 0,5 * ( SP_3_C1 / ( R_AIR * T_3_C1 ) ) * ( MACH_3_C1 * ( ( GAMA_AIR * R_AIR * ST_3_C1 )^0,5 ) )^2 ) * ( 1 - 1 / AR_DIFF^2 ) ) ) / ( DEL_P_34_C1 / DP_REF_C1 - ( ( RAT_DEL_P_DIFF_P_3_C1 / 100 ) * P_3_C1 ) / ( ( 0,5 * ( SP_3_C1 / ( R_AIR * T_3_C1 ) ) * ( MACH_3_C1 * ( ( GAMA_AIR * R_AIR * ST_3_C1 )^0,5 ) )^2 ) * ( 1 - 1 / AR_DIFF^2 ) ) * ( A_REF_SEL / A_3 )^2 ) )^(1/3) ) < FCA_MIN; FCA_MIN; SE( ( 1 - (( ( 1 - ( PER_AIR_SW + PER_AIR_CF + 100 * ( ( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5 ) / M_3_C1 ) / 100 )^2 - ( ( RAT_DEL_P_DIFF_P_3_C1 / 100 ) * P_3_C1 ) / ( ( 0,5 * ( SP_3_C1 / ( R_AIR * T_3_C1 ) ) * ( MACH_3_C1 * ( ( GAMA_AIR * R_AIR * ST_3_C1 )^0,5 ) )^2 ) * ( 1 - 1 / AR_DIFF^2 ) ) ) / ( DEL_P_34_C1 / DP_REF_C1 - ( ( RAT_DEL_P_DIFF_P_3_C1 / 100 ) * P_3_C1 ) / ( ( 0,5 * ( SP_3_C1 / ( R_AIR * T_3_C1 ) ) * ( MACH_3_C1 * ( ( GAMA_AIR * R_AIR * ST_3_C1 )^0,5 ) )^2 ) * ( 1 - 1 / AR_DIFF^2 ) ) * ( A_REF_SEL / A_3 )^2 ) )^(1/3) ) > FCA_PAR; FCA_MAX; ( 1 - (( ( 1 - ( PER_AIR_SW + PER_AIR_CF + 100 * ( ( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5 ) / M_3_C1 ) / 100 )^2 - ( ( RAT_DEL_P_DIFF_P_3_C1 / 100 ) * P_3_C1 ) / ( ( 0,5 * ( SP_3_C1 / ( R_AIR * T_3_C1 ) ) * ( MACH_3_C1 * ( ( GAMA_AIR * R_AIR * ST_3_C1 )^0,5 ) )^2 ) * ( 1 - 1 / AR_DIFF^2 ) ) ) / ( DEL_P_34_C1 / DP_REF_C1 - ( ( RAT_DEL_P_DIFF_P_3_C1 / 100 ) * P_3_C1 ) / ( ( 0,5 * ( SP_3_C1 / ( R_AIR * T_3_C1 ) ) * ( MACH_3_C1 * ( ( GAMA_AIR * R_AIR * ST_3_C1 )^0,5 ) )^2 ) * ( 1 - 1 / AR_DIFF^2 ) ) * ( A_REF_SEL / A_3 )^2 ) )^(1/3) ) ) ) ) FCA_MIN-A0,40000= FCA_MAX-A0,40000= FCA_PAR-A0,40000= MM_AIRkg/kmolA28,97= MM_Gkg/kmolC28,78= ( NM_CO2 * ( MM_CARB + 2 * MM_OXI ) + NM_CO * ( MM_CARB + MM_OXI ) + NM_H2O * ( 2 * MM_HIDR + MM_OXI ) + NM_O2 * 2 * NA_OXI + 3,76 * ( MSC / PHI ) * 2 * MM_NITR ) / ( NM_CO2 + NM_CO + NM_H2O + NM_O2 + 3,76 * MSC / PHI ) MM_CARBkg/kmolA12,01= MM_HIDRkg/kmolA1,01= MM_OXIkg/kmolA16,00= MM_NITRkg/kmolA14,01= NA_CARB-C=SE( FTY1; 10; SE( FTY2; 2; "" ) ) NA_HIDR-C=SE( FTY1; 20; SE( FTY2; 6; "" ) ) NA_NITR-C=SE( FTY1; 0; SE( FTY2; 0; "" ) ) NA_OXI-C=SE( FTY1; 0; SE( FTY2; 1; "" ) ) MSC-C=SE( FTY1; 15; SE( FTY2; 3; "" ) ) NM_O2-C= SE( PHI < 1; ( ( NA_OXI / 2 ) + ( MSC / PHI) - NA_CARB - ( NA_HIDR / 4 ) ); 0 ) NM_CO-C= SE( PHI > 1; ( 2 * NA_CARB + ( NA_HIDR / 2 ) - NA_OXI - 2 * ( MSC / PHI ) ); 0 ) NM_CO2-C= NA_CARB - NM_CO NM_H2O-C= NA_HIDR / 2 NM_N2-C= 3,76 * ( MSC / PHI ) R_UNJ/(mol.K)A8,31= R_GJ/(kg.K)C=( R_UN / MM_G ) *10^3 R_AIRJ/(kg.K)C=( R_UN / MM_AIR ) *10^3 CONSTKJ/(kg.K)C=R_AIR / 2 GAMA_GAS-C1,3934=( NM_O2*1,393 + NM_CO*1,4 + NM_CO2*1,289 + NM_H2O*1,327 + NM_N2*1,4 ) / ( NM_O2 + NM_CO + NM_CO2 + NM_H2O + NM_N2 ) GAMA_AIR-A1,3930= CP0_AIRkJ/(kg.K)C1,0035=( GAMA_AIR * R_AIR ) / ( GAMA_AIR - 1 ) / 1000 CP0_GASkJ/(kg.K)C1,2250=( GAMA_GAS * R_G ) / ( GAMA_GAS - 1 ) / 1000 RP_C1-C=SP_3_C1 / SP_2_C1 RP_C2C=SP_3_C2 / SP_2_C2 RP_C3C=SP_3_C3 / SP_2_C3 RP_C4C=SP_3_C4 / SP_2_C4 RP_C5C=SP_3_C5 / SP_2_C5 CHTY-A2,00= NC-A8,00= NHR_PZ-A1,00= NH_1PZ-A8,00= NH_2PZ-A0,00= NH_SZ-A8,00= NH_DZ-A8,00= NCD-C0=SE( COND_DES1; NCD_C1; SE( COND_DES2; NCD_C2; SE( COND_DES3; NCD_C3; SE( COND_DES4; NCD_C4; NCD_C5 ) ) ) ) 299 APNDICE A GTCD: Variveis, Funes e Procedimentos __________________________________________________________________________ VarivelUnidade de Medida Seletor[Adotado / Calculado (A / C)] Valor de Referncia OU Dado de Entrada Frmula ___________________________________________________________________________ NDL_PZ-A5,00= NDL_SZ-A5,00= NDL_DZ-A1,00= BLTY-A1,00= WTY-A1,00= HTY-A1,00= FCDTY-A1,00= FTY-A2= SWBF%A0,00= ICE-A2,00= RCE-A2,00= COND_DES-A1,00= METH_DES-A4,00= ADA25,00=GRAUS( ATAN( ( ( ( RAT_DEL_P_DIFF_P_3_C1 / 100 ) * ( A_3^2 ) ) / ( 1,75 * R_AIR * ( ( M_3_C1 * ( T_3_C1^0,5 ) / ( P_3_C1 ) )^2 ) * ( 1 - ( 1 / AR_DIFF ) )^2 ) )^( 1 / 1,22 ) ) ) SIN_AD-C=SEN( RADIANOS( AD ) ) COS_AD-C=COS( RADIANOS( AD ) ) TAN_AD-C=TAN( RADIANOS( AD ) ) AD_SC25,00=SE( OU( CHTY1; CHTY3 ); GRAUS( ATAN( ( ( D_FT_SEL - D_S ) / 2 ) / L_S ) ); SE(CHTY2; GRAUS( ATAN( ( ( D_OUT_FT_ANN - D_S_OUT_ANN ) / 2 ) / L_S ) ); "" ) ) SIN_AD_S-C=SEN( RADIANOS( AD_S ) ) COS_AD_S-C=COS( RADIANOS( AD_S ) ) TAN_AD_S-C=TAN( RADIANOS( AD_S ) ) AD_DA75,00=GRAUS( ACOS( (-D_FT_SEL * (D_FT_SEL - 2 * D_SW_OUT ) - ( D_FT_SEL - 4 * L_RZ ) * ( D_FT_SEL^2 - 4 * D_FT_SEL * D_SW_OUT + 4 * D_SW_OUT^2 -8 * D_FT_SEL * L_RZ + 16 * L_RZ^2)^0,5 ) / ( 2 * D_FT_SEL^2 - 4 * D_FT_SEL * D_SW_OUT + 4 * D_SW_OUT^2 - 8 * D_FT_SEL * L_RZ + 16 * L_RZ^2) ) ) SIN_AD_D-C=SEN( RADIANOS( AD_D ) ) COS_AD_D-C=COS( RADIANOS( AD_D ) ) TAN_AD_D-C=TAN( RADIANOS( AD_D ) ) CD_S-A0,50= CD_FCD-A0,85= K_SW-C=SE( BLTY1; 1,3; 1,15) SA_SWC=TA_SW TA_SWA55,00= COS_TA_SWC=COS( RADIANOS( TA_SW ) ) TAN_TA_SWC=TAN( RADIANOS( TA_SW ) ) A_PERC=SE( CHTY2; ( 360 / NC ); SE( OU( CHTY1; CHTY3 ); ( 360 / MNIMO( NH_1PZ; NH_SZ; NH_DZ ) ); "" ) ) NBA12,00= SWN-C= ( 2 / 3 ) * ( ( 1 - ( D_SW_IN / D_SW_OUT )^3 ) / ( 1 - ( D_SW_IN / D_SW_OUT )^2 ) ) * TAN(RADIANOS( TA_SW )) RAT_ASP_SW-A0,40=DEL_D_SW_OUT_IN / CHORD RAT_A_H1PZ_ANN-C=( A_H1_PZ / NH_1PZ ) / A_ANN RAT_A_H2PZ_ANN-C=SE( NHR_PZ1; 0; ( A_H2_PZ / NH_2PZ ) / A_ANN ) RAT_A_HSZ_ANN-C=( A_H_SZ / NH_SZ ) / A_ANN RAT_A_HDZ_ANN-C=( A_H_DZ / NH_DZ ) / A_ANN RAT_M_H1PZ_ANN-C=( M_PZ_H1 / NH_1PZ ) / ( M_3 - ( ( M_SW + M_CF + M_SUM_FCD_RZ_AD ) ) ) RAT_M_H2PZ_ANN-C=SE( NHR_PZ1; 0; ( M_PZ_H2 / NH_2PZ ) / ( M_3 - ( M_SW + M_CF + M_SUM_FCD_RZ_AD - M_PZ_H2 ) ) ) RAT_M_HSZ_ANN-C=( M_SZ_H / NH_SZ ) / ( M_3 - ( ( M_SW + M_CF + M_SUM_FCD_RZ_AD + M_SUM_FCD_PZ_AD ) + (RAT_PER_AIR_PZ_H1_H / 100 ) * M_PZ_H + ( 1 - (RAT_PER_AIR_PZ_H1_H / 100 ) ) * M_PZ_H) ) RAT_M_HDZ_ANN-C=( M_DZ_H / NH_DZ ) / ( M_3 - ( ( M_SW + M_CF + M_SUM_FCD_RZ_AD + M_SUM_FCD_PZ_AD + M_SUM_FCD_SZ_AD ) + (RAT_PER_AIR_PZ_H1_H / 100 ) * M_PZ_H + ( 1 - (RAT_PER_AIR_PZ_H1_H / 100 ) ) * M_PZ_H+ M_SZ_H ) ) RAT_MA_H1PZ_ANN-C=RAT_M_H1PZ_ANN / RAT_A_H1PZ_ANN RAT_MA_H2PZ_ANN-C=SE( NHR_PZ1; 0; RAT_M_H2PZ_ANN / RAT_A_H2PZ_ANN ) RAT_MA_HSZ_ANN-C=RAT_M_HSZ_ANN / RAT_A_HSZ_ANN RAT_MA_HDZ_ANN-C=RAT_M_HDZ_ANN / RAT_A_HDZ_ANN MLF-C=SE(HTY1; 0,8; 0,6) JPA_H1PZC=SE( ERROS( GRAUS( ASEN( (1 / ( 2 * CD_H1PZ * MLF ) ) * ( ( HPLF_H1PZ - 1 ) / HPLF_H1PZ) ) ) ); 90; GRAUS( ASEN( (1 / ( 2 * CD_H1PZ * MLF ) ) * ( ( HPLF_H1PZ - 1 ) / HPLF_H1PZ) ) ) ) JPA_H2PZC=SE( NHR_PZ1; 0; GRAUS( ASEN( (1 / ( 2 * CD_H2PZ * MLF ) ) * ( ( HPLF_H2PZ - 1 ) / HPLF_H2PZ) ) ) ) JPA_HSZC=GRAUS( ASEN( (1 / ( 2 * CD_HSZ * MLF ) ) * ( ( HPLF_HSZ - 1 ) / HPLF_HSZ) ) ) JPA_HDZC=GRAUS( ASEN( (1 / ( 2 * CD_HDZ * MLF ) ) * ( ( HPLF_HDZ - 1 ) / HPLF_HDZ) ) ) CD_H1PZ-A0,5=( HPLF_H1PZ - 1 ) / ( MLF * ( 4 * HPLF_H1PZ^2 - HPLF_H1PZ * ( 2 - RAT_M_H1PZ_ANN )^2 )^0,5 ) CD_H2PZ-A0,5=SE( NHR_PZ1; 0; ( HPLF_H2PZ - 1 ) / ( MLF * ( 4 * HPLF_H2PZ^2 - HPLF_H2PZ * ( 2 - RAT_M_H2PZ_ANN )^2 )^0,5 ) ) CD_HSZ-A0,62=( HPLF_HSZ - 1 ) / ( MLF * ( 4 * HPLF_HSZ^2 - HPLF_HSZ * ( 2 - RAT_M_HSZ_ANN )^2 )^0,5 ) CD_HDZ-A0,62=( HPLF_HDZ - 1 ) / ( MLF * ( 4 * HPLF_HDZ^2 - HPLF_HDZ * ( 2 - RAT_M_HDZ_ANN )^2 )^0,5 ) HPLF_H1PZ-C=1 + MLF^2 * ( 2 * RAT_MA_H1PZ_ANN^2 + ( 4 * RAT_MA_H1PZ_ANN^4 + ( ( RAT_MA_H1PZ_ANN^2 ) / ( MLF^2 ) ) * ( 4 * RAT_M_H1PZ_ANN - RAT_M_H1PZ_ANN^2 ) )^0,5 ) HPLF_H2PZ-C=SE( NHR_PZ1; 0; 1 + MLF^2 * ( 2 * RAT_MA_H2PZ_ANN^2 + ( 4 * RAT_MA_H2PZ_ANN^4 + ( ( RAT_MA_H2PZ_ANN^2 ) / ( MLF^2 ) ) * ( 4 * RAT_M_H2PZ_ANN - RAT_M_H2PZ_ANN^2 ) )^0,5 ) ) HPLF_HSZ-C=1 + MLF^2 * ( 2 * RAT_MA_HSZ_ANN^2 + ( 4 * RAT_MA_HSZ_ANN^4 + ( ( RAT_MA_HSZ_ANN^2 ) / ( MLF^2 ) ) * ( 4 * RAT_M_HSZ_ANN - RAT_M_HSZ_ANN^2 ) )^0,5 ) 300 APNDICE A GTCD: Variveis, Funes e Procedimentos __________________________________________________________________________ VarivelUnidade de Medida Seletor[Adotado / Calculado (A / C)] Valor de Referncia OU Dado de Entrada Frmula ___________________________________________________________________________ HPLF_HDZ-C=1 + MLF^2 * ( 2 * RAT_MA_HDZ_ANN^2 + ( 4 * RAT_MA_HDZ_ANN^4 + ( ( RAT_MA_HDZ_ANN^2 ) / ( MLF^2 ) ) * ( 4 * RAT_M_HDZ_ANN - RAT_M_HDZ_ANN^2 ) )^0,5 ) ZONE-APZ= COND-AC1= PHI-C=SE( E( ZONE"RZ"; COND"C1" ); PHI_RZ_C1; SE( E( ZONE"RZ"; COND"C2" ); PHI_RZ_C2;SE( E( ZONE"RZ"; COND"C3" ); PHI_RZ_C3;SE( E( ZONE"RZ"; COND"C4" ); PHI_RZ_C4; SE( E( ZONE"RZ"; COND"C5" ); PHI_RZ_C5;SE( E( ZONE"PZ"; COND"C1" ); PHI_PZ_C1; SE( E( ZONE"PZ"; COND"C2" ); PHI_PZ_C2; SE( E( ZONE"PZ"; COND"C3" ); PHI_PZ_C3; SE( E( ZONE"PZ"; COND"C4" ); PHI_PZ_C4; SE( E( ZONE"PZ"; COND"C5" ); PHI_PZ_C5;SE( E( ZONE"SZ"; COND"C1" ); PHI_SZ_C1; SE( E( ZONE"SZ"; COND"C2" ); PHI_SZ_C2; SE( E( ZONE"SZ"; COND"C3" ); PHI_SZ_C3; SE( E( ZONE"SZ"; COND"C4" ); PHI_SZ_C4;SE( E( ZONE"SZ"; COND"C5" ); PHI_SZ_C5;SE( E( ZONE"DZ"; COND"C1" ); PHI_DZ_C1;SE( E( ZONE"DZ"; COND"C2" ); PHI_DZ_C2; SE( E( ZONE"DZ"; COND"C3" ); PHI_DZ_C3; SE( E( ZONE"DZ"; COND"C4" ); PHI_DZ_C4; PHI_DZ_C5))) ) ) )))) ))))) ) ) ) )) B_FCD%A40,00= SBCW/(m2.K4) A5,67E-08= EMIS_W-A0,80= EMIS_G-C=1 - EXP( -0,286 * LU * P_G * ( ( FAR * LB )^0,5 ) * T_G^-1,5 ) EMIS_CAS-A0,40= DEL_CD_H-A1,00E-05= K_AW/(m.K)C=5,92657 * 10^-4 + 9,80957 * 10^-5 * T_A - 4,89398 * 10^-8 * T_A^2 + 1,50114 * 10^-11 * T_A^3 K_CW/(m.K)C=5,92657 * 10^-4 + 9,80957 * 10^-5 * T_C- 4,89398 * 10^-8 * T_C^2 + 1,50114 * 10^-11 * T_C^3 K_GW/(m.K)C=5,92657 * 10^-4 + 9,80957 * 10^-5 * T_G * - 4,89398 * 10^-8 * T_G^2 + 1,50114 * 10^-11 * T_G^3 K_WW/(m.K)A26,00= DV_Akg/(s.m)C=( 0,03863 + 0,00749 * T_A - 5,8564 * 10^-6 * T_A^2 + 2,77691 * 10^-9 * T_A^3 - 4,600774 * 10^-13 * T_A^4 ) * 10^-5 DV_Ckg/(s.m)C=( 0,03863 + 0,00749 * T_C - 5,8564 * 10^-6 * T_C^2 + 2,77691 * 10^-9 * T_C^3 - 4,600774 * 10^-13 * T_C^4 ) * 10^-5 DV_Gkg/(s.m)C=( 0,03863 + 0,00749 * T_G - 5,8564 * 10^-6 * T_G^2 + 2,77691 * 10^-9 * T_G^3 - 4,600774 * 10^-13 * T_G^4 ) * 10^-5 CT_A-C=K_A / ( DV_A^0,8 ) CT_C-C=K_C / ( DV_C^0,8 ) CT_G-C=K_G / ( DV_G^0,8 ) LU-C=0,0691 * ( RAT_CH - 1,82 )^2,71 LBmC= 0,6 * D_FT_SEL RAT_M_U-C=( DENS_A * U_A ) / ( DENS_G * U_G ) DENS_Akg/m3C=SP_A / ( R_AIR * ST_3) DENS_Gkg/m3C=SP_G / ( R_G * T_G) DENS_SLkg/m3C=SP_A / ( R_AIR * T_A) Z-A0,60= RE_X-C=( DENS_A * U_A * X ) / DV_A RE_SL-C=( DENS_A * U_A * HT_SL ) / DV_A RAT_CH-C6,14=( NA_CARB * MM_CARB ) / ( NA_HIDR / MM_HIDR ) FAR-C0,17=MF / ( M_G - MF ) LHVkJ/kgC=SE( FTY1; 43260; SE( FTY2; 26800; "") ) LC_DIFF-C0,19=SE( ( ( RAT_DEL_P_DIFF_P_3_C1 / 100 ) * P_3_C1 ) / ( ( 0,5 * ( SP_3_C1 / ( R_AIR * T_3_C1 ) ) * ( MACH_3_C1 * ( ( GAMA_AIR * R_AIR * ST_3_C1 )^0,5 ) )^2 ) * ( 1 - 1 / AR_DIFF^2 ) ) < 0; 0,3; ( ( RAT_DEL_P_DIFF_P_3_C1 / 100 ) * P_3_C1 ) / ( ( 0,5 * ( SP_3_C1 / ( R_AIR * T_3_C1 ) ) * ( MACH_3_C1 * ( ( GAMA_AIR * R_AIR * ST_3_C1 )^0,5 ) )^2 ) * ( 1 - 1 / AR_DIFF^2 ) ) ) EFFIC_IS_COMPR-A0,81=( ( RAT_DEL_P_DIFF_P_3_C1 / 100 ) * P_3_C1 ) / ( ( 0,5 * ( SP_3_C1 / ( R_AIR * T_3_C1 ) ) * ( MACH_3_C1 * ( ( GAMA_AIR * R_AIR * ST_3_C1 )^0,5 ) )^2 ) * ( 1 - 1 / AR_DIFF^2 ) ) EFFIC_IS_I-A0,93= P_1_C1PaC=SP_1_C1 * ( T_1_C1 / ST_1_C1 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) P_1_C2PaC=SP_1_C2 * ( T_1_C2 / ST_1_C2 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) P_1_C3PaC=SP_1_C3 * ( T_1_C3 / ST_1_C3 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) P_1_C4PaC=SP_1_C4 * ( T_1_C4 / ST_1_C4 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) P_1_C5PaC=SP_1_C5 * ( T_1_C5 / ST_1_C5 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) P_2_C1PaC=SP_1_C1 * ( 1 + EFFIC_IS_I * ( ( GAMA_AIR - 1 ) / 2 ) * MACH_1_C1^2 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) P_2_C2PaC=SP_1_C2 * ( 1 + EFFIC_IS_I * ( ( GAMA_AIR - 1 ) / 2 ) * MACH_1_C2^2 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) P_2_C3PaC=SP_1_C3 * ( 1 + EFFIC_IS_I * ( ( GAMA_AIR - 1 ) / 2 ) * MACH_1_C3^2 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) P_2_C4PaC=SP_1_C4 * ( 1 + EFFIC_IS_I * ( ( GAMA_AIR - 1 ) / 2 ) * MACH_1_C4^2 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) P_2_C5PaC=SP_1_C5 * ( 1 + EFFIC_IS_I * ( ( GAMA_AIR - 1 ) / 2 ) * MACH_1_C5^2 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) P_3_C1PaA2272552,00= P_3_C2PaA881128,00= P_3_C3PaA1401197,00= P_3_C4PaA738690,00= P_3_C5PaA2483694,00= P_4_C1PaC=P_3_C1 - DEL_P_34_C1 P_4_C2PaC=P_3_C2 - DEL_P_34_C2 P_4_C3PaC=P_3_C3 - DEL_P_34_C3 P_4_C4PaC=P_3_C4 - DEL_P_34_C4 P_4_C5PaC=P_3_C5 - DEL_P_34_C5 DP_REF_C1PaC=P_3_C1 *( ( R_AIR / 2 ) * ( ( M_3_C1 * T_3_C1^0,5 ) / ( A_REF_SEL * P_3_C1 ) )^2 ) 301 APNDICE A GTCD: Variveis, Funes e Procedimentos __________________________________________________________________________ VarivelUnidade de Medida Seletor[Adotado / Calculado (A / C)] Valor de Referncia OU Dado de Entrada Frmula ___________________________________________________________________________ DP_REF_C2PaC=P_3_C2 *( ( R_AIR / 2 ) * ( ( M_3_C2 * T_3_C2^0,5 ) / ( A_REF_SEL * P_3_C2 ) )^2 ) DP_REF_C3PaC=P_3_C3 *( ( R_AIR / 2 ) * ( ( M_3_C3 * T_3_C3^0,5 ) / ( A_REF_SEL * P_3_C3 ) )^2 ) DP_REF_C4PaC=P_3_C4 *( ( R_AIR / 2 ) * ( ( M_3_C4 * T_3_C4^0,5 ) / ( A_REF_SEL * P_3_C4 ) )^2 ) DP_REF_C5PaC=P_3_C5 *( ( R_AIR / 2 ) * ( ( M_3_C5 * T_3_C5^0,5 ) / ( A_REF_SEL * P_3_C5 ) )^2 ) DEL_P_DIFF_C1PaC= ( RAT_DEL_P_DIFF_P_3_C1 / 100 ) * P_3_C1 DEL_P_DIFF_C2PaC= ( RAT_DEL_P_DIFF_P_3_C2 / 100 ) * P_3_C2 DEL_P_DIFF_C3PaC= ( RAT_DEL_P_DIFF_P_3_C3 / 100 ) * P_3_C3 DEL_P_DIFF_C4PaC= ( RAT_DEL_P_DIFF_P_3_C4 / 100 ) * P_3_C4 DEL_P_DIFF_C5PaC= ( RAT_DEL_P_DIFF_P_3_C5 / 100 ) * P_3_C5 P_3PaC=SE( COND"C1"; P_3_C1; SE( COND"C2"; P_3_C2;SE( COND"C3"; P_3_C3;SE( COND"C4"; P_3_C4;P_3_C5 ) ) ) ) P_4PaC=SE( COND"C1"; P_4_C1; SE( COND"C2"; P_4_C2;SE( COND"C3"; P_4_C3;SE( COND"C4"; P_4_C4;P_4_C5 ) ) ) ) P_APaC=SE( COND"C1"; P_3_C1; SE( COND"C2"; P_3_C2;SE( COND"C3"; P_3_C3;SE( COND"C4"; P_3_C4;P_3_C5 ) ) ) ) P_GPaC=SP_G + DP_G SP_APaC=SE( COND"C1"; SP_3_C1; SE( COND"C2"; SP_3_C2;SE( COND"C3"; SP_3_C3;SE( COND"C4"; SP_3_C4;SP_3_C5 ) ) ) ) SP_GPaC=SP_3 * ( 1 - DEL_P_34 / P_3 ) SP_1_C1PaC=SE( ALT_C1 < 11000; 1000 * ( 101,29 * ( ST_1_C1 / 288,08 )^5,256); SE( E( ALT_C1 > 11000; ALT_C1 < 25000 ); 1000 *( 22,65 * EXP(1,73 - 0,000157 * ALT_C1)); 1000 *( 2,488 * ( ( ST_1_C1 ) / 216,6 )^-11,388 ) ) ) SP_1_C2PaC=SE( ALT_C2 < 11000; 1000 *( 101,29 * ( ST_1_C2 / 288,08 )^5,256); SE( E( ALT_C2 > 11000; ALT_C2 < 25000 ); 1000 *( 22,65 * EXP(1,73 - 0,000157 * ALT_C2)); 1000 *( 2,488 * ( ( ST_1_C2 ) / 216,6 )^-11,388 ) ) ) SP_1_C3PaC=SE( ALT_C3 < 11000; 1000 *( 101,29 * ( ST_1_C3 / 288,08 )^5,256); SE( E( ALT_C3 > 11000; ALT_C3 < 25000 ); 1000 *( 22,65 * EXP(1,73 - 0,000157 * ALT_C3)); 1000 *( 2,488 * ( ( ST_1_C3 ) / 216,6 )^-11,388 ) ) ) SP_1_C4PaC=SE( ALT_C4 < 11000; 1000 *( 101,29 * ( ST_1_C4 / 288,08 )^5,256); SE( E( ALT_C4 > 11000; ALT_C4 < 25000 ); 1000 *( 22,65 * EXP(1,73 - 0,000157 * ALT_C4)); 1000 *( 2,488 * ( ( ST_1_C4 ) / 216,6 )^-11,388 ) ) ) SP_1_C5PaC=SE( ALT_C5 < 11000; 1000 *( 101,29 * ( ST_1_C5 / 288,08 )^5,256); SE( E( ALT_C5 > 11000; ALT_C5 < 25000 ); 1000 *( 22,65 * EXP(1,73 - 0,000157 * ALT_C5)); 1000 *( 2,488 * ( ( ST_1_C5 ) / 216,6 )^-11,388 ) ) ) SP_2_C1PaC=P_2_C1 / ( ( T_2_C1 / ST_2_C1 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) ) SP_2_C2PaC=P_2_C2 / ( ( T_2_C2 / ST_2_C2 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) ) SP_2_C3PaC=P_2_C3 / ( ( T_2_C3 / ST_2_C3 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) ) SP_2_C4PaC=P_2_C4 / ( ( T_2_C4 / ST_2_C4 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) ) SP_2_C5PaC=P_2_C5 / ( ( T_2_C5 / ST_2_C5 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) ) SP_3_C1PaC=P_3_C1 / ( 1 + ( ( GAMA_AIR - 1 ) / 2 ) * MACH_3_DES^2 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) SP_3_C2PaC=P_3_C2 / ( 1 + ( ( GAMA_AIR - 1 ) / 2 ) * MACH_3_DES^2 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) SP_3_C3PaC=P_3_C3 / ( 1 + ( ( GAMA_AIR - 1 ) / 2 ) * MACH_3_DES^2 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) SP_3_C4PaC=P_3_C4 / ( 1 + ( ( GAMA_AIR - 1 ) / 2 ) * MACH_3_DES^2 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) SP_3_C5PaC=P_3_C5 / ( 1 + ( ( GAMA_AIR - 1 ) / 2 ) * MACH_3_DES^2 )^( GAMA_AIR / ( GAMA_AIR - 1 ) ) SP_4_C1PaA1865542,77= SP_4_C2PaA481579,61= SP_4_C3PaA1005307,44= SP_4_C4PaA357502,57= SP_4_C5PaA2069351,52= SP_3PaC172554,42=SE( COND"C1"; SP_3_C1; SE( COND"C2"; SP_3_C2;SE( COND"C3"; SP_3_C3;SE( COND"C4"; SP_3_C4;SP_3_C5 ) ) ) ) SP_4PaC=SE( COND"C1"; SP_4_C1; SE( COND"C2"; SP_4_C2;SE( COND"C3"; SP_4_C3;SE( COND"C4"; SP_4_C4;SP_4_C5 ) ) ) ) DP_3PaC=0,5 * DENS_A * ( U_3 )^2 DP_GPaC=( 0,5 * DENS_G * ( U_G )^2 ) DP_ANNPaC=( 0,5 * DENS_A * ( U_AN )^2) DP_REFPaC=SE( COND"C1"; DP_REF_C1; SE( COND"C2"; DP_REF_C2;SE( COND"C3"; DP_REF_C3;SE( COND"C4"; DP_REF_C4;DP_REF_C5 ) ) ) ) %A9,00=SE( ( 100 * CONSTK * RAT_DEL_P_DP_34_C1 * PAR_TAB2_C1^2 ) 6; SE( RAT_DEL_P_TP_34_SEL"A"; RAT_DEL_P_TP_34; 6 ); ( 100 * CONSTK * RAT_DEL_P_DP_34_C1 * PAR_TAB2_C1^2 ))) RAT_DEL_P_TP_34_C2%A9,00=SE( ( 100 * CONSTK * RAT_DEL_P_DP_34_C2 * PAR_TAB2_C2^2 ) 6; SE( RAT_DEL_P_TP_34_SEL"A"; RAT_DEL_P_TP_34; 6 ); ( 100 * CONSTK * RAT_DEL_P_DP_34_C2 * PAR_TAB2_C2^2 ))) RAT_DEL_P_TP_34_C3%A9,00=SE( ( 100 * CONSTK * RAT_DEL_P_DP_34_C3 * PAR_TAB2_C3^2 ) 6; SE( RAT_DEL_P_TP_34_SEL"A"; RAT_DEL_P_TP_34; 6 ); ( 100 * CONSTK * RAT_DEL_P_DP_34_C3 * PAR_TAB2_C3^2 ))) RAT_DEL_P_TP_34_C4%A9,00=SE( ( 100 * CONSTK * RAT_DEL_P_DP_34_C4 * PAR_TAB2_C4^2 ) 6; SE( RAT_DEL_P_TP_34_SEL"A"; RAT_DEL_P_TP_34; 6 ); ( 100 * CONSTK * RAT_DEL_P_DP_34_C4 * PAR_TAB2_C4^2 ))) RAT_DEL_P_TP_34_C5%A9,00=SE( ( 100 * CONSTK * RAT_DEL_P_DP_34_C5 * PAR_TAB2_C5^2 ) 6; SE( RAT_DEL_P_TP_34_SEL"A"; RAT_DEL_P_TP_34; 6 ); ( 100 302 APNDICE A GTCD: Variveis, Funes e Procedimentos __________________________________________________________________________ VarivelUnidade de Medida Seletor[Adotado / Calculado (A / C)] Valor de Referncia OU Dado de Entrada Frmula ___________________________________________________________________________ * CONSTK * RAT_DEL_P_DP_34_C5 * PAR_TAB2_C5^2 ))) RAT_DEL_P_DP_34_C1-C412,65=DEL_P_34_C1 / DP_REF_C1 RAT_DEL_P_DP_34_C2-C2929,21=DEL_P_34_C2 / DP_REF_C2 RAT_DEL_P_DP_34_C3-C2954,36=DEL_P_34_C3 / DP_REF_C3 RAT_DEL_P_DP_34_C4-C2823,57=DEL_P_34_C4 / DP_REF_C4 RAT_DEL_P_DP_34_C5-C2926,67=DEL_P_34_C5 / DP_REF_C5 RAT_DEL_P_S_DP_REF_C1 -C=DEL_P_S_C1 / DP_REF_C1 RAT_DEL_P_S_DP_REF_C2 -C=DEL_P_S_C2 / DP_REF_C2 RAT_DEL_P_S_DP_REF_C3 -C=DEL_P_S_C3 / DP_REF_C3 RAT_DEL_P_S_DP_REF_C4 -C=DEL_P_S_C4 / DP_REF_C4 RAT_DEL_P_S_DP_REF_C5 -C=DEL_P_S_C5 / DP_REF_C5 RAT_DEL_P_SW_DP_REF_C1 -C= SE( RAT_DEL_P_DP_34_C1 - RAT_DEL_P_S_DP_REF_C1 - RAT_DEL_P_DIFF_DP_REF_C1 < 0; 1; RAT_DEL_P_DP_34_C1 - RAT_DEL_P_S_DP_REF_C1 - RAT_DEL_P_DIFF_DP_REF_C1 ) RAT_DEL_P_SW_DP_REF_C2 -C= SE( RAT_DEL_P_DP_34_C2 - RAT_DEL_P_S_DP_REF_C2 - RAT_DEL_P_DIFF_DP_REF_C2 < 0; 1; RAT_DEL_P_DP_34_C2 - RAT_DEL_P_S_DP_REF_C2 - RAT_DEL_P_DIFF_DP_REF_C2 ) RAT_DEL_P_SW_DP_REF_C3 -C= SE( RAT_DEL_P_DP_34_C3 - RAT_DEL_P_S_DP_REF_C3 - RAT_DEL_P_DIFF_DP_REF_C3 < 0; 1; RAT_DEL_P_DP_34_C3 - RAT_DEL_P_S_DP_REF_C3 - RAT_DEL_P_DIFF_DP_REF_C3 ) RAT_DEL_P_SW_DP_REF_C4 -C= SE( RAT_DEL_P_DP_34_C4 - RAT_DEL_P_S_DP_REF_C4 - RAT_DEL_P_DIFF_DP_REF_C4 < 0; 1; RAT_DEL_P_DP_34_C4 - RAT_DEL_P_S_DP_REF_C4 - RAT_DEL_P_DIFF_DP_REF_C4 ) RAT_DEL_P_SW_DP_REF_C5 -C= SE( RAT_DEL_P_DP_34_C5 - RAT_DEL_P_S_DP_REF_C5 - RAT_DEL_P_DIFF_DP_REF_C5 < 0; 1; RAT_DEL_P_DP_34_C5 - RAT_DEL_P_S_DP_REF_C5 - RAT_DEL_P_DIFF_DP_REF_C5 ) RAT_DEL_P_DIFF_P_3_C1%C6,23=SE( ( 100 * ( 1,75 * R_AIR * ( ( M_3_C1 * ( T_3_C1^0,5 ) / P_3_C1 )^2 ) * ( ( ( TAN(RADIANOS( AD ) ) )^1,22 ) * ( 1 / ( A_3^2 ) ) * ( 1 - ( 1/AR_DIFF ) )^2 ) ) )< 0;1; ( 100 * ( 1,75 * R_AIR * ( ( M_3_C1 * ( T_3_C1^0,5 ) / P_3_C1 )^2 ) * ( ( ( TAN(RADIANOS( AD ) ) )^1,22 ) * ( 1 / ( A_3^2 ) ) * ( 1 - ( 1/AR_DIFF ) )^2 ) ) ) ) RAT_DEL_P_DIFF_P_3_C2%C6,31=SE( ( 100 * ( 1,75 * R_AIR * ( ( M_3_C2 * ( T_3_C2^0,5 ) / P_3_C2 )^2 ) * ( ( ( TAN(RADIANOS( AD ) ) )^1,22 ) * ( 1 / ( A_3^2 ) ) * ( 1 - ( 1/AR_DIFF ) )^2 ) ) )< 0; 1; ( 100 * ( 1,75 * R_AIR * ( ( M_3_C2 * ( T_3_C2^0,5 ) / P_3_C2 )^2 ) * ( ( ( TAN(RADIANOS( AD ) ) )^1,22 ) * ( 1 / ( A_3^2 ) ) * ( 1 - ( 1/AR_DIFF ) )^2 ) ) ) ) RAT_DEL_P_DIFF_P_3_C3%C6,26=SE( ( 100 * ( 1,75 * R_AIR * ( ( M_3_C3 * ( T_3_C3^0,5 ) / P_3_C3 )^2 ) * ( ( ( TAN(RADIANOS( AD ) ) )^1,22 ) * ( 1 / ( A_3^2 ) ) * ( 1 - ( 1/AR_DIFF ) )^2 ) ) )< 0;1; ( 100 * ( 1,75 * R_AIR * ( ( M_3_C3 * ( T_3_C3^0,5 ) / P_3_C3 )^2 ) * ( ( ( TAN(RADIANOS( AD ) ) )^1,22 ) * ( 1 / ( A_3^2 ) ) * ( 1 - ( 1/AR_DIFF ) )^2 ) ) ) ) RAT_DEL_P_DIFF_P_3_C4%C6,55=SE( ( 100 * ( 1,75 * R_AIR * ( ( M_3_C4 * ( T_3_C4^0,5 ) / P_3_C4 )^2 ) * ( ( ( TAN(RADIANOS( AD ) ) )^1,22 ) * ( 1 / ( A_3^2 ) ) * ( 1 - ( 1/AR_DIFF ) )^2 ) ) )< 0;1; ( 100 * ( 1,75 * R_AIR * ( ( M_3_C4 * ( T_3_C4^0,5 ) / P_3_C4 )^2 ) * ( ( ( TAN(RADIANOS( AD ) ) )^1,22 ) * ( 1 / ( A_3^2 ) ) * ( 1 - ( 1/AR_DIFF ) )^2 ) ) ) ) RAT_DEL_P_DIFF_P_3_C5%C6,32=SE( ( 100 * ( 1,75 * R_AIR * ( ( M_3_C5 * ( T_3_C5^0,5 ) / P_3_C5 )^2 ) * ( ( ( TAN(RADIANOS( AD ) ) )^1,22 ) * ( 1 / ( A_3^2 ) ) * ( 1 - ( 1/AR_DIFF ) )^2 ) ) )< 0;1; ( 100 * ( 1,75 * R_AIR * ( ( M_3_C5 * ( T_3_C5^0,5 ) / P_3_C5 )^2 ) * ( ( ( TAN(RADIANOS( AD ) ) )^1,22 ) * ( 1 / ( A_3^2 ) ) * ( 1 - ( 1/AR_DIFF ) )^2 ) ) ) ) RAT_DEL_P_DIFF_DP_REF_C1 -C= DEL_P_DIFF_C1 / DP_REF_C1 RAT_DEL_P_DIFF_DP_REF_C2 -C= DEL_P_DIFF_C2 / DP_REF_C2 RAT_DEL_P_DIFF_DP_REF_C3 -C= DEL_P_DIFF_C3 / DP_REF_C3 RAT_DEL_P_DIFF_DP_REF_C4 -C= DEL_P_DIFF_C4 / DP_REF_C4 RAT_DEL_P_DIFF_DP_REF_C5 -C= DEL_P_DIFF_C5 / DP_REF_C5 DEL_P_S_C1PaC=DP_REF_C1 * 0,25 * ( A_REF_SEL / A_O )^2 DEL_P_S_C2PaC=DP_REF_C2 * 0,25 * ( A_REF_SEL / A_O )^2 DEL_P_S_C3PaC=DP_REF_C3 * 0,25 * ( A_REF_SEL / A_O )^2 DEL_P_S_C4PaC=DP_REF_C4 * 0,25 * ( A_REF_SEL / A_O )^2 DEL_P_S_C5PaC=DP_REF_C5 * 0,25 * ( A_REF_SEL / A_O )^2 DEL_P_FT_C1PaC=SE( ( RAT_DEL_P_DP_34_C1 - RAT_DEL_P_DIFF_DP_REF_C1 ) * DP_REF_C1 < 0; 1; ( RAT_DEL_P_DP_34_C1 - RAT_DEL_P_DIFF_DP_REF_C1 ) * DP_REF_C1 ) DEL_P_FT_C2PaC=SE( ( RAT_DEL_P_DP_34_C2 - RAT_DEL_P_DIFF_DP_REF_C2 ) * DP_REF_C2 < 0; 1; ( RAT_DEL_P_DP_34_C2 - RAT_DEL_P_DIFF_DP_REF_C2 ) * DP_REF_C2 ) DEL_P_FT_C3PaC=SE( ( RAT_DEL_P_DP_34_C3 - RAT_DEL_P_DIFF_DP_REF_C3 ) * DP_REF_C3 < 0; 1; ( RAT_DEL_P_DP_34_C3 - RAT_DEL_P_DIFF_DP_REF_C3 ) * DP_REF_C3 ) DEL_P_FT_C4PaC=SE( ( RAT_DEL_P_DP_34_C4 - RAT_DEL_P_DIFF_DP_REF_C4 ) * DP_REF_C4 < 0; 1; ( RAT_DEL_P_DP_34_C4 - RAT_DEL_P_DIFF_DP_REF_C4 ) * DP_REF_C4 ) DEL_P_FT_C5PaC=SE( ( RAT_DEL_P_DP_34_C5 - RAT_DEL_P_DIFF_DP_REF_C5 ) * DP_REF_C5 < 0; 1; ( RAT_DEL_P_DP_34_C5 - RAT_DEL_P_DIFF_DP_REF_C5 ) * DP_REF_C5 ) DEL_P_FTPaC=SE( COND"C1"; DEL_P_FT_C1; SE( COND"C2"; DEL_P_FT_C2;SE( COND"C3"; DEL_P_FT_C3;SE( COND"C4"; DEL_P_FT_C4;DEL_P_FT_C5 ) ) ) ) RAT_DEL_P_FT_P_3_C1%C=SE( 100 * ( DEL_P_FT_C1 / P_3_C1 ) < 0; 1; 100 * ( DEL_P_FT_C1 / P_3_C1 ) ) RAT_DEL_P_FT_P_3_C2%C=SE( 100 * ( DEL_P_FT_C2 / P_3_C2 ) < 0; 1; 100 * ( DEL_P_FT_C2 / P_3_C2 ) ) RAT_DEL_P_FT_P_3_C3%C=SE( 100 * ( DEL_P_FT_C3 / P_3_C3 ) < 0; 1; 100 * ( DEL_P_FT_C3 / P_3_C3 ) ) RAT_DEL_P_FT_P_3_C4%C=SE( 100 * ( DEL_P_FT_C4 / P_3_C4 ) < 0; 1; 100 * ( DEL_P_FT_C4 / P_3_C4 ) ) RAT_DEL_P_FT_P_3_C5%C=SE( 100 * ( DEL_P_FT_C5 / P_3_C5 ) < 0; 1; 100 * ( DEL_P_FT_C5 / P_3_C5 ) ) DEL_P_34_C1PaC=( RAT_DEL_P_TP_34_C1 / 100 ) * P_3_C1 DEL_P_34_C2PaC=( RAT_DEL_P_TP_34_C2 / 100 ) * P_3_C2 DEL_P_34_C3PaC=( RAT_DEL_P_TP_34_C3 / 100 ) * P_3_C3 DEL_P_34_C4PaC=( RAT_DEL_P_TP_34_C4 / 100 ) * P_3_C4 303 APNDICE A GTCD: Variveis, Funes e Procedimentos __________________________________________________________________________ VarivelUnidade de Medida Seletor[Adotado / Calculado (A / C)] Valor de Referncia OU Dado de Entrada Frmula ___________________________________________________________________________ DEL_P_34_C5PaC=( RAT_DEL_P_TP_34_C5 / 100 ) * P_3_C5 DEL_P_34PaC=( RAT_DEL_P_TP_34 / 100 ) * P_3 RAT_DEL_P_TP_34%A9,00=SE( COND"C1"; RAT_DEL_P_TP_34_C1; SE( COND"C2"; RAT_DEL_P_TP_34_C2;SE( COND"C3"; RAT_DEL_P_TP_34_C3;SE( COND"C4"; RAT_DEL_P_TP_34_C4;RAT_DEL_P_TP_34_C5 ) ) ) ) RAT_DEL_P_1FCD_P_3%C=100 * RAT_DEL_P_SW_DP_REF * DP_REF / P_3_C1 RAT_DEL_P_SW_DP_REF-C= SE( RAT_DEL_P_DP_34_C1 - RAT_DEL_P_S_DP_REF - RAT_DEL_P_DIFF_DP_REF < 0; 1; RAT_DEL_P_DP_34_C1 - RAT_DEL_P_S_DP_REF - RAT_DEL_P_DIFF_DP_REF) RAT_DEL_P_S_DP_REF%C=0,25 * ( A_REF_SEL / A_O )^2 DEL_P_DIFFPaC= ( RAT_DEL_P_DIFF_P_3_C1 / 100 ) * P_3 RAT_DEL_P_DIFF_DP_REF-C=SE( COND"C1"; DEL_P_DIFF_C1 / DP_REF_C1; SE( COND"C2"; DEL_P_DIFF_C2 / DP_REF_C2;SE( COND"C3"; DEL_P_DIFF_C3 / DP_REF_C3;SE( COND"C4"; DEL_P_DIFF_C4 / DP_REF_C4;DEL_P_DIFF_C5 / DP_REF_C5 ) ) ) ) RAT_DEL_P_H_P_3%A6,00= PAR_TAB2_C1-C3,00E-03=SE(CHTY1;3*10^-3;SE(CHTY2;4,5*10^-3;3,5*10-3)) PAR_TAB2_C2-C3,00E-03=SE(CHTY1;3*10^-3;SE(CHTY2;4,5*10^-3;3,5*10-3)) PAR_TAB2_C3-C3,00E-03=SE(CHTY1;3*10^-3;SE(CHTY2;4,5*10^-3;3,5*10-3)) PAR_TAB2_C4-C3,00E-03=SE(CHTY1;3*10^-3;SE(CHTY2;4,5*10^-3;3,5*10-3)) PAR_TAB2_C5-C3,00E-03=SE(CHTY1;3*10^-3;SE(CHTY2;4,5*10^-3;3,5*10-3)) M_3_C1kg/sA2,9430= ( PAR_TAB2_C1 * A_REF_AC_C1 * P_3_C1) / T_3_C1^0,5 M_3_C2kg/sA1,2220= ( PAR_TAB2_C2 * A_REF_AC_C2 * P_3_C2) / T_3_C2^0,5 M_3_C3kg/sA1,8886= ( PAR_TAB2_C3 * A_REF_AC_C3 * P_3_C3) / T_3_C3^0,5 M_3_C4kg/sA1,0718= ( PAR_TAB2_C4 * A_REF_AC_C4 * P_3_C4) / T_3_C4^0,5 M_3_C5kg/sA3,1951= ( PAR_TAB2_C5 * A_REF_AC_C5 * P_3_C5) / T_3_C5^0,5 MF_ST_C1kg/sC=MF_C1 / PHI_OV_C1 MF_ST_C2kg/sC=MF_C2 / PHI_OV_C2 MF_ST_C3kg/sC=MF_C3 / PHI_OV_C3 MF_ST_C4kg/sC=MF_C4 / PHI_OV_C4 MF_ST_C5kg/sC=MF_C5 / PHI_OV_C5 MF_C1kg/sA0,133277=SE( FTY2; MF_C1 * 43260 / LHV; SE( FTY1; MF_C1 * 26800 / LHV; "" ) ) MF_C2kg/sA0,047229=SE( FTY2; MF_C2 * 43260 / LHV; SE( FTY1; MF_C2 * 26800 / LHV; "" ) ) MF_C3kg/sA0,077824=SE( FTY2; MF_C3 * 43260 / LHV; SE( FTY1; MF_C3 * 26800 / LHV; "" ) ) MF_C4kg/sA0,035875=SE( FTY2; MF_C4 * 43260 / LHV; SE( FTY1; MF_C4 * 26800 / LHV; "" ) ) MF_C5kg/sA0,146335=SE( FTY2; MF_C5 * 43260 / LHV; SE( FTY1; MF_C5 * 26800 / LHV; "" ) ) M_PZ_H_C1kg/sC=(( PER_AIR_PZ - ( PER_AIR_SW + PER_AIR_CF + 100 * ( M_SUM_FCD_RZ_C2 + M_SUM_FCD_PZ_C2 ) / M_3_C1 ) )/ 100 ) * M_3_C1 M_PZ_H_C2kg/sC=(( PER_AIR_PZ - ( PER_AIR_SW + PER_AIR_CF + 100 * ( M_SUM_FCD_RZ_C3 + M_SUM_FCD_PZ_C3 ) / M_3_C2 ) )/ 100 ) * M_3_C2 M_PZ_H_C3kg/sC=(( PER_AIR_PZ - ( PER_AIR_SW + PER_AIR_CF + 100 * ( M_SUM_FCD_RZ_C4 + M_SUM_FCD_PZ_C4 ) / M_3_C3 ) )/ 100 ) * M_3_C3 M_PZ_H_C4kg/sC=(( PER_AIR_PZ - ( PER_AIR_SW + PER_AIR_CF + 100 * ( M_SUM_FCD_RZ_C5 + M_SUM_FCD_PZ_C5 ) / M_3_C4 ) )/ 100 ) * M_3_C4 M_PZ_H_C5kg/sC=(( PER_AIR_PZ - ( PER_AIR_SW + PER_AIR_CF + 100 * ( M_SUM_FCD_RZ_C5 + M_SUM_FCD_PZ_C5 ) / M_3_C5 ) )/ 100 ) * M_3_C5 M_SW_C1kg/sC= ( PER_AIR_SW / 100 ) * M_3_C1 M_SW_C2kg/sC= ( PER_AIR_SW / 100 ) * M_3_C2 M_SW_C3kg/sC= ( PER_AIR_SW / 100 ) * M_3_C3 M_SW_C4kg/sC= ( PER_AIR_SW / 100 ) * M_3_C4 M_SW_C5kg/sC= ( PER_AIR_SW / 100 ) * M_3_C5 M_RZ_C1kg/sC= ( RAT_PER_AIR_RZ_PZ_H / 100 ) * M_PZ_H_C1 M_RZ_C2kg/sC= ( RAT_PER_AIR_RZ_PZ_H / 100 ) * M_PZ_H_C2 M_RZ_C3kg/sC= ( RAT_PER_AIR_RZ_PZ_H / 100 ) * M_PZ_H_C3 M_RZ_C4kg/sC= ( RAT_PER_AIR_RZ_PZ_H / 100 ) * M_PZ_H_C4 M_RZ_C5kg/sC= ( RAT_PER_AIR_RZ_PZ_H / 100 ) * M_PZ_H_C5 M_SZ_C1kg/sC=( PER_AIR_SZ / 100 ) * M_3_C1 M_SZ_C2kg/sC=( PER_AIR_SZ / 100 ) * M_3_C2 M_SZ_C3kg/sC=( PER_AIR_SZ / 100 ) * M_3_C3 M_SZ_C4kg/sC=( PER_AIR_SZ / 100 ) * M_3_C4 M_SZ_C5kg/sC=( PER_AIR_SZ / 100 ) * M_3_C5 M_DZ_C1kg/sC=( PER_AIR_DZ / 100 ) * M_3_C1 M_DZ_C2kg/sC=( PER_AIR_DZ / 100 ) * M_3_C2 M_DZ_C3kg/sC=( PER_AIR_DZ / 100 ) * M_3_C3 M_DZ_C4kg/sC=( PER_AIR_DZ / 100 ) * M_3_C4 M_DZ_C5kg/sC=( PER_AIR_DZ / 100 ) * M_3_C5 M_3kg/sC=SE( COND"C1"; M_3_C1; SE( COND"C2"; M_3_C2;SE( COND"C3"; M_3_C3;SE( COND"C4"; M_3_C4;M_3_C5 ) ) ) ) M_3_PERkg/sC=SE( COND"C1"; M_3_C1 / ( 360 / A_PER ); SE( COND"C2"; M_3_C2 / ( 360 / A_PER );SE( COND"C3"; M_3_C3 / ( 360 / A_PER );SE( COND"C4"; M_3_C4 / ( 360 / A_PER );M_3_C5 / ( 360 / A_PER ) ) ) ) ) M_SWkg/sC=( PER_AIR_SW / 100 ) * M_3 M_DCkg/sC= ( ( PER_AIR_SWDC - PER_AIR_SW ) / 100 ) * M_3 M_SWDCkg/sC= ( PER_AIR_SWDC / 100 ) * M_3 M_SWDC_1FCDkg/sC=M_SWDC + M_1FCD_RZ_AD M_PZkg/sC=( PER_AIR_PZ / 100 ) * M_3 M_PZ_Hkg/sC=( PER_AIR_PZ_H / 100 ) * M_3 M_PZ_H1kg/sC=( PER_AIR_PZ_H1 / 100 ) * M_3 M_PZ_H2kg/sC=( PER_AIR_PZ_H2 / 100 ) * M_3 M_SZkg/sC=( PER_AIR_SZ / 100 ) * M_3 M_SZ_Hkg/sC=( PER_AIR_SZ_H / 100 ) * M_3 M_DZ_Hkg/sC=( PER_AIR_DZ_H / 100 ) * M_3 M_DZkg/sC=( PER_AIR_DZ / 100 ) * M_3 M_Akg/sC=SE( DIF < L_D; ( M_3 - ( M_SW + M_CF ) ); SE( E( DIF > L_D; DIF < L_RZ ); ( M_3 - ( ( M_SW + M_CF + M_SUM_FCD_RZ ) + 0,5 * (RAT_PER_AIR_PZ_H1_H / 100 ) * M_PZ_H ) ); SE( E( DIF > L_RZ; DIF < L_PZ_H2); ( M_3 - ( ( M_SW + M_CF + M_SUM_FCD_RZ ) + (RAT_PER_AIR_PZ_H1_H / 100 ) * M_PZ_H ) ); SE( E( DIF > L_PZ_H2; DIF < ( L_PZ + L_SZ ) ); ( M_3 - ( ( M_SW + M_CF + M_SUM_FCD_RZ + M_SUM_FCD_PZ ) + (RAT_PER_AIR_PZ_H1_H / 100 ) * M_PZ_H + ( 1 - (RAT_PER_AIR_PZ_H1_H / 100 ) ) * 304 APNDICE A GTCD: Variveis, Funes e Procedimentos __________________________________________________________________________ VarivelUnidade de Medida Seletor[Adotado / Calculado (A / C)] Valor de Referncia OU Dado de Entrada Frmula ___________________________________________________________________________ M_PZ_H) ); SE( E( DIF > ( L_PZ + L_SZ ); DIF < ( L_PZ + L_SZ + L_DZ ) ); ( M_3 - ( ( M_SW + M_CF + M_SUM_FCD_RZ + M_SUM_FCD_PZ + M_SUM_FCD_SZ ) + (RAT_PER_AIR_PZ_H1_H / 100 ) * M_PZ_H + ( 1 - (RAT_PER_AIR_PZ_H1_H / 100 ) ) * M_PZ_H+ M_SZ_H ) ); ( M_3 - (( M_SW + M_CF + M_SUM_FCD_RZ + M_SUM_FCD_PZ + M_SUM_FCD_SZ + M_SUM_FCD_DZ ) + (RAT_PER_AIR_PZ_H1_H / 100 ) * M_PZ_H + ( 1 - (RAT_PER_AIR_PZ_H1_H / 100 ) ) * M_PZ_H+ M_SZ_H + M_DZ_H ) ) ) ) ) ) ) M_Gkg/sC=SE( DIF < L_D; ( M_SW + MF + M_CF ); SE( E( DIF > L_D; DIF < L_RZ ); ( ( M_SW + MF + M_CF + M_SUM_FCD_RZ ) + 0,5 * (RAT_PER_AIR_PZ_H1_H / 100 ) * M_PZ_H ); SE( E( DIF > L_RZ; DIF < L_PZ_H2 ); ( ( M_SW + MF + M_CF + M_SUM_FCD_RZ ) + (RAT_PER_AIR_PZ_H1_H / 100 ) * M_PZ_H ); SE( E( DIF > L_PZ_H2; DIF < ( L_PZ + L_SZ ) ); ( ( M_SW + MF + M_CF + M_SUM_FCD_RZ + M_SUM_FCD_PZ ) + (RAT_PER_AIR_PZ_H1_H / 100 ) * M_PZ_H + ( 1 - (RAT_PER_AIR_PZ_H1_H / 100 ) ) * M_PZ_H); SE( E( DIF > ( L_PZ + L_SZ ); DIF < ( L_PZ + L_SZ + L_DZ )); ( ( M_SW + MF + M_CF + M_SUM_FCD_RZ + M_SUM_FCD_PZ + M_SUM_FCD_SZ ) + (RAT_PER_AIR_PZ_H1_H / 100 ) * M_PZ_H + ( 1 - (RAT_PER_AIR_PZ_H1_H / 100 ) ) * M_PZ_H+ M_SZ_H ); ( ( M_SW + MF + M_CF + M_SUM_FCD_RZ + M_SUM_FCD_PZ + M_SUM_FCD_SZ + M_SUM_FCD_DZ ) + (RAT_PER_AIR_PZ_H1_H / 100 ) * M_PZ_H + ( 1 - (RAT_PER_AIR_PZ_H1_H / 100 ) ) * M_PZ_H+ M_SZ_H + M_DZ_H ) ) ) ) ) ) MFkg/sC=SE( COND"C1"; MF_C1; SE( COND"C2"; MF_C2;SE( COND"C3"; MF_C3;SE( COND"C4"; MF_C4;MF_C5 ) ) ) ) MF_PERkg/sC=SE( COND"C1"; MF_C1 / ( 360 / A_PER ); SE( COND"C2"; MF_C2 / ( 360 / A_PER );SE( COND"C3"; MF_C3 / ( 360 / A_PER );SE( COND"C4"; MF_C4 / ( 360 / A_PER );MF_C5 / ( 360 / A_PER ) ) ) ) ) M_CFkg/sC=( PER_AIR_CF / 100 ) * M_3 M_1FCD_RZkg/sC0,06=SE( DIF_1FCD_RZ 0;( ( RAT_DEL_P_1FCD_P_3 / 100 ) * ( P_3^2 ) * ( A_EQV^2 ) / ( CONSTK * T_3 ) )^0,5; 0) M_2FCD_RZkg/sC=SE( DIF_2FCD_RZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_3FCD_RZkg/sC=SE( DIF_3FCD_RZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_4FCD_RZkg/sC=SE( DIF_4FCD_RZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_5FCD_RZkg/sC=SE( DIF_5FCD_RZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_6FCD_RZkg/sC=SE( DIF_6FCD_RZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_7FCD_RZkg/sC=SE( DIF_7FCD_RZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_8FCD_RZkg/sC=SE( DIF_8FCD_RZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_1FCD_PZkg/sC=SE( DIF_1FCD_PZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_2FCD_PZkg/sC=SE( DIF_2FCD_PZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_3FCD_PZkg/sC=SE( DIF_3FCD_PZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_4FCD_PZkg/sC=SE( DIF_4FCD_PZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_5FCD_PZkg/sC=SE( DIF_5FCD_PZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_6FCD_PZkg/sC=SE( DIF_6FCD_PZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_7FCD_PZkg/sC=SE( DIF_7FCD_PZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_8FCD_PZkg/sC=SE( DIF_8FCD_PZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_1FCD_SZkg/sC=SE( DIF_1FCD_SZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_2FCD_SZkg/sC=SE( DIF_2FCD_SZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_3FCD_SZkg/sC=SE( DIF_3FCD_SZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_4FCD_SZkg/sC=SE( DIF_4FCD_SZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_5FCD_SZkg/sC=SE( DIF_5FCD_SZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_6FCD_SZkg/sC=SE( DIF_6FCD_SZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_7FCD_SZkg/sC=SE( DIF_7FCD_SZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_8FCD_SZkg/sC=SE( DIF_8FCD_SZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_1FCD_DZkg/sC=SE( DIF_1FCD_DZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_2FCD_DZkg/sC=SE( DIF_2FCD_DZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_3FCD_DZkg/sC=SE( DIF_3FCD_DZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_4FCD_DZkg/sC=SE( DIF_4FCD_DZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_5FCD_DZkg/sC=SE( DIF_5FCD_DZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_6FCD_DZkg/sC=SE( DIF_6FCD_DZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_7FCD_DZkg/sC=SE( DIF_7FCD_DZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( CONSTK * T_A ) )^0,5; 0 ) M_8FCD_DZkg/sC=SE( DIF_8FCD_DZ 0;( ( RAT_DEL_P_TP_34 / 100 ) * ( P_A^2 ) * ( A_EQV^2 ) / ( 305 APNDICE A GTCD: Variveis, Funes e Procedimentos __________________________________________________________________________ VarivelUnidade de Medida Seletor[Adotado / Calculado (A / C)] Valor de Referncia OU Dado de Entrada Frmula ___________________________________________________________________________ CONSTK * T_A ) )^0,5; 0 ) M_SUM_FCD_RZkg/sC0,06=M_1FCD_RZ + M_2FCD_RZ + M_3FCD_RZ + M_4FCD_RZ + M_5FCD_RZ + M_6FCD_RZ + M_7FCD_RZ + M_8FCD_RZ M_SUM_FCD_PZkg/sC=M_1FCD_PZ + M_2FCD_PZ + M_3FCD_PZ + M_4FCD_PZ + M_5FCD_PZ + M_6FCD_PZ + M_7FCD_PZ + M_8FCD_PZ M_SUM_FCD_SZkg/sC=M_1FCD_SZ + M_2FCD_SZ + M_3FCD_SZ + M_4FCD_SZ + M_5FCD_SZ + M_6FCD_SZ + M_7FCD_SZ + M_8FCD_SZ M_SUM_FCD_DZkg/sC=M_1FCD_DZ + M_2FCD_DZ + M_3FCD_DZ + M_4FCD_DZ + M_5FCD_DZ + M_6FCD_DZ + M_7FCD_DZ + M_8FCD_DZ Q_SW_OUT(kg.m/s)/m3 C=M_SW * (M_SW / ( DENS_A * A_SW_HYDR ) ) * SEN( RADIANOS(SA_SW) )+ M_CF * U_SL_FCD_D * SEN( RADIANOS(AD_D) ) Q_PZ_H1(kg.m/s)/m3 C=( RAT_PER_AIR_RZ_PZ_H / 100 ) * M_PZ_H1 * U_H1_PZ * SEN( RADIANOS(JPA_H1PZ) ) DEL_Q_SW_OUT_H1_PZ(kg.m/s)/m4 C=Q_SW_OUT - Q_PZ_H1_CALC ST_1_C1KC=SE( ALT_C1 < 11000; ( ( 15,04 - 0,00649 * ALT_C1 ) + 273,15 ); SE( E( ALT_C1 > 11000; ALT_C1 < 25000 ); ( -56,46 + 273,15 ); ( -131,21 + 0,00299 * ALT_C1 ) ) ) ST_1_C2KC=SE( ALT_C2 < 11000; ( ( 15,04 - 0,00649 * ALT_C2 ) + 273,15 ); SE( E( ALT_C2 > 11000; ALT_C2 < 25000 ); ( -56,46 + 273,15 ); ( -131,21 + 0,00299 * ALT_C2 ) ) ) ST_1_C3KC=SE( ALT_C3 < 11000; ( ( 15,04 - 0,00649 * ALT_C3 ) + 273,15 ); SE( E( ALT_C3 > 11000; ALT_C3 < 25000 ); ( -56,46 + 273,15 ); ( -131,21 + 0,00299 * ALT_C3 ) ) ) ST_1_C4KC=SE( ALT_C4 < 11000; ( ( 15,04 - 0,00649 * ALT_C4 ) + 273,15 ); SE( E( ALT_C4 > 11000; ALT_C4 < 25000 ); ( -56,46 + 273,15 ); ( -131,21 + 0,00299 * ALT_C4 ) ) ) ST_1_C5KC=SE( ALT_C5 < 11000; ( ( 15,04 - 0,00649 * ALT_C5 ) + 273,15 ); SE( E( ALT_C5 > 11000; ALT_C5 < 25000 ); ( -56,46 + 273,15 ); ( -131,21 + 0,00299 * ALT_C5 ) ) ) ST_2_C1KC=T_2_C1 - ( U_2_AXI^2 ) / ( 2 * CP0_AIR * 1000 ) ST_2_C2KC=T_2_C2 - ( U_2_AXI^2 ) / ( 2 * CP0_AIR * 1000 ) ST_2_C3KC=T_2_C3 - ( U_2_AXI^2 ) / ( 2 * CP0_AIR * 1000 ) ST_2_C4KC=T_2_C4 - ( U_2_AXI^2 ) / ( 2 * CP0_AIR * 1000 ) ST_2_C5KC=T_2_C5 - ( U_2_AXI^2 ) / ( 2 * CP0_AIR * 1000 ) ST_3_C1KC=T_3_C1 / (P_3_C1 / SP_3_C1)^( ( GAMA_GAS - 1 ) / GAMA_GAS ) ST_3_C2KC=T_3_C2 / (P_3_C2 / SP_3_C2)^( ( GAMA_GAS - 1 ) / GAMA_GAS ) ST_3_C3KC=T_3_C3 / (P_3_C3 / SP_3_C3)^( ( GAMA_GAS - 1 ) / GAMA_GAS ) ST_3_C4KC=T_3_C5 / (P_3_C5 / SP_3_C5)^( ( GAMA_GAS - 1 ) / GAMA_GAS ) ST_3_C5KC=T_3_C4 / (P_3_C4 / SP_3_C4)^( ( GAMA_GAS - 1 ) / GAMA_GAS ) ST_4_C1KC1688,94=T_4_C1 / ( P_4_C1 / SP_4_C1 )^( ( GAMA_GAS - 1 ) / GAMA_GAS ) ST_4_C2KC1332,52=T_4_C2 / ( P_4_C2 / SP_4_C2 )^( ( GAMA_GAS - 1 ) / GAMA_GAS ) ST_4_C3KC1510,60=T_4_C3 / ( P_4_C3 / SP_4_C3 )^( ( GAMA_GAS - 1 ) / GAMA_GAS ) ST_4_C4KC1176,78=T_4_C4 / ( P_4_C4 / SP_4_C4 )^( ( GAMA_GAS - 1 ) / GAMA_GAS ) ST_4_C5KC1723,37=T_4_C5 / ( P_4_C5 / SP_4_C5 )^( ( GAMA_GAS - 1 ) / GAMA_GAS ) T_1_C1T_1_C1KC=ST_1_C1 + ( ( MACH_1_C1 * ( GAMA_AIR * R_AIR * ST_1_C1 )^0,5 )^2 ) / ( 2 * CP0_AIR * 1000 ) T_1_C2KC=ST_1_C2 + ( ( MACH_1_C2 * ( GAMA_AIR * R_AIR * ST_1_C2 )^0,5 )^2 ) / ( 2 * CP0_AIR * 1000 ) T_1_C3KC=ST_1_C3 + ( ( MACH_1_C3 * ( GAMA_AIR * R_AIR * ST_1_C3 )^0,5 )^2 ) / ( 2 * CP0_AIR * 1000 ) T_1_C4KC=ST_1_C4 + ( ( MACH_1_C4 * ( GAMA_AIR * R_AIR * ST_1_C4 )^0,5 )^2 ) / ( 2 * CP0_AIR * 1000 ) T_1_C5KC=ST_1_C5 + ( ( MACH_1_C5 * ( GAMA_AIR * R_AIR * ST_1_C5 )^0,5 )^2 ) / ( 2 * CP0_AIR * 1000 ) T_2_C1KC=ST_1_C1 * ( 1 + ( ( GAMA_AIR - 1) / 2 ) *( MACH_1_C1^2 ) ) T_2_C2KC=ST_1_C2 * ( 1 + ( ( GAMA_AIR - 1) / 2 ) *( MACH_1_C2^2 ) ) T_2_C3KC=ST_1_C3 * ( 1 + ( ( GAMA_AIR - 1) / 2 ) *( MACH_1_C3^2 ) ) T_2_C4KC=ST_1_C4 * ( 1 + ( ( GAMA_AIR - 1) / 2 ) *( MACH_1_C4^2 ) ) T_2_C5T_2_C5KC=ST_1_C5 * ( 1 + ( ( GAMA_AIR - 1) / 2 ) *( MACH_1_C5^2 ) ) T_3_C1KC=( T_2_C1 / EFFIC_IS_COMPR ) * ( (P_3_C1 / P_2_C1 )^( ( GAMA_AIR - 1 ) / GAMA_AIR ) - 1 ) + T_2_C1 T_3_C2KC=( T_2_C2 / EFFIC_IS_COMPR ) * ( (P_3_C2 / P_2_C2 )^( ( GAMA_AIR - 1 ) / GAMA_AIR ) - 1 ) + T_2_C2 T_3_C3KC=( T_2_C3 / EFFIC_IS_COMPR ) * ( (P_3_C3 / P_2_C3 )^( ( GAMA_AIR - 1 ) / GAMA_AIR ) - 1 ) + T_2_C3 T_3_C4KC=( T_2_C4 / EFFIC_IS_COMPR ) * ( (P_3_C4 / P_2_C4 )^( ( GAMA_AIR - 1 ) / GAMA_AIR ) - 1 ) + T_2_C4 T_3_C5KC=( T_2_C5 / EFFIC_IS_COMPR ) * ( (P_3_C5 / P_2_C5 )^( ( GAMA_AIR - 1 ) / GAMA_AIR ) - 1 ) + T_2_C5 T_4_C1KC=T_DZ_OUT_C1 T_4_C2KC=T_DZ_OUT_C2 T_4_C3KC=T_DZ_OUT_C3 T_4_C4KC=T_DZ_OUT_C4 T_4_C5KC=T_DZ_OUT_C5 C668KC=T_DZ_OUT_C5 T_4_PEAK_C1KC= TQ_C1 * DEL_T_C1 + T_DZ_OUT_C1 T_4_PEAK_C2KC= TQ_C2 * DEL_T_C2 + T_DZ_OUT_C2 T_4_PEAK_C3KC= TQ_C3 * DEL_T_C3 + T_DZ_OUT_C3 T_4_PEAK_C4KC= TQ_C4 * DEL_T_C4 + T_DZ_OUT_C4 T_4_PEAK_C5KC= TQ_C5 * DEL_T_C5 + T_DZ_OUT_C5 T_RZ_IN_C1KC=T_3_C1 T_RZ_IN_C2KC=T_3_C2 T_RZ_IN_C3KC=T_3_C3 T_RZ_IN_C4KC=T_3_C4 T_RZ_IN_C5KC=T_3_C5 T_SZ_IN_C1KC=T_PZ_OUT_C1 T_SZ_IN_C2KC=T_PZ_OUT_C2 T_SZ_IN_C3KC=T_PZ_OUT_C3 T_SZ_IN_C4KC=T_PZ_OUT_C4 T_SZ_IN_C5KC=T_PZ_OUT_C5 T_DZ_IN_C1KC=T_SZ_OUT_C1 306 APNDICE A GTCD: Variveis, Funes e Procedimentos __________________________________________________________________________ VarivelUnidade de Medida Seletor[Adotado / Calculado (A / C)] Valor de Referncia OU Dado de Entrada Frmula ___________________________________________________________________________ T_DZ_IN_C2KC=T_SZ_OUT_C2 T_DZ_IN_C3KC=T_SZ_OUT_C3 T_DZ_IN_C4KC=T_SZ_OUT_C4 T_DZ_IN_C5KC=T_SZ_OUT_C5 T_RZ_OUT_MAX_C1KC=T_3_C1 + EFFIC_COMB_RZ_C1 * DEL_T_PHI_1_C1 T_RZ_OUT_MAX_C2KC=T_3_C2 + EFFIC_COMB_RZ_C2 * DEL_T_PHI_1_C2 T_RZ_OUT_MAX_C3KC=T_3_C3 + EFFIC_COMB_RZ_C3 * DEL_T_PHI_1_C3 T_RZ_OUT_MAX_C4KC=T_3_C4 + EFFIC_COMB_RZ_C4 * DEL_T_PHI_1_C4 T_RZ_OUT_MAX_C5KC=T_3_C5 + EFFIC_COMB_RZ_C5 * DEL_T_PHI_1_C5 T_RZ_OUT_MEAN_C1KC=( 1 / 3 ) * T_3_C1 + ( 2 /3 ) * T_RZ_OUT_MAX_C1 T_RZ_OUT_MEAN_C2KC=( 1 / 3 ) * T_3_C2 + ( 2 /3 ) * T_RZ_OUT_MAX_C2 T_RZ_OUT_MEAN_C3KC=( 1 / 3 ) * T_3_C3 + ( 2 /3 ) * T_RZ_OUT_MAX_C3 T_RZ_OUT_MEAN_C4KC=( 1 / 3 ) * T_3_C4 + ( 2 /3 ) * T_RZ_OUT_MAX_C4 T_RZ_OUT_MEAN_C5KC=( 1 / 3 ) * T_3_C5 + ( 2 /3 ) * T_RZ_OUT_MAX_C5 T_PZ_OUT_C1KA1910,80=T_3_C1 + EFFIC_COMB_PZ_C1 * DEL_T_C1 -55 T_PZ_OUT_C2KA1621,70=T_3_C2 + EFFIC_COMB_PZ_C2 * DEL_T_C2 -55 T_PZ_OUT_C3KA1741,71=T_3_C3 + EFFIC_COMB_PZ_C3 * DEL_T_C3 -55 T_PZ_OUT_C4KA1513,16=T_3_C4 + EFFIC_COMB_PZ_C4 * DEL_T_C4 T_PZ_OUT_C5KA1949,28=T_3_C5 + EFFIC_COMB_PZ_C5 * DEL_T_C5 -55 T_SZ_OUT_C1KA2005,72=T_3_C1 + EFFIC_COMB_SZ_C1 * DEL_T_C1 T_SZ_OUT_C2KA1719,06=T_3_C2 + EFFIC_COMB_SZ_C2 * DEL_T_C2 -55 T_SZ_OUT_C3KA1867,59=T_3_C3 + EFFIC_COMB_SZ_C3 * DEL_T_C3 T_SZ_OUT_C4KA1600,53=T_3_C4 + EFFIC_COMB_SZ_C4 * DEL_T_C4 T_SZ_OUT_C5KA2031,50=T_3_C5 + EFFIC_COMB_SZ_C5 * DEL_T_C5 T_DZ_OUT_C1KA1738,23=T_3_C1 + EFFIC_COMB_DZ_C1 * DEL_T_C1 T_DZ_OUT_C2KA1536,35=T_3_C2 + EFFIC_COMB_DZ_C2 * DEL_T_C2 T_DZ_OUT_C3KA1614,26=T_3_C3 + EFFIC_COMB_DZ_C3 * DEL_T_C3 T_DZ_OUT_C4KA1403,65=T_3_C4 + EFFIC_COMB_DZ_C4 * DEL_T_C4 T_DZ_OUT_C5KA1766,34=T_3_C5 + EFFIC_COMB_DZ_C5 * DEL_T_C5 T_RZ_INKC=SE( COND"C1"; T_RZ_IN_C1; SE( COND"C2"; T_RZ_IN_C2;SE( COND"C3"; T_RZ_IN_C3;SE( COND"C4"; T_RZ_IN_C4;T_RZ_IN_C5 ) ) ) ) T_SZ_INKC=SE( COND"C1"; T_SZ_IN_C1; SE( COND"C2"; T_SZ_IN_C2;SE( COND"C3"; T_SZ_IN_C3;SE( COND"C4"; T_SZ_IN_C4;T_SZ_IN_C5 ) ) ) ) T_DZ_INKC=SE( COND"C1"; T_DZ_IN_C1; SE( COND"C2"; T_DZ_IN_C2;SE( COND"C3"; T_DZ_IN_C3;SE( COND"C4"; T_DZ_IN_C4;T_DZ_IN_C5 ) ) ) ) T_RZ_OUT_MEANKC=SE( COND"C1"; T_RZ_OUT_MEAN_C1; SE( COND"C2"; T_RZ_OUT_MEAN_C2;SE( COND"C3"; T_RZ_OUT_MEAN_C3;SE( COND"C4"; T_RZ_OUT_MEAN_C4;T_RZ_OUT_MEAN_C5 ) ) ) ) T_RZ_OUT_MAXKC=SE( COND"C1"; T_RZ_OUT_MAX_C1; SE( COND"C2"; T_RZ_OUT_MAX_C2;SE( COND"C3"; T_RZ_OUT_MAX_C3;SE( COND"C4"; T_RZ_OUT_MAX_C4;T_RZ_OUT_MAX_C5 ) ) ) ) T_PZ_OUTKC=SE( COND"C1"; T_RZ_OUT_MAX_C1; SE( COND"C2"; T_RZ_OUT_MAX_C2;SE( COND"C3"; T_RZ_OUT_MAX_C3;SE( COND"C4"; T_RZ_OUT_MAX_C4;T_RZ_OUT_MAX_C5 ) ) ) ) T_SZ_OUTKC=SE( COND"C1"; T_SZ_OUT_C1; SE( COND"C2"; T_SZ_OUT_C2;SE( COND"C3"; T_SZ_OUT_C3;SE( COND"C4"; T_SZ_OUT_C4;T_SZ_OUT_C5 ) ) ) ) T_DZ_OUTKC=SE( COND"C1"; T_DZ_OUT_C1; SE( COND"C2"; T_DZ_OUT_C2;SE( COND"C3"; T_DZ_OUT_C3;SE( COND"C4"; T_DZ_OUT_C4;T_DZ_OUT_C5 ) ) ) ) T_GKC1659,00=SE( E( ( DIF + X ) > 0; ( DIF + X ) < L_RZ ); ( ( T_RZ_OUT_MEAN - T_3 ) * ( ( DIF + X ) / L_RZ ) + T_3 ); SE( E( ( DIF + X ) > L_RZ; ( DIF + X ) < L_PZ_H2 ); ( ( T_PZ_OUT - T_3 ) * ( ( DIF + X ) / L_PZ ) + T_3 ); SE( E( ( DIF + X ) > L_PZ_H2; ( DIF + X ) < ( L_PZ + L_SZ ) ); ( ( T_SZ_OUT - T_3 )* ( ( DIF + X ) / ( L_PZ + L_SZ ) ) + T_3 ); SE( E( ( DIF + X ) > ( L_PZ + L_SZ ); ( DIF + X ) < ( L_PZ + L_SZ + L_DZ )); ( ( T_DZ_OUT - T_3 ) * ( ( DIF + X ) / ( L_PZ + L_SZ + L_DZ ) ) + T_3 ); ( "DIF e X Devem ser Positivo" ) ) ) ) ) T_CKA885,00= T_W_1KC=( SBC * ( ( EMIS_W * EMIS_CAS) / ( EMIS_CAS + EMIS_W * ( 1 - EMIS_CAS ) * ( D_SEL / D_FT_SEL ) ) ) * ( T_W_2^4 - T_3^4 ) + ( ( K_W / TH_W ) + 0,02 * ( K_A / ( D_H_ANN^0,2) ) * ( ( M_A / ( A_A * DV_A ) )^0,8 ) ) * T_W_2 - 0,02 * ( K_A / ( D_H_ANN^0,2) ) * ( ( M_A / ( A_A * DV_A ) )^0,8 ) * T_3 ) / ( K_W / TH_W ) T_W_2KA1026,04= T_WKA955,00= T_W_ADIKC=T_G - ( T_G - T_A ) * EFFIC_C T_W_MAXKA1250,00= T_AKC=SE( COND"C1"; T_3_C1; SE( COND"C2"; T_3_C2;SE( COND"C3"; T_3_C3;SE( COND"C4"; T_3_C4;T_3_C5 ) ) ) ) T_3KC=SE( COND"C1"; T_3_C1; SE( COND"C2"; T_3_C2;SE( COND"C3"; T_3_C3;SE( COND"C4"; T_3_C4;T_3_C5 ) ) ) ) T_4KC=SE( COND"C1"; T_4_C1; SE( COND"C2"; T_4_C2;SE( COND"C3"; T_4_C3;SE( COND"C4"; T_4_C4;T_4_C5 ) ) ) ) ST_3KC=SE( COND"C1"; ST_3_C1; SE( COND"C2"; ST_3_C2;SE( COND"C3"; ST_3_C3;SE( COND"C4"; ST_3_C4;ST_3_C5 ) ) ) ) ST_4KC=SE( COND"C1"; ST_4_C1; SE( COND"C2"; ST_4_C2;SE( COND"C3"; ST_4_C3;SE( COND"C4"; ST_4_C4;ST_4_C5 ) ) ) ) ST_GKC1659,00=SE( E( ( DIF + X ) > 0; ( DIF + X ) < L_RZ ); ( ( T_RZ_OUT_MEAN - ( ( ( M_3 + MF ) / ( DENS_G * A_FT_SEL ) )^2 ) / ( 2 * CP0_GAS * 1000 ) - ST_3 ) * ( ( DIF + X ) / L_RZ ) + ST_3 ); SE( E( ( DIF + X ) > L_RZ; ( DIF + X ) < L_PZ_H2 ); ( ( T_PZ_OUT - ( ( ( M_3 + MF ) / ( DENS_G * A_FT_SEL ) )^2 ) / ( 2 * CP0_GAS * 1000 ) - ST_3 ) * ( ( DIF + X ) / L_PZ ) + ST_3 ); SE( E( ( DIF + X ) > L_PZ_H2; ( DIF + X ) < ( L_PZ + L_SZ ) ); ( ( T_SZ_OUT - ( ( ( M_3 + MF ) / ( DENS_G * A_FT_SEL ) )^2 ) / ( 2 * CP0_GAS * 1000 ) - ST_3 )* ( ( DIF + X ) / ( L_PZ + L_SZ ) ) + ST_3 ); SE( E( ( DIF + X ) > ( L_PZ + L_SZ ); ( DIF + X ) < ( L_PZ + L_SZ + L_DZ )); ( ( T_DZ_OUT - ( ( ( M_3 + MF ) / ( DENS_G * A_4 ) )^2 ) / ( 2 * CP0_GAS * 1000 ) - ST_3 ) * ( ( DIF + X ) / ( L_PZ + L_SZ + L_DZ ) ) + ST_3 ); ( "DIF e X Devem ser Positivo" ) ) ) ) ) DEL_T_34_C1_MINKC=1600 - T_3_C1 DEL_T_34_C2_MINKC=1600 - T_3_C2 DEL_T_34_C3_MINKC=1600 - T_3_C3 DEL_T_34_C4_MINKC=1600 - T_3_C4 307 APNDICE A GTCD: Variveis, Funes e Procedimentos __________________________________________________________________________ VarivelUnidade de Medida Seletor[Adotado / Calculado (A / C)] Valor de Referncia OU Dado de Entrada Frmula ___________________________________________________________________________ DEL_T_34_C5_MINKC=1600 - T_3_C5 DEL_T_200KC=SE(FTY 1; ( SE( PHI < 0,6; 180 + 2100 * PHI; SE( E( PHI > 0,6; PHI < 1,05); -10427,50742 + 57952,89205 * PHI - 108999,76042 * PHI^2 + 93576,27724 * PHI^3 - 30028,10369 * PHI^4; 2910 - 800 * PHI ) ) ); ( SE( PHI < 0,5; 5001,6 * PHI^3 - 5530 * PHI^2 + 4223,3 * PHI - 98,03; SE( E( PHI > 0,5; PHI < 1,5); -47068 * PHI^6 + 282032 * PHI^5 - 680303 * PHI^4 + 842814 * PHI^3 - 566161 * PHI^2 + 197668 * PHI - 26976; 99,622 * PHI^2 - 977,97 * PHI + 2905,6 ) ) ) ) DEL_T_300KC=SE(FTY 1; ( SE( PHI < 0,6; 200 + 2000 * PHI; SE( E( PHI > 0,6; PHI < 1,05 ); -14173,858838 + 75201,98419 * PHI - 138557,29108 * PHI^2 + 115778,641 * PHI^3 - 36218,684 * PHI^4; 2870 - 800 * PHI ) ) ); ( SE( PHI < 0,5; 5370,6 * PHI^3 - 5823 * PHI^2 + 4260 * PHI - 106,38; SE( E( PHI > 0,5; PHI < 1,5); -50269 * PHI^6 + 298443 * PHI^5 - 712736 * PHI^4 + 873417 * PHI^3 - 579720 * PHI^2 + 199773 * PHI - 26919; 98,767 * PHI^2 - 974,47 * PHI + 2876,7) ) ) ) KC=SE(FTY 1; ( SE( PHI < 0,6; 180 + 2000 * PHI; SE( E( PHI > 0,6; PHI < 1,1 ); -6384,14775 + 37254,98419 * PHI - 70126,5145 * PHI^2 + 61401,56817 * PHI^3 - 20164,05843 * PHI^4; 2830 - 800 * PHI) ) ); ( SE( PHI < 0,5; 5202,4 * PHI^3 - 5642,2 * PHI^2 + 4168,4 * PHI - 103,97; SE( E( PHI > 0,5; PHI < 1,5); -44710 * PHI^6 + 264695 * PHI^5 - 629794 * PHI^4 + 768065 * PHI^3 - 506922 * PHI^2 + 173837 * PHI - 23215; 97,844 * PHI^2 - 968,61 * PHI + 2848,5) ) ) ) DEL_T_500KC=SE(FTY 1; ( SE( PHI < 0,6; 160 + 2000 * PHI; SE( E( PHI > 0,6; PHI < 1,075); -6700,60226 + 38834,42452 * PHI - 73133,55029 * PHI^2 + 63776,62762 * PHI^3 - 20840,52264 * PHI^4; 2790 - 800 * PHI ) ) ); ( SE( PHI < 0,5; 5007,1 * PHI^3 - 5434,8 * PHI^2 + 4060,6 * PHI - 53,254; SE( E( PHI > 0,5; PHI < 1,5); -30790 * PHI^6 + 185519 * PHI^5 - 449298 * PHI^4 + 557870 * PHI^3 - 375379 * PHI^2 + 131853 * PHI - 17835; 96,081 * PHI^2 - 955,03 * PHI + 2857,1 ) ) ) ) DEL_T_600KC=SE(FTY 1; ( SE( PHI < 0,55; 180 + 1900 * PHI; SE( E( PHI > 0,55; PHI < 1,1 ); -3589,65632 + 22750,66994 * PHI - 42579,08256 * PHI^2 + 38269,40418 * PHI^3 - 12966,27605 * PHI^4; 2750 - 800 * PHI ) ) ); ( SE( PHI < 0,5; 4957,7 * PHI^3 - 5381,9 * PHI^2 + 4031,4 * PHI - 103,38; SE( E( PHI > 0,5; PHI < 1,5); -27874 * PHI^6 + 168121 * PHI^5 - 407399 * PHI^4 + 505889 * PHI^3 - 340398 * PHI^2 + 119735 * PHI - 16202; 95,349 * PHI^2 - 949,18 * PHI + 2793,3 ) ) ) ) DEL_T_700KC=SE(FTY 1; (SE( PHI < 0,55; 110 + 2000 * PHI; SE( E( PHI > 0,55; PHI < 1,1 ); -1927,26224 + 13835,44743 * PHI - 25127,45691 * PHI^2 + 23290,67625 * PHI^3 - 8237,93229 * PHI^4; 2715 - 800 * PHI ) ) ); ( SE( PHI < 0,5; 2615,6 * PHI^3 - 3647,2 * PHI^2 + 3625 * PHI - 82,022; SE( E( PHI > 0,5; PHI < 1,5); -21821 * PHI^6 + 131922 * PHI^5 - 320060 * PHI^4 + 397383 * PHI^3 - 267307 * PHI^2 + 94401 * PHI - 12680; 93,458 * PHI^2 - 934,74 * PHI + 2764,6) ) ) ) DEL_T_800KC=SE(FTY 1; ( SE( PHI < 0,6; 130 + 1900 * PHI; SE( E( PHI > 0,6; PHI < 1,2 ); -1490,71367 + 11385,96759 * PHI - 20298,11337 * PHI^2 + 19057,19145 * PHI^3 - 6870,14998 * PHI^4; 2680 - 800 * PHI) ) ); ( SE( PHI < 0,5; 2566,6 * PHI^3 - 3589,5 * PHI^2 + 3583,6 * PHI - 82,344; SE( E( PHI > 0,5; PHI < 1,5); -15850 * PHI^6 + 96114 * PHI^5 - 233456 * PHI^4 + 289619 * PHI^3 - 194667 * PHI^2 + 69221 * PHI - 9179;90,816 * PHI^2 - 915,95 * PHI + 2733,1 ) ) ) ) DEL_T_900KC=SE(FTY 1; (SE( PHI < 0,5; 110 + 1900 * PHI; SE( E( PHI > 0,5; PHI < 1,2 ); 744,55657 -939,21013 * PHI + 4388,81623 * PHI^2 - 2469,98089 * PHI^3; 2575 - 750 * PHI ) )); ( SE( PHI < 0,5; 2514,2 * PHI^3 - 3533,7 * PHI^2 + 3544,6 * PHI - 82,194; SE( E( PHI > 0,5; PHI < 1,5); -10497 * PHI^6 + 63889 * PHI^5 - 155317 * PHI^4 + 192261 * PHI^3 - 129037 * PHI^2 + 46485 * PHI - 6021; 87,099 * PHI^2 - 891,37 * PHI + 2696,2 ) ) ) ) DEL_T_1000KC=SE(FTY 1; ( SE( PHI < 0,5; 10 + 2100 * PHI; SE( E( PHI > 0,5; PHI < 1,2 ); 519,82868 - 72,98709 * PHI + 3195,77851 * PHI^2 - 1970,21699 * PHI^3; 2535 - 750 * PHI ) ) ); ( SE( PHI < 0,5; 2454 * PHI^3 - 3476,5 * PHI^2 + 3506,3 * PHI - 81,659; SE( E( PHI > 0,5; PHI < 1,5); -6208,6 * PHI^6 + 37979 * PHI^5 - 92346 * PHI^4 + 113776 * PHI^3 - 76214 * PHI^2 + 28230 * PHI - 3493,1; 81,888 * PHI^2 - 859,1 * PHI + 2650,8 ) ) ) ) DEL_T_C1KC=SE( E( T_3_C1 > 200; T_3_C1 < 300 ); ( -( 300 - T_3_C1 ) * ( DEL_T_300 - DEL_T_200 ) / 100+ DEL_T_300 );SE( E( T_3_C1 > 300; T_3_C1 < 400 );( -( 400 - T_3_C1 ) * ( DEL_T_400 - DEL_T_300 ) / 100+ DEL_T_400 );SE( E( T_3_C1 > 400; T_3_C1 < 500 ); ( -( 500 - T_3_C1 ) * ( DEL_T_500 - DEL_T_400 ) / 100+ DEL_T_500 );SE( E( T_3_C1 > 500; T_3_C1 < 600 ); ( -( 600 - T_3_C1 ) * ( DEL_T_600 - DEL_T_500 ) / 100+ DEL_T_600 );SE( E( T_3_C1 > 600; T_3_C1 < 700 ); ( -( 700 - T_3_C1 ) * ( DEL_T_700 - DEL_T_600 ) / 100+ DEL_T_700 );SE( E( T_3_C1 > 700; T_3_C1 < 800 ); ( -( 800 - T_3_C1 ) * ( DEL_T_800 - DEL_T_700 ) / 100+ DEL_T_800 );SE( E( T_3_C1 > 800; T_3_C1 < 900 ); ( -( 900 - T_3_C1 ) * ( DEL_T_900 - DEL_T_800 ) / 100+ DEL_T_900 );SE( E( T_3_C1 > 900; T_3_C1 < 1000 ); ( -( 1000 - T_3_C1 ) * ( DEL_T_1000 - DEL_T_900 ) / 100+ DEL_T_1000 );( -( 1000 - T_3_C1 ) * ( DEL_T_1000 - DEL_T_900 ) / 100+ DEL_T_1000 ) ) ) ) ) ) ) ) ) DEL_T_C2KC=SE( E( T_3_C2 > 200; T_3_C2 < 300 ); ( -( 300 - T_3_C2 ) * ( DEL_T_300 - DEL_T_200 ) / 100+ DEL_T_300 );SE( E( T_3_C2 > 300; T_3_C2 < 400 );( -( 400 - T_3_C2 ) * ( DEL_T_400 - DEL_T_300 ) / 100+ DEL_T_400 );SE( E( T_3_C2 > 400; T_3_C2 < 500 ); ( -( 500 - T_3_C2 ) * ( DEL_T_500 - DEL_T_400 ) / 100+ DEL_T_500 );SE( E( T_3_C2 > 500; T_3_C2 < 600 ); ( -( 600 - T_3_C2 ) * ( DEL_T_600 - DEL_T_500 ) / 100+ DEL_T_600 );SE( E( T_3_C2 > 600; T_3_C2 < 700 ); ( -( 700 - T_3_C2 ) * ( DEL_T_700 - DEL_T_600 ) / 100+ DEL_T_700 );SE( E( T_3_C2 > 700; T_3_C2 < 800 ); ( -( 800 - T_3_C2 ) * ( DEL_T_800 - DEL_T_700 ) / 100+ DEL_T_800 );SE( E( T_3_C2 > 800; T_3_C2 < 900 ); ( -( 900 - T_3_C2 ) * ( DEL_T_900 - DEL_T_800 ) / 100+ DEL_T_900 );SE( E( T_3_C2 > 900; T_3_C2 < 1000 ); ( -( 1000 - T_3_C2 ) * ( DEL_T_1000 - DEL_T_900 ) / 100+ DEL_T_1000 );( -( 1000 - T_3_C2 ) * ( DEL_T_1000 - DEL_T_900 ) / 100+ DEL_T_1000 ) ) ) ) ) ) ) ) ) DEL_T_C3KC=SE( E( T_3_C3 > 200; T_3_C3 < 300 ); ( -( 300 - T_3_C3 ) * ( DEL_T_300 - DEL_T_200 ) / 100+ DEL_T_300 );SE( E( T_3_C3 > 300; T_3_C3 < 400 );( -( 400 - T_3_C3 ) * ( DEL_T_400 - DEL_T_300 ) / 100+ DEL_T_400 );SE( E( T_3_C3 > 400; T_3_C3 < 500 ); ( -( 500 - T_3_C3 ) * ( DEL_T_500 - DEL_T_400 ) / 100+ DEL_T_500 );SE( E( T_3_C3 > 500; T_3_C3 < 600 ); ( -( 600 - T_3_C3 ) * ( DEL_T_600 - DEL_T_500 ) / 100+ DEL_T_600 );SE( E( T_3_C3 > 600; T_3_C3 < 700 ); ( -( 700 - T_3_C3 ) * ( DEL_T_700 - DEL_T_600 ) / 100+ DEL_T_700 );SE( E( T_3_C3 > 700; T_3_C3 < 800 ); ( -( 800 - T_3_C3 ) * ( DEL_T_800 - DEL_T_700 ) / 100+ DEL_T_800 );SE( E( T_3_C3 > 800; T_3_C3 < 900 ); ( -( 900 - T_3_C3 ) * ( DEL_T_900 - DEL_T_800 ) / 100+ DEL_T_900 );SE( E( T_3_C3 > 308 APNDICE A GTCD: Variveis, Funes e Procedimentos __________________________________________________________________________ VarivelUnidade de Medida Seletor[Adotado / Calculado (A / C)] Valor de Referncia OU Dado de Entrada Frmula ___________________________________________________________________________ 900; T_3_C3 < 1000 ); ( -( 1000 - T_3_C3 ) * ( DEL_T_1000 - DEL_T_900 ) / 100+ DEL_T_1000 );( -( 1000 - T_3_C3 ) * ( DEL_T_1000 - DEL_T_900 ) / 100+ DEL_T_1000 ) ) ) ) ) ) ) ) ) DEL_T_C4KC=SE( E( T_3_C4 > 200; T_3_C4 < 300 ); ( -( 300 - T_3_C4 ) * ( DEL_T_300 - DEL_T_200 ) / 100+ DEL_T_300 );SE( E( T_3_C4 > 300; T_3_C4 < 400 );( -( 400 - T_3_C4 ) * ( DEL_T_400 - DEL_T_300 ) / 100+ DEL_T_400 );SE( E( T_3_C4 > 400; T_3_C4 < 500 ); ( -( 500 - T_3_C4 ) * ( DEL_T_500 - DEL_T_400 ) / 100+ DEL_T_500 );SE( E( T_3_C4 > 500; T_3_C4 < 600 ); ( -( 600 - T_3_C4 ) * ( DEL_T_600 - DEL_T_500 ) / 100+ DEL_T_600 );SE( E( T_3_C4 > 600; T_3_C4 < 700 ); ( -( 700 - T_3_C4 ) * ( DEL_T_700 - DEL_T_600 ) / 100+ DEL_T_700 );SE( E( T_3_C4 > 700; T_3_C4 < 800 ); ( -( 800 - T_3_C4 ) * ( DEL_T_800 - DEL_T_700 ) / 100+ DEL_T_800 );SE( E( T_3_C4 > 800; T_3_C4 < 900 ); ( -( 900 - T_3_C4 ) * ( DEL_T_900 - DEL_T_800 ) / 100+ DEL_T_900 );SE( E( T_3_C4 > 900; T_3_C4 < 1000 ); ( -( 1000 - T_3_C4 ) * ( DEL_T_1000 - DEL_T_900 ) / 100+ DEL_T_1000 );( -( 1000 - T_3_C4 ) * ( DEL_T_1000 - DEL_T_900 ) / 100+ DEL_T_1000 ) ) ) ) ) ) ) ) ) DEL_T_C5KC=SE( E( T_3_C5 > 200; T_3_C5 < 300 ); ( -( 300 - T_3_C5 ) * ( DEL_T_300 - DEL_T_200 ) / 100+ DEL_T_300 );SE( E( T_3_C5 > 300; T_3_C5 < 400 );( -( 400 - T_3_C5 ) * ( DEL_T_400 - DEL_T_300 ) / 100+ DEL_T_400 );SE( E( T_3_C5 > 400; T_3_C5 < 500 ); ( -( 500 - T_3_C5 ) * ( DEL_T_500 - DEL_T_400 ) / 100+ DEL_T_500 );SE( E( T_3_C5 > 500; T_3_C5 < 600 ); ( -( 600 - T_3_C5 ) * ( DEL_T_600 - DEL_T_500 ) / 100+ DEL_T_600 );SE( E( T_3_C5 > 600; T_3_C5 < 700 ); ( -( 700 - T_3_C5 ) * ( DEL_T_700 - DEL_T_600 ) / 100+ DEL_T_700 );SE( E( T_3_C5 > 700; T_3_C5 < 800 ); ( -( 800 - T_3_C5 ) * ( DEL_T_800 - DEL_T_700 ) / 100+ DEL_T_800 );SE( E( T_3_C5 > 800; T_3_C5 < 900 ); ( -( 900 - T_3_C5 ) * ( DEL_T_900 - DEL_T_800 ) / 100+ DEL_T_900 );SE( E( T_3_C5 > 900; T_3_C5 < 1000 ); ( -( 1000 - T_3_C5 ) * ( DEL_T_1000 - DEL_T_900 ) / 100+ DEL_T_1000 );( -( 1000 - T_3_C5 ) * ( DEL_T_1000 - DEL_T_900 ) / 100+ DEL_T_1000 ) ) ) ) ) ) ) ) ) DEL_T_PHI_1_C1KC=SE( FTY1;-0,5092 * T_3_C1 + 2188,8; SE(FTY2; -0,000000000006 * T_3_C1^5 + 0,00000002 * T_3_C1^4 - 0,00002 * T_3_C1^3 + 0,008 * T_3_C1^2 - 1,8493 * T_3_C1 + 2169,8; "" ) ) DEL_T_PHI_1_C2KC=SE( FTY1;-0,5092 * T_3_C2 + 2188,8; SE(FTY2; -0,000000000006 * T_3_C2^5 + 0,00000002 * T_3_C2^4 - 0,00002 * T_3_C2^3 + 0,008 * T_3_C2^2 - 1,8493 * T_3_C2 + 2169,8; "" ) ) DEL_T_PHI_1_C3KC=SE( FTY1;-0,5092 * T_3_C3 + 2188,8; SE(FTY2; -0,000000000006 * T_3_C3^5 + 0,00000002 * T_3_C3^4 - 0,00002 * T_3_C3^3 + 0,008 * T_3_C3^2 - 1,8493 * T_3_C3 + 2169,8; "" ) ) DEL_T_PHI_1_C4KC=SE( FTY1;-0,5092 * T_3_C4 + 2188,8; SE(FTY2; -0,000000000006 * T_3_C4^5 + 0,00000002 * T_3_C4^4 - 0,00002 * T_3_C4^3 + 0,008 * T_3_C4^2 - 1,8493 * T_3_C4 + 2169,8; "" ) ) DEL_T_PHI_1_C5KC=SE( FTY1; -0,5092 * T_3_C5 + 2188,8; SE(FTY2; -0,000000000006 * T_3_C1^5 + 0,00000002 * T_3_C1^4 - 0,00002 * T_3_C1^3 + 0,008 * T_3_C1^2 - 1,8493 * T_3_C1 + 2169,8; "" ) ) R_1W/m2C=( 0,5 ) * SBC * ( 1 + EMIS_W ) * EMIS_G * ( T_G^1,5 ) * ( (T_G^2,5) - ( T_W_1^2,5 ) ) R_2W/m2C=SBC * ( ( EMIS_W * EMIS_CAS) / ( EMIS_CAS + EMIS_W * ( 1 - EMIS_CAS ) * ( D_SEL / D_FT_SEL ) ) ) * ( T_W_2^4 - T_3^4) C_1W/m2C=SE( WTY1;( 0,02 * ( K_G / ( D_FT_SEL^0,2) ) * ( ( M_G / ( A_FT_SEL * DV_G ) )^0,8 ) * ( T_G - T_W_1 ) ); SE( E(RAT_M_U > 0,5; RAT_M_U < 1,3);0,069 * ( K_A / X ) * ( RE_X^0,7 ) * ( T_WI - T_W_1 ); SE( RAT_M_U > 1,3; 0,1 * ( K_A / X ) * ( RE_X^0,8 ) * ( ( X / HT_SL)^(-0,36) ) * ( T_WI - T_W_1 ); "ABAIXO DA FAIXA DERAT_M_U") ) ) C_2W/m2C=0,02 * ( K_A / ( D_H_ANN^0,2) ) * ( ( M_A / ( A_A * DV_A ) )^0,8 ) * ( T_W_2 - T_3 ) K_12W/m2C=( K_W / TH_W ) * ( T_W_1 - T_W_2 ) DEL_C1R1_C2R2W/m2C=( C_1 + R_1 ) - ( C_2 + R_2 ) TQ_C1-A0,20=( T_4_PEAK_C1 - T_DZ_OUT_C1) / DEL_T_C1 TQ_C2-A0,20=( T_4_PEAK_C2 - T_DZ_OUT_C2) / DEL_T_C2 TQ_C3-A0,20=( T_4_PEAK_C3 - T_DZ_OUT_C3) / DEL_T_C3 TQ_C4-A0,20=( T_4_PEAK_C4 - T_DZ_OUT_C4) / DEL_T_C4 TQ_C5-A0,20=( T_4_PEAK_C5 - T_DZ_OUT_C5) / DEL_T_C5 B_FACTOR_C1-C=SE( E( PHI_PZ_C1 < 1; PHI_PZ_C1 > 0,6 ); ( 245 * ( 1,39 + LN( PHI_PZ_C1 ) ) ); SE( E( PHI_PZ_C1 < 1,4; PHI_PZ_C1 > 1 ); ( 170 * ( 2 - LN( PHI_PZ_C1 ) ) );SE( E( PHI_PZ_C1 < 1,8; PHI_PZ_C1 > 1 ); ( 170 * ( 2 - LN( PHI_PZ_C1 ) ) );SE( E( PHI_PZ_C1 < 0,6; PHI_PZ_C1 > 0 ); ( 245 * ( 1,39 + LN( PHI_PZ_C1 ) ) ); "" ) ) ) ) B_FACTOR_C2-C=SE( E( PHI_PZ_C2 < 1; PHI_PZ_C2 > 0,6 ); ( 245 * ( 1,39 + LN( PHI_PZ_C2 ) ) ); SE( E( PHI_PZ_C2 < 1,4; PHI_PZ_C2 > 1 ); ( 170 * ( 2 - LN( PHI_PZ_C2 ) ) );SE( E( PHI_PZ_C2 < 1,8; PHI_PZ_C2 > 1 ); ( 170 * ( 2 - LN( PHI_PZ_C2 ) ) );SE( E( PHI_PZ_C2 < 0,6; PHI_PZ_C2 > 0 ); ( 245 * ( 1,39 + LN( PHI_PZ_C2 ) ) ); "" ) ) ) ) B_FACTOR_C3B_FACTOR_C3 -C=SE( E( PHI_PZ_C3 < 1; PHI_PZ_C3 > 0,6 ); ( 245 * ( 1,39 + LN( PHI_PZ_C3 ) ) ); SE( E( PHI_PZ_C3 < 1,4; PHI_PZ_C3 > 1 ); ( 170 * ( 2 - LN( PHI_PZ_C3 ) ) );SE( E( PHI_PZ_C3 < 1,8; PHI_PZ_C3 > 1 ); ( 170 * ( 2 - LN( PHI_PZ_C3 ) ) );SE( E( PHI_PZ_C3 < 0,6; PHI_PZ_C3 > 0 ); ( 245 * ( 1,39 + LN( PHI_PZ_C3 ) ) ); "" ) ) ) ) B_FACTOR_C4-C=SE( E( PHI_PZ_C4 < 1; PHI_PZ_C4 > 0,6 ); ( 245 * ( 1,39 + LN( PHI_PZ_C4 ) ) ); SE( E( PHI_PZ_C4 < 1,4; PHI_PZ_C4 > 1 ); ( 170 * ( 2 - LN( PHI_PZ_C4 ) ) );SE( E( PHI_PZ_C4 < 1,8; PHI_PZ_C4 > 1 ); ( 170 * ( 2 - LN( PHI_PZ_C4 ) ) );SE( E( PHI_PZ_C4 < 0,6; PHI_PZ_C4 > 0 ); ( 245 * ( 1,39 + LN( PHI_PZ_C4 ) ) ); "" ) ) ) ) B_FACTOR_C5-C=SE( E( PHI_PZ_C5 < 1; PHI_PZ_C5 > 0,6 ); ( 245 * ( 1,39 + LN( PHI_PZ_C5 ) ) ); SE( E( PHI_PZ_C5 < 1,4; PHI_PZ_C5 > 1 ); ( 170 * ( 2 - LN( PHI_PZ_C5 ) ) );SE( E( PHI_PZ_C5 < 1,8; PHI_PZ_C5 > 1 ); ( 170 * ( 2 - LN( PHI_PZ_C5 ) ) );SE( E( PHI_PZ_C5 < 0,6; PHI_PZ_C5 > 0 ); ( 245 * ( 1,39 + LN( PHI_PZ_C5 ) ) ); "" ) ) ) ) THETA_C1-A73000000,00 =( ( P_3_C1^1,75 ) * A_REF_AC_C1 * ( D_REF_CC_C1^0,75 ) * EXP( T_3_C1 / B_FACTOR_C1 ) ) / M_3_C1 THETA_C2A73000000,00 = THETA_C3A73000000,00 = THETA_C4A73000000,00 = THETA_C5A73000000,00 = 309 APNDICE A GTCD: Variveis, Funes e Procedimentos __________________________________________________________________________ VarivelUnidade de Medida Seletor[Adotado / Calculado (A / C)] Valor de Referncia OU Dado de Entrada Frmula ___________________________________________________________________________ PHI_OV_C1-C=AF_OV_ST / AF_OV_C1 PHI_OV_C2-C=AF_OV_ST / AF_OV_C2 PHI_OV_C3-C=AF_OV_ST / AF_OV_C3 PHI_OV_C4-C=AF_OV_ST / AF_OV_C4 PHI_OV_C5-C=AF_OV_ST / AF_OV_C5 PHI_OV_SEL-C= PHI_OV_C1 PHI_PZ_WE_LIM_C1-C=SE( FTY1; 0,67 - 0,0004 *T_3_C1; SE( FTY2; -0,0004 * T_3_C1 + 0,8508; "" ) ) PHI_PZ_WE_LIM_C2-C=SE( FTY1; 0,67 - 0,0004 *T_3_C2; SE( FTY2; -0,0004 * T_3_C2 + 0,8508; "" ) ) PHI_PZ_WE_LIM_C3-C=SE( FTY1; 0,67 - 0,0004 *T_3_C3; SE( FTY2; -0,0004 * T_3_C3 + 0,8508; "" ) ) PHI_PZ_WE_LIM_C4-C=SE( FTY1; 0,67 - 0,0004 *T_3_C4; SE( FTY2; -0,0004 * T_3_C4 + 0,8508; "" ) ) PHI_PZ_WE_LIM_C5-C=SE( FTY1; 0,67 - 0,0004 *T_3_C5; SE( FTY2; -0,0004 * T_3_C5 + 0,8508; "" ) ) PHI_PZ_RI_LIM_C1-C=SE( FTY1; 1,82 + 0,0006 * T_3_C1; SE( FTY2; 0,0013 * T_3_C1 + 0,7595; "" ) ) PHI_PZ_RI_LIM_C2-C=SE( FTY1; 1,82 + 0,0006 * T_3_C2; SE( FTY2; 0,0013 * T_3_C2 + 0,7595; "" ) ) PHI_PZ_RI_LIM_C3-C=SE( FTY1; 1,82 + 0,0006 * T_3_C3; SE( FTY2; 0,0013 * T_3_C3 + 0,7595; "" ) ) PHI_PZ_RI_LIM_C4-C=SE( FTY1; 1,82 + 0,0006 * T_3_C4; SE( FTY2; 0,0013 * T_3_C4 + 0,7595; "" ) ) PHI_PZ_RI_LIM_C5-C=SE( FTY1; 1,82 + 0,0006 * T_3_C5; SE( FTY2; 0,0013 * T_3_C5 + 0,7595; "" ) ) PHI_PZ_C1-C=PHI_OV_C1 / ( ( AF_PZ_C1 * MF_C1) / M_3_C1 ) PHI_PZ_C2-C=PHI_OV_C2 / ( ( AF_PZ_C2 * MF_C2) / M_3_C2 ) PHI_PZ_C3-C=PHI_OV_C3 / ( ( AF_PZ_C3 * MF_C3) / M_3_C3 ) PHI_PZ_C4-C=PHI_OV_C4 / ( ( AF_PZ_C4 * MF_C4) / M_3_C4 ) PHI_PZ_C5-C=PHI_OV_C5 / ( ( AF_PZ_C5 * MF_C5) / M_3_C5 ) PHI_RZ_C1-C=AF_OV_ST / ( ( ( PER_AIR_SWDC_CALC / 100 ) * M_3_C1 + M_RZ_C1 ) / MF_C1 ) PHI_RZ_C2-C=AF_OV_ST / ( ( ( PER_AIR_SWDC_CALC / 100 ) * M_3_C2 + M_RZ_C2 ) / MF_C2 ) PHI_RZ_C3-C=AF_OV_ST / ( ( ( PER_AIR_SWDC_CALC / 100 ) * M_3_C3 + M_RZ_C3 ) / MF_C3 ) PHI_RZ_C4-C=AF_OV_ST / ( ( ( PER_AIR_SWDC_CALC / 100 ) * M_3_C4 + M_RZ_C4 ) / MF_C4 ) PHI_RZ_C5-C=AF_OV_ST / ( ( ( PER_AIR_SWDC_CALC / 100 ) * M_3_C5 + M_RZ_C5 ) / MF_C5 ) PHI_SZ_C1-A0,60=AF_OV_ST / ( M_SZ_C1 / MF_C1) PHI_SZ_C2-C=AF_OV_ST / ( M_SZ_C2 / MF_C2) PHI_SZ_C3-C=AF_OV_ST / ( M_SZ_C3 / MF_C3) PHI_SZ_C4-C=AF_OV_ST / ( M_SZ_C4 / MF_C4) PHI_SZ_C5-C=AF_OV_ST / ( M_SZ_C5 / MF_C5) PHI_DZ_C1-C=AF_OV_ST / ( M_DZ_C1 / MF_C1 ) PHI_DZ_C2-C=AF_OV_ST / ( M_DZ_C2 / MF_C2 ) PHI_DZ_C3-C=AF_OV_ST / ( M_DZ_C3 / MF_C3 ) PHI_DZ_C4-C=AF_OV_ST / ( M_DZ_C4 / MF_C4 ) PHI_DZ_C5-C=AF_OV_ST / ( M_DZ_C5 / MF_C5 ) RAT_PHI_OV_WE_C1-C=PHI_OV_C1 / PHI_PZ_WE_LIM_C1 RAT_PHI_OV_WE_C2-C=PHI_OV_C2 / PHI_PZ_WE_LIM_C2 RAT_PHI_OV_WE_C3-C=PHI_OV_C3 / PHI_PZ_WE_LIM_C3 RAT_PHI_OV_WE_C4-C=PHI_OV_C4 / PHI_PZ_WE_LIM_C4 RAT_PHI_OV_WE_C5-C=PHI_OV_C5 / PHI_PZ_WE_LIM_C5 RAT_PHI_OV_RI_C1-C=PHI_OV_C1 / PHI_PZ_RI_LIM_C1 RAT_PHI_OV_RI_C2-C=PHI_OV_C2 / PHI_PZ_RI_LIM_C2 RAT_PHI_OV_RI_C3-C=PHI_OV_C3 / PHI_PZ_RI_LIM_C3 RAT_PHI_OV_RI_C4-C=PHI_OV_C4 / PHI_PZ_RI_LIM_C4 RAT_PHI_OV_RI_C5-C=PHI_OV_C5 / PHI_PZ_RI_LIM_C5 RAT_PHI_OV_RI_LIM_SEL-C=(PER_AIR_PZ / 100 ) RAT_PHI_OV_SEL_SZ_RI_LIM -C=PHI_OV_SEL / PHI_SZ_C1 AF_OV_C1-C=M_3_C1 / MF_C1 AF_OV_C2-C=M_3_C2 / MF_C2 AF_OV_C3-C=M_3_C3 / MF_C3 AF_OV_C4-C=M_3_C4 / MF_C4 AF_OV_C5-C=M_3_C5 / MF_C5 AF_OV_SEL-C=SE( COND_DES1; M_3_C1 / MF_C1; SE( COND_DES2; M_3_C2 / MF_C2; SE( COND_DES3; M_3_C3 / MF_C3; SE( COND_DES4; M_3_C4 / MF_C4; SE( COND_DES5; M_3_C5 / MF_C5 ) ) ) ) ) AF_OV_ST-C=SE( FTY1; 14,72; SE( FTY2; 8,9433; "" ) ) AF_PZ_C1-C= ( M_3_C1 * PER_AIR_PZ / 100 ) / MF_C1 AF_PZ_C2-C= ( M_3_C2 * PER_AIR_PZ / 100 ) / MF_C2 AF_PZ_C3-C= ( M_3_C3 * PER_AIR_PZ / 100 ) / MF_C3 AF_PZ_C4-C= ( M_3_C4 * PER_AIR_PZ / 100 ) / MF_C4 AF_PZ_C5-C= ( M_3_C5 * PER_AIR_PZ / 100 ) / MF_C5 PER_AIR_PZ%A67,50=100 * ( PHI_OV_SEL / 1,5 ) PER_AIR_PZ_H%C=SE( COND"C1";SE( ( PER_AIR_PZ - ( PER_AIR_SW + PER_AIR_CF + 100 * ( M_SUM_FCD_RZ_C1 + M_SUM_FCD_PZ_C1 ) / M_3 ) ) < 0; 0,001;( PER_AIR_PZ - ( PER_AIR_SW + PER_AIR_CF + 100 * ( M_SUM_FCD_RZ_C1 + M_SUM_FCD_PZ_C1 ) / M_3 ) ) ); SE( COND"C2"; SE( ( PER_AIR_PZ - ( PER_AIR_SW + PER_AIR_CF + 100 * ( M_SUM_FCD_RZ_C2 + M_SUM_FCD_PZ_C2 ) / M_3 ) ) TOLERANCE_FCA Range("FCA_AD") = Range("FCA_CALC") FCA_INIT = Range("FCA") Range("D_SEL_AD") = Range("D_SEL_CALC") FCA_END = Range("FCA_CALC")

Loop D_FT_SEL = Range("D_FT_SEL") If Range("D_FT_AC_C3") > D_FT_SEL Then

Range("COND_DES_AD") = 3 Range("METH_DES_AD") = 1 Range("D_FT_SEL_AD") = Range("D_FT_AC_C3") Range("LC_DIFF_AD") = Range("LC_DIFF_CALC") Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") ElseIf Range("D_FT_AC_C3") < D_FT_SEL Then Range("D_FT_SEL_AD") = D_FT_SEL Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") End If '__________________________________________________________ 50 D_FT_SEL = Range("D_FT_SEL") Range("RAT_DEL_P_TP_34_C4_SEL") = "A" Range("RAT_DEL_P_DP_34_C4_SEL") = "C" Range("RAT_DEL_P_DP_34_C4_AD") = Range("RAT_DEL_P_DP_34_C4_CALC") Range("RAT_DEL_P_DP_34_C4_SEL") = "A" Range("RAT_DEL_P_TP_34_C4_SEL") = "C" Range("D_SEL_AD") = Range("D_SEL_CALC") Do While Abs(FCA_INIT - FCA_END) > TOLERANCE_FCA Range("FCA_AD") = Range("FCA_CALC") FCA_INIT = Range("FCA") Range("D_SEL_AD") = Range("D_SEL_CALC") FCA_END = Range("FCA_CALC")

Loop D_FT_SEL = Range("D_FT_SEL") If Range("D_FT_AC_C4") > D_FT_SEL Then

Range("COND_DES_AD") = 4 Range("METH_DES_AD") = 1 Range("D_FT_SEL_AD") = Range("D_FT_AC_C4") Range("LC_DIFF_AD") = Range("LC_DIFF_CALC") Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") ElseIf Range("D_FT_AC_C4") < D_FT_SEL Then Range("D_FT_SEL_AD") = D_FT_SEL Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") End If '__________________________________________________________ D_FT_SEL = Range("D_FT_SEL") Range("RAT_DEL_P_TP_34_C5_SEL") = "A" Range("RAT_DEL_P_DP_34_C5_SEL") = "C" Range("RAT_DEL_P_DP_34_C5_AD") = Range("RAT_DEL_P_DP_34_C5_CALC") Range("RAT_DEL_P_DP_34_C5_SEL") = "A" Range("RAT_DEL_P_TP_34_C5_SEL") = "C" Range("D_SEL_AD") = Range("D_SEL_CALC") Do While Abs(FCA_INIT - FCA_END) > TOLERANCE_FCA Range("FCA_AD") = Range("FCA_CALC") FCA_INIT = Range("FCA") Range("D_SEL_AD") = Range("D_SEL_CALC") 323 APNDICE B GTCD: Cdigo em VBA (Sub-Rotinas) __________________________________________________________________________ FCA_END = Range("FCA_CALC")

Loop D_FT_SEL = Range("D_FT_SEL") If Range("D_FT_AC_C5") > D_FT_SEL Then Range("COND_DES_AD") = 5 Range("METH_DES_AD") = 1 Range("D_FT_SEL_AD") = Range("D_FT_AC_C5") Range("LC_DIFF_AD") = Range("LC_DIFF_CALC") Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") ElseIf Range("D_FT_AC_C5") < D_FT_SEL Then Range("D_FT_SEL_AD") = D_FT_SEL Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") End If '__________________________________________________________ ' ' Method 2 (Chemical) '__________________________________________________________ D_FT_SEL = Range("D_FT_SEL") Range("RAT_DEL_P_TP_34_C1_SEL") = "A" Range("RAT_DEL_P_DP_34_C1_SEL") = "C" Range("RAT_DEL_P_DP_34_C1_AD") = Range("RAT_DEL_P_DP_34_C1_CALC") Range("RAT_DEL_P_TP_34_C1_SEL") = "C" Range("D_SEL_AD") = Range("D_SEL_CALC") Do While Abs(FCA_INIT - FCA_END) > TOLERANCE_FCA Range("FCA_AD") = Range("FCA_CALC") FCA_INIT = Range("FCA") Range("D_SEL_AD") = Range("D_SEL_CALC") FCA_END = Range("FCA_CALC")

Loop D_FT_SEL = Range("D_FT_SEL")

If Range("D_FT_CC_C1") > D_FT_SEL Then Range("COND_DES_AD") = 1 Range("METH_DES_AD") = 2 Range("D_FT_SEL_AD") = Range("D_FT_CC_C1") Range("LC_DIFF_AD") = Range("LC_DIFF_CALC") Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") ElseIf Range("D_FT_CC_C1") < D_FT_SEL Then Range("D_FT_SEL_AD") = D_FT_SEL Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC")

End If '__________________________________________________________ D_FT_SEL = Range("D_FT_SEL") Range("RAT_DEL_P_TP_34_C2_SEL") = "A" Range("RAT_DEL_P_DP_34_C2_SEL") = "C" Range("RAT_DEL_P_DP_34_C2_AD") = Range("RAT_DEL_P_DP_34_C2_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") Do While Abs(FCA_INIT - FCA_END) > TOLERANCE_FCA Range("FCA_AD") = Range("FCA_CALC") FCA_INIT = Range("FCA") Range("D_SEL_AD") = Range("D_SEL_CALC") FCA_END = Range("FCA_CALC")

Loop D_FT_SEL = Range("D_FT_SEL") If Range("D_FT_CC_C2") > D_FT_SEL Then 324 APNDICE B GTCD: Cdigo em VBA (Sub-Rotinas) __________________________________________________________________________ Range("COND_DES_AD") = 2 Range("METH_DES_AD") = 2 Range("D_FT_SEL_AD") = Range("D_FT_CC_C2") Range("LC_DIFF_AD") = Range("LC_DIFF_CALC") Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") ElseIf Range("D_FT_CC_C2") < D_FT_SEL Then Range("D_FT_SEL_AD") = D_FT_SEL Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") End If '__________________________________________________________ If RCE = 1 Then GoSub 100 End If D_FT_SEL = Range("D_FT_SEL") Range("RAT_DEL_P_TP_34_C3_SEL") = "A" Range("RAT_DEL_P_DP_34_C3_SEL") = "C" Range("RAT_DEL_P_DP_34_C3_AD") = Range("RAT_DEL_P_DP_34_C3_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") Do While Abs(FCA_INIT - FCA_END) > TOLERANCE_FCA Range("FCA_AD") = Range("FCA_CALC") FCA_INIT = Range("FCA") Range("D_SEL_AD") = Range("D_SEL_CALC") FCA_END = Range("FCA_CALC")

Loop D_FT_SEL = Range("D_FT_SEL") If Range("D_FT_CC_C3") > D_FT_SEL Then Range("COND_DES_AD") = 3 Range("METH_DES_AD") = 2 Range("D_FT_SEL_AD") = Range("D_FT_CC_C3") Range("LC_DIFF_AD") = Range("LC_DIFF_CALC") Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") ElseIf Range("D_FT_CC_C3") < D_FT_SEL Then Range("D_FT_SEL_AD") = D_FT_SEL Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") End If '__________________________________________________________ 100 D_FT_SEL = Range("D_FT_SEL") Range("RAT_DEL_P_TP_34_C4_SEL") = "A" Range("RAT_DEL_P_DP_34_C4_SEL") = "C" Range("RAT_DEL_P_DP_34_C4_AD") = Range("RAT_DEL_P_DP_34_C4_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") Do While Abs(FCA_INIT - FCA_END) > TOLERANCE_FCA Range("FCA_AD") = Range("FCA_CALC") FCA_INIT = Range("FCA") Range("D_SEL_AD") = Range("D_SEL_CALC") FCA_END = Range("FCA_CALC")

Loop D_FT_SEL = Range("D_FT_SEL") If Range("D_FT_CC_C4") > D_FT_SEL Then Range("COND_DES_AD") = 4 Range("METH_DES_AD") = 2 Range("D_FT_SEL_AD") = Range("D_FT_CC_C4") Range("LC_DIFF_AD") = Range("LC_DIFF_CALC") Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") 325 APNDICE B GTCD: Cdigo em VBA (Sub-Rotinas) __________________________________________________________________________ ElseIf Range("D_FT_CC_C4") < D_FT_SEL Then Range("D_FT_SEL_AD") = D_FT_SEL Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") End If '__________________________________________________________ D_FT_SEL = Range("D_FT_SEL") Range("RAT_DEL_P_TP_34_C5_SEL") = "A" Range("RAT_DEL_P_DP_34_C5_SEL") = "C" Range("RAT_DEL_P_DP_34_C5_AD") = Range("RAT_DEL_P_DP_34_C5_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") Do While Abs(FCA_INIT - FCA_END) > TOLERANCE_FCA Range("FCA_AD") = Range("FCA_CALC") FCA_INIT = Range("FCA") Range("D_SEL_AD") = Range("D_SEL_CALC") FCA_END = Range("FCA_CALC")

Loop D_FT_SEL = Range("D_FT_SEL") If Range("D_FT_CC_C5") > D_FT_SEL Then Range("COND_DES_AD") = 5 Range("METH_DES_AD") = 2 Range("D_FT_SEL_AD") = Range("D_FT_CC_C5") Range("LC_DIFF_AD") = Range("LC_DIFF_CALC") Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") ElseIf Range("D_FT_CC_C5") < D_FT_SEL Then Range("D_FT_SEL_AD") = D_FT_SEL Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") End If D_FT_MAX = Range("D_FT_MAX") '__________________________________________________________ ' ' Method 4 (Bragg) '__________________________________________________________ D_FT_SEL = Range("D_FT_SEL") Range("RAT_DEL_P_TP_34_C1_SEL") = "A" Range("RAT_DEL_P_DP_34_C1_SEL") = "C" Range("RAT_DEL_P_DP_34_C1_AD") = Range("RAT_DEL_P_DP_34_C1_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") Do While Abs(FCA_INIT - FCA_END) > TOLERANCE_FCA Range("FCA_AD") = Range("FCA_CALC") FCA_INIT = Range("FCA") Range("D_SEL_AD") = Range("D_SEL_CALC") FCA_END = Range("FCA_CALC")

Loop D_FT_SEL = Range("D_FT_SEL") If Range("D_FT_BR_C1") > D_FT_SEL And Range("D_FT_BR_C1") < D_FT_FACTOR * D_FT_MAX Then Range("COND_DES_AD") = 1 Range("METH_DES_AD") = 4 Range("D_FT_SEL_AD") = Range("D_FT_BR_C1") Range("LC_DIFF_AD") = Range("LC_DIFF_CALC") Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") ElseIf Range("D_FT_BR_C1") D_FT_FACTOR * D_FT_MAX Then Range("D_FT_SEL_AD") = D_FT_FACTOR * D_FT_MAX 326 APNDICE B GTCD: Cdigo em VBA (Sub-Rotinas) __________________________________________________________________________ Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") End If '__________________________________________________________ ' ' Method 3 (Odgers Carrier) '__________________________________________________________ D_FT_SEL = Range("D_FT_SEL") Range("RAT_DEL_P_TP_34_C1_SEL") = "A" Range("RAT_DEL_P_DP_34_C1_SEL") = "C" Range("RAT_DEL_P_DP_34_C1_AD") = Range("RAT_DEL_P_DP_34_C1_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") Do While Abs(FCA_INIT - FCA_END) > TOLERANCE_FCA Range("FCA_AD") = Range("FCA_CALC") FCA_INIT = Range("FCA") Range("D_SEL_AD") = Range("D_SEL_CALC") FCA_END = Range("FCA_CALC")

Loop D_FT_SEL = Range("D_FT_SEL") If Range("D_FT_OC_C1") > D_FT_SEL And Range("D_FT_OC_C1") < D_FT_FACTOR * D_FT_MAX Then Range("COND_DES_AD") = 1 Range("METH_DES_AD") = 3 Range("D_FT_SEL_AD") = Range("D_FT_OC_C1") Range("LC_DIFF_AD") = Range("LC_DIFF_CALC") Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") ElseIf Range("D_FT_OC_C1") < D_FT_SEL Then Range("D_FT_SEL_AD") = D_FT_SEL Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") ElseIf Range("D_FT_OC_C1") > D_FT_FACTOR * D_FT_MAX Then Range("D_FT_SEL_AD") = D_FT_FACTOR * D_FT_MAX Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") End If '__________________________________________________________

D_FT_SEL = Range("D_FT_SEL") Range("RAT_DEL_P_TP_34_C2_SEL") = "A" Range("RAT_DEL_P_DP_34_C2_SEL") = "C" Range("RAT_DEL_P_DP_34_C2_AD") = Range("RAT_DEL_P_DP_34_C2_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") Do While Abs(FCA_INIT - FCA_END) > TOLERANCE_FCA Range("FCA_AD") = Range("FCA_CALC") FCA_INIT = Range("FCA") Range("D_SEL_AD") = Range("D_SEL_CALC") FCA_END = Range("FCA_CALC")

Loop D_FT_SEL = Range("D_FT_SEL") If Range("D_FT_OC_C2") > D_FT_SEL And Range("D_FT_OC_C2") < D_FT_FACTOR * D_FT_MAX Then Range("COND_DES_AD") = 2 Range("METH_DES_AD") = 3 Range("D_FT_SEL_AD") = FINAL_D_FT_SEL_FACTOR * Range("D_FT_OC_C2") Range("LC_DIFF_AD") = Range("LC_DIFF_CALC") ElseIf Range("D_FT_OC_C2") < D_FT_SEL Then Range("D_FT_SEL_AD") = D_FT_SEL Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") ElseIf Range("D_FT_OC_C2") > D_FT_FACTOR * D_FT_MAX Then Range("D_FT_SEL_AD") = D_FT_FACTOR * D_FT_MAX Range("FCA_AD") = Range("FCA_CALC") 327 APNDICE B GTCD: Cdigo em VBA (Sub-Rotinas) __________________________________________________________________________ Range("D_SEL_AD") = Range("D_SEL_CALC") End If '__________________________________________________________ If RCE = 1 Then GoSub 150 End If D_FT_SEL = Range("D_FT_SEL") Range("RAT_DEL_P_TP_34_C3_SEL") = "A" Range("RAT_DEL_P_DP_34_C3_SEL") = "C" Range("RAT_DEL_P_DP_34_C3_AD") = Range("RAT_DEL_P_DP_34_C3_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") Do While Abs(FCA_INIT - FCA_END) > TOLERANCE_FCA Range("FCA_AD") = Range("FCA_CALC") FCA_INIT = Range("FCA") Range("D_SEL_AD") = Range("D_SEL_CALC") FCA_END = Range("FCA_CALC")

Loop D_FT_SEL = Range("D_FT_SEL") If Range("D_FT_OC_C3") > D_FT_SEL And Range("D_FT_OC_C3") < D_FT_FACTOR * D_FT_MAX Then Range("COND_DES_AD") = 3 Range("METH_DES_AD") = 3 Range("D_FT_SEL_AD") = Range("D_FT_OC_C3") Range("LC_DIFF_AD") = Range("LC_DIFF_CALC") Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") ElseIf Range("D_FT_OC_C3") < D_FT_SEL Then Range("D_FT_SEL_AD") = D_FT_SEL Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") ElseIf Range("D_FT_OC_C3") > D_FT_FACTOR * D_FT_MAX Then Range("D_FT_SEL_AD") = D_FT_FACTOR * D_FT_MAX Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") End If '__________________________________________________________ 150 D_FT_SEL = Range("D_FT_SEL") Range("RAT_DEL_P_TP_34_C4_SEL") = "A" Range("RAT_DEL_P_DP_34_C4_SEL") = "C" Range("RAT_DEL_P_DP_34_C4_AD") = Range("RAT_DEL_P_DP_34_C4_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") Do While Abs(FCA_INIT - FCA_END) > TOLERANCE_FCA Range("FCA_AD") = Range("FCA_CALC") FCA_INIT = Range("FCA") Range("D_SEL_AD") = Range("D_SEL_CALC") FCA_END = Range("FCA_CALC")

Loop D_FT_SEL = Range("D_FT_SEL") If Range("D_FT_OC_C4") > D_FT_SEL And Range("D_FT_OC_C4") < D_FT_FACTOR * D_FT_MAX Then Range("COND_DES_AD") = 4 Range("METH_DES_AD") = 3 Range("D_FT_SEL_AD") = Range("D_FT_OC_C4") Range("LC_DIFF_AD") = Range("LC_DIFF_CALC") Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") ElseIf Range("D_FT_OC_C4") < D_FT_SEL Then Range("D_FT_SEL_AD") = D_FT_SEL Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") 328 APNDICE B GTCD: Cdigo em VBA (Sub-Rotinas) __________________________________________________________________________ ElseIf Range("D_FT_OC_C4") > D_FT_FACTOR * D_FT_MAX Then Range("D_FT_SEL_AD") = D_FT_FACTOR * D_FT_MAX Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") End If '__________________________________________________________

D_FT_SEL = Range("D_FT_SEL") Range("RAT_DEL_P_TP_34_C5_SEL") = "A" Range("RAT_DEL_P_DP_34_C5_SEL") = "C" Range("RAT_DEL_P_DP_34_C5_AD") = Range("RAT_DEL_P_DP_34_C5_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") Do While Abs(FCA_INIT - FCA_END) > TOLERANCE_FCA Range("FCA_AD") = Range("FCA_CALC") FCA_INIT = Range("FCA") Range("D_SEL_AD") = Range("D_SEL_CALC") FCA_END = Range("FCA_CALC")

Loop D_FT_SEL = Range("D_FT_SEL")

If ICE = 2 Then I_FACTOR = D_FT_FACTOR End If If Range("D_FT_OC_C5") > D_FT_SEL And Range("D_FT_OC_C5") < I_FACTOR * D_FT_MAX Then Range("COND_DES_AD") = 5 Range("METH_DES_AD") = 3 Range("D_FT_SEL_AD") = Range("D_FT_OC_C5") Range("LC_DIFF_AD") = Range("LC_DIFF_CALC") Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") ElseIf Range("D_FT_OC_C5") < D_FT_SEL Then Range("D_FT_SEL_AD") = D_FT_SEL Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") ElseIf Range("D_FT_OC_C5") > I_FACTOR * D_FT_MAX Then Range("D_FT_SEL_AD") = D_FT_FACTOR * D_FT_MAX Range("FCA_AD") = Range("FCA_CALC") Range("D_SEL_AD") = Range("D_SEL_CALC") End If I_FACTOR = I_FACTOR_INIT COUNT = COUNT + 1 Loop End Sub *************************************************************************************************************************************************** Sub Diff_Ang_Calc() ' ' Reset Selectors Switched During Calculation to Initial Condition ' ' Dim RAT_DEL_P_DIFF_P_3_LIM As Double Dim AD_MIN As Double ' ' Inicializao ' Range("ZONE_AD").Value = "RZ" Range("COND_AD").Value = "C1" Range("RAT_DEL_P_DIFF_P_3_C1_SEL") = "A" Range("RAT_DEL_P_DIFF_P_3_C2_SEL") = "A" Range("RAT_DEL_P_DIFF_P_3_C3_SEL") = "A" Range("RAT_DEL_P_DIFF_P_3_C4_SEL") = "A" Range("RAT_DEL_P_DIFF_P_3_C5_SEL") = "A" 329 APNDICE B GTCD: Cdigo em VBA (Sub-Rotinas) __________________________________________________________________________ Range("AD_SEL") = "A" AD_MIN = 25 Range("AD_AD") = AD_MIN Range("RAT_DEL_P_DIFF_P_3_C1_SEL") = "C" Range("RAT_DEL_P_DIFF_P_3_C2_SEL") = "C" Range("RAT_DEL_P_DIFF_P_3_C3_SEL") = "C" Range("RAT_DEL_P_DIFF_P_3_C4_SEL") = "C" Range("RAT_DEL_P_DIFF_P_3_C5_SEL") = "C" Range("RAT_DEL_P_DIFF_P_3_C1_AD") = Range("RAT_DEL_P_DIFF_P_3_C1") Range("RAT_DEL_P_DIFF_P_3_C2_AD") = Range("RAT_DEL_P_DIFF_P_3_C2") Range("RAT_DEL_P_DIFF_P_3_C3_AD") = Range("RAT_DEL_P_DIFF_P_3_C3") Range("RAT_DEL_P_DIFF_P_3_C4_AD") = Range("RAT_DEL_P_DIFF_P_3_C4") Range("RAT_DEL_P_DIFF_P_3_C5_AD") = Range("RAT_DEL_P_DIFF_P_3_C5") Range("RAT_DEL_P_DIFF_P_3_C1_SEL") = "A" Range("RAT_DEL_P_DIFF_P_3_C2_SEL") = "A" Range("RAT_DEL_P_DIFF_P_3_C3_SEL") = "A" Range("RAT_DEL_P_DIFF_P_3_C4_SEL") = "A" Range("RAT_DEL_P_DIFF_P_3_C5_SEL") = "A" RAT_DEL_P_DIFF_P_3_LIM = Range("RAT_DEL_P_DIFF_P_3_C1") AD_D = Range("AD_D") ' ' Executa o Clculo ' '__________________________________________________________ ' If (RAT_DEL_P_DIFF_P_3_LIM > 1) Then Do While (RAT_DEL_P_DIFF_P_3_LIM > 1) AD = AD - AD / 100 Range("AD_AD") = AD_MIN Range("RAT_DEL_P_DIFF_P_3_C1_AD") = Range("RAT_DEL_P_DIFF_P_3_C1_CALC") Range("RAT_DEL_P_DIFF_P_3_C2_AD") = Range("RAT_DEL_P_DIFF_P_3_C2_CALC") Range("RAT_DEL_P_DIFF_P_3_C3_AD") = Range("RAT_DEL_P_DIFF_P_3_C3_CALC") Range("RAT_DEL_P_DIFF_P_3_C4_AD") = Range("RAT_DEL_P_DIFF_P_3_C4_CALC") Range("RAT_DEL_P_DIFF_P_3_C5_AD") = Range("RAT_DEL_P_DIFF_P_3_C5_CALC") RAT_DEL_P_DIFF_P_3_LIM = Range("RAT_DEL_P_DIFF_P_3_C1") If AD 5 Then COND = 1 Range("X_AD") = Range("HT_SL") DIF = Range("DIF") + Range("X") End If ZONE = ZONE + 1 Loop GoSub 200 End If '*********************************************************************************** If (Range("WTY") = "2") Then ' Start Loop of Each Zone for All Conditions Do While ZONE Range("T_W_1_" & COND_AD) Then GoSub 17 18 End If If (N = 1 And ZONE = 1) Then GoSub 19 ElseIf (N = 1 And ZONE 1) Then GoSub 20 347 APNDICE B GTCD: Cdigo em VBA (Sub-Rotinas) __________________________________________________________________________ ElseIf (N > 1 And N = 1 And N Range(T_W1_TEMP) Then GoSub 42 43 End If If (N = 1 And ZONE = 1) Then GoSub 50 51 End If Range("X_AD") = Range("X") + (2 * HT_SL) DIF = DIF + Range("X") End If Loop' End Sweep of Lenght for Each Zone in Each Condition ' Redimensiona a Abertura das Passagens p/ 'Cooling Air' Visando Fechamento de Balano de Ar PFCA = Range("PFCA") If (PFCA > PFCA_EST And COUNT < 10 And HT_SL > HT_SL_MIN) Then HT_SL = HT_SL_INIT - COUNT * HT_SL_INIT / 10 If HT_SL > HT_SL_MIN Then Range("HT_SL_AD") = HT_SL COUNT = COUNT + 1 N = 1 GoSub 1 Else HT_SL = HT_SL_MIN Range("HT_SL_AD") = HT_SL N = 1 GoSub 1 End If

End If GoSub 52 53 COND = COND + 1 N = 1 COUNT = 1 HT_SL = HT_SL_INIT Range("X_AD") = Range("HT_SL") DIF = Range("DIF") + Range("X") Loop' End Loop of All Conditions for Each Zone If COND > 5 Then COND = 1 N = 1 COUNT = 1 HT_SL = HT_SL_INIT Range("X_AD") = Range("HT_SL") End If 348 APNDICE B GTCD: Cdigo em VBA (Sub-Rotinas) __________________________________________________________________________ ZONE = ZONE + 1 N = 1 DIF = Range("DIF") + Range("X") Loop' End Loop of Each Zone for All Conditions End If GoSub 200 ' ' Mensagens ao Usurio ' ' ' Gravao de Resultados ' 8 T_W1_TEMP = ("T_W_1_" & COND_AD) Range(T_W1_TEMP) = Range("T_W_1") T_W2_TEMP = ("T_W_2_" & COND_AD) Range(T_W2_TEMP) = Range("T_W_2") DIF_TEMP_N1RZ = ("DIF_1FCD_RZ_" & COND_AD) Range(DIF_TEMP_N1RZ) = Range("L_D") M_TEMP_Z = ("M_1FCD_RZ") M_TEMP_ZC = ("M_1FCD_RZ_" & COND_AD) If Range(


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