**** COMMODORE 64 BASIC V2 **** 64K RAM SYSTEM 38911 BASIC BYTES FREE READY. LOAD"B'N'R PICS /DG",8,1: SEARCHING FOR B'N'R PICS /DG LOADING READY. RUN -
[9^6%^,[^[_^FP# - F#UGTW%)H*XISY&'JZ[A^/ _ - - OFFERS BOB AND RUMBLE -PAL AND NTSC- EDITED BY KNP ON 18 AND 19 AUG. 1987 SOMETHING ! VERY BEST WISHES AN A D-GOLD PRODUCTION 1987 -
I TOLD ALLAN THAT I OF CAUSE CAN DO IT TOO ! AS I KNOW WHATS THE DIFFERENCEBETWEEN THE SYSTEMS (MORE BOUT THAT LATER) YA I'M A GAME CODER ( BUT ALSO THE D-GOLD CRACKER ) !! I WAS NOT SURE THAT I CONVIENCED ALLAN THAT I COULD DO IT !! SO I HAD TO GO TO WORK !! IT TOOK 2 WHOLE EVENINGS !! HERE IS HOW TO DO IT !! FIRST LOAD IN THE 185 LONG FILE CALLED 'PRG' !! ( AND DON'T RESETCRACK IT IT WOULD BE ASHAME AS ESU - - $0810M]]]]]]]]]]]]]]] -
**** COMMODORE 64 BASIC V2 **** 64K RAM SYSTEM 38911 BASIC BYTES FREE READY. LOAD"CATCHA THIEF /DG",8,1: SEARCHING FOR CATCHA THIEF /DG LOADING READY. RUN - ATWGHIJLN]A^ BCDEOQ]AOSPQLMN/]A^ GHIJ^ ] - ALNGHIJLN]ATWBCDELN]A^ ^ OQLN]A^ BCDELN] - AXZGHIJ^ ]AOQBCDEOQ]AXZBCDEXZ]A^ BCDETW] - AXZGHIJ^ ]AXZGHIJOQ]AOSSQOPQ[]ALNBCDEOQ] - AXZBCDE^ ]ALNBCDEOQ]ATVWTVVW - AOQ^_ LN/]A^ BCDEXZ]A - DVWXZ]ATWBCDE^ ]ALNBCDELN]AXZBCDE[[] - A[LNOQ^ /]ALNBCDELN]ALMNLRNLN]AOQBCDEOQ] - ALN/LNLN/]AOQBCDELN]ALNBCDE^ ]AXZBCDETW] - ALNBCDETW]AOQBCDE^ ]A/LN/OSQ[]ALNBCDEXZ][Q - ALMNLRN^ ]A[/BCDEXZ]AOQGHIJXZ]A^ BCDELN] - A^ BCDEXZ]A^ BCDEXZ]A^ GHIJ^ ]AXZBCDEXZ]/U - ALMNLRN^ ]ALNBCDEOQ]AOQGHIJ^ ]ALNBCDEXZ] - A^ OQTVW[]A^ BCDE[/]AXZGHIJXZ]ALNBCDEOQ] - ALNBCDETW]AOQBCDEXZ]A^ GHIJOQ]AXZBCDEXZ]/Y - ATUVUW^! ]A^ BCDEOQ]AXZGHIJXZ]A^ BCDEXZ] - A^ GHIJLN]A^ BCDEOQ]ALNBCDELN]AOSPQOSQ/] - A^ GHIJXZ]A^ BCDELN]ATVVWXYZ/]ATWBCDE[[] - AOQGHIJOQ]AXZGHIJLN]A^ TVWLN/]AOQBCDE^ ] - A^_ ^! ^ ]AOQBCDEOQ]ATVVVWTVW]AXZGHIJ^ ] - ALNBCDELN]ALNBCDE^ ]A^ BCDE[[]ALNBCDEOQ][K/I - A^ BCDEXZ]ALNBCDELN]A^ BCDEXZ]AOQBCDEXZ][L/J - A^ LNOQ^ ]AXZBCDE^ ]ALN[LNLN[]ATWBCDEXZ] - A/LN/OSPQ]AXZBCDEOQ]AOQ^_ XYZ]ALNBCDELN] - AOQ^_ OQ[]A^ BCDELN]A^ OQXYYZ]A[/BCDEOQ] - AOQBCDE^ ]AXZBCDELN]AOQBCDE^ ]A^ BCDELN][P/N - ALNBCDEXZ]ALNBCDEXZ]A[/BCDE^ ]AOQBCDETW][Q/O - AOSSQ^_ /]ALN/LNTVW]ALMNLRNOQ]AXZBCDEXZ] - ]ALNBCDE^ ]A[[GHIJOQ]AOQGHIJOQ] - ALNBCDE^ ]ALNBCDEOQ]AOQGHIJ^ ]ALNBCDE^ ]/T - ALN/LN/LN]ALNBCDE^ ]ALNGHIJTW]ALNBCDE[[] - ALNBCDEXZ]A^ BCDE^ ]AXZGHIJOQ]AXZBCDELN]/V - A^ OQOPSQ]ALMNLRNTW]AXZGHIJXZ]A^ BCDETW] - AOQBCDE^ ]AOQBCDE^ ]AXZGHIJOQ]AOQ^_ ^_ ]/X - ALNOQ^ ^ ]A^ BCDE[[]ALNGHIJ^ ]ALNBCDEOQ] - AXYYYZXZ[]AOQGHIJLN]A^ GHIJLN]A^ BCDE^ ] - ALNGHIJLN]ALNBCDELN]A^ BCDEXZ]ALNBCDEXZ] - AOQGHIJXZ]A^ BCDEOQ]AOQBCDEXZ]AOSPQ^_ /] - AXZGHIJLN]A^ BCDEOQ]A/LMNLMN/]AXZBCDEOQ] - AOQGHIJXZ]ALMNLRN^ ]A[[BCDEXZ]AXZBCDEXZ] - ALNGHIJ[[]AXZBCDETW]AXZBCDE^ ]ALN/LNXZ[] - ALNGHIJ^ ]A^ BCDELN]A^ BCDELN]AXZBCDEXZ] - ATWGHIJOQ]ALNGHIJ^ ]A^ OQ^_ []AXZBCDE[ - ALNBCDEOQ]AXZBCDELN]A^ BCDEOQ]ALNBCDELN][K/I - ]ALNBCDELN]A^ BCDEXZ]AOQBCDE[/][L/J - A^ BCDEXZ]AOQBCDEXZ]A^ BCDE^ ]AOQBCDEXZ][M/K - ALNBCDEXZ]AOQBCDE^ ]A^ BCDE^ ]ALNBCDEOQ][O/M - AXZBCDE^ ]AXZBCDELN]AOQBCDEXZ]AXZBCDEXZ][P/N - ALN^_ ^! ]AXZBCDEOQ]AXZGHIJTW]AXZGHIJ^ ] - ALNBCDEXZ]A[XYYZ^_ ]AOQGHIJ^ ]ALNBCDEOQ]/ - ALMNLRNXZ]ALNBCDE^ ]AOQGHIJXZ]AXZBCDE^ ] - A^ BCDEXZ]AOQBCDEXZ]AXZGHIJLN]ALNOQ^ LN]/Y - AOQBCDEXZ]AOQBCDEXZ]ALNGHIJ^ ]A^ BCDEOQ]/Z - ALMNLRNOQ]ALNGHIJOQ]A^ GHIJLN]AXZBCDEOQ] - DYZ^_ ^! LNOQ^ P: - YOU ARE EMPLOYED AS HEAD SECURITY OFFICER AT OUR MUSEUM. YOUR SALARY IS $1000 PER MONTH.#YOU WILL GET: - ! FOR EACH ROBBER CAPTURED - P PENALTY FOR EACH PAINTING STOLEN#OUR CONTRACT WILL EXPIRE A YEAR FROM - D NOW. IF MORE THAN 10 PICTURES WILL BE STOLEN DURING THAT PERIOD, YOU WILL BE SACKED.#BALANCE FOR MONTH : - O TOTAL#SALARY : $ - E0#PENALTY : $ - E0#CONGRATULATIONS, YOU DID A GOOD JOB. - G WE EMPLOY YOU FOR ANOTHER YEAR.#TOO MANY PICTURES ARE STOLEN. - F WE HATE TO TELL YOU BUT YOU ARE FIRED!# - LBUM IS OUT - GET IT !! PLAY MEGA-APOCALYPSE - BEST GAME SINCE WIZBALL AND WHAT A STARFIELD RUTINE ! KNP AWARD OF THE MONTH ! INTRO CODE AND GRAFIX BY KNP A D-GOLD PRODUCTION 1987 - LBUM IS OUT - GET IT !! PLAY MEGA-APOCALYPSE - BEST GAME SINCE WIZBALL AND WHAT A STARFIELD RUTINE ! KNP AWARD OF THE MONTH ! INTRO CODE AND GRAFIX BY KNP A D-GOLD PRODUCTION 1987 - - OFFERS CATCH A THIEF SHORTNED BY KNP ON 26. SEPT. 1987 AFTER THE TITLE SEQUENCE ... ANYWAY T A D-GOLD PRODUCTION 1987 - ADOMMEEIIHHGGAAAIIA D-GOLD PRODUCTION 1987 - QSHORTNED BY KNP ON 26. SEPT. 1987 - RJOY PORT II CONTROL THE SCROLL SPEED - FIRE TO GO ! - KCATCH A THIEF FROM ANDROMEDA SOFTWARE CRACKED BY ESI SHORTNED BY ENIGMATIC KNP - DTHE PRG. TOOK UP 277 BLOCKS - .D TOO MUCH FOR MY LINKER - DNO - THE TITLE SEQUENCE CODE HAVE SOME OF THE GAME CODE IN IT TOO !! SO THE -D5- FILE WILL BE LOADED AFTER THE TITLE SEQUENCE ... - DANYWAY THE KNP RANKINGS : FAIRLIGHT TRIAD -ALIVE AND KICKING- DCS -BREAKER- YETI -SNAKE- 1001 CREW DIV D TCS RELAX RDI TLC IKARI LASER PC POPEYE WIZAX DETONATOR -SEND TO SPHINX. NOT ME!- BB -ELECTRO- FCS ACC TRIANON AFL 70 DUSA-TEAM IRATA PUREBYTE -YIP- - DAND THATS IT !! DGOLD ARE : KNP SUNNY SPHINX - DAND IT RULES !! - EINTRO AND CRACK BY ENIGMATIC KNP - LBUM IS OUT - GET IT !! - DPLAY MEGA-APOCALYPSE - BEST GAME SINCE WIZBALL AND WHAT A STARFIELD RUTINE ! KNP AWARD OF THE MONTH ! INTRO CODE AND GRAFIX BY KNP -
**** COMMODORE 64 BASIC V2 **** 64K RAM SYSTEM 38911 BASIC BYTES FREE READY. LOAD"CHERN.DOCS+STORY",8,1: SEARCHING FOR CHERN.DOCS+STORY LOADING READY. RUN - 6KNP PRESENTS FOR DGOLD - 6 >DOCS AND STORY FOR 'CHERNOBYL' - 5 7ORIGINAL CRACKED BY ESI - +PRESS SPACEB TO0GGLE THE SCREENS - #HI TO : ANDY THE BREAKER AND DCS !! - <FAIRLIGHT TRIAD YETI SNAKE - <1001 CREW TCS -OMEGA- DIV D - ;RELAX ANTITRAX IKARI MZP - ? 3I DROPPED THE PICCY - 0IT WAS TO UGLY ! - 4PROCEDURE - POWER ON - %WHEN THE FUEL TEMPERATURE HAS LEVELED - _AND POWER LEVEL IS STEADY ENTER - $OBSERVING THE ANNUNCIATORS WILL SHOW - "TURBINE SAFETY VALVE 13 IS OPEN AS - $WELL AS THE PRIMARY STEAM LINES. THE - SOUND FROM THE TURBINE BUILDING SHOULD BE HEARD TO RISE HAS POWER INCREASES. - IF ALL SIX GENERATORS ARE WORKING THEN THE POWER OUTPUT GAUGE SHOULD READ NEAR THE POWER LEVEL NEEDLE. IF ALL OTHER - #READINGS ARE NOMINAL OR WITHIN SAFE - LIMITS POWER SHOULD CONTINUE. THE POWER LEVEL CAN BE RAISED OR LOWERED AS - %REQUESTED BY MOVING THE CONTROL RODS. - THE CONTROL RODS SHOULD NOT BE ARRANGED IN AN IRREGULAR WAY. AS POWER DEMANDS - 9CHANGE KEEP THIS IN MIND. - -PRINT ANYKEY-CONTINUE - =PROCEDURE - ABNORMAL READINGS - 3 5HIGH FUEL TEMPERATURE - OPEN VALVES 1-9. CHECK CORE FOR UNEVEN COOLANT FLOW. LOWER THE CONTROL RODS. - $CHECK CORE WATER LEVEL AND PRESSURE. - , 4LOW CORE WATER LEVEL - #CHECK DRAIN TANK VALVES. OPEN 36 TO - %INCREASE LEVEL. IN AN EMERGENCY CHECK - %THAT HIGH PRESSURE INJECTION VALVE 37 - #IS OPEN. CHECK REACTOR RELIEF VALVE - 891. IT SHOULD BE CLOSED. - 8 5HIGH CORE WATER LEVEL - $OPEN DRAIN TANK VALVE 39 AND MONITOR - %UNTIL LEVEL NOMINAL. CHECK DRAIN TANK - 6LOW BOILER WATER LEVEL - #OPEN FEED WATER VALVES 82 OR 83 FOR - #BOILER A, 84 OR 85 FOR BOILER B. IF - NO RESULT OPEN FEED WATER SOURCE VALVES. EXIT-RETURN - -PRINT ANYKEY-CONTINUE - HHRADIATION IN CONTAINMENT - CLOSE CONTAINMENT RELIEF VALVES 80 AND 81. LOW LEVELS WILL RESULT DURING - NORMAL OPERATION. IF LEVELS EXCEED 200 MILLIREM ISOLATE CONTAINMENT BY CLOSING ALL VALVES LEADING IN OR OUT. - 3 6RADIATION IN AUXILLARY - #CHECK DRAIN TANK AND PROCESS VALVES - #AND COOLANT CONDENSER RELIEF VALVE. - #POWER OFF AND SHUTDOWN THE REACTOR. - #REACTOR, BOILER, STEAM LINE RUPTURE - ISOLATE CONTAINMENT. POWER OFF. SHUTDOWNTHE REACTOR (SCRAM). MONITOR CONTAINMENTPRESSURE. KEEP CORE WATER LEVEL UP BY - CLOSING NECESSARY VALVES AND MAINTAININGHIGH PRESSURE INJECTION UNTIL FUEL - 4TEMPERATURE IS DOWN. - #THE OPERATION OF THE PLANT REQUIRES - $CONSTANT MONITORING OF ALL THE MAJOR - $SYSTEMS. VARIOUS STEPS MUST BE TAKEN - $AT THE APPROPRIATE TIMES TO MAINTAIN - "NOMINAL VALUES ON ALL READOUTS AND - THERE ARE A MIRIAD OF MONITORING DEVICESTO KEEP THE OPERATOR INFORMED OF ALL - 2PERTAINENT DATA BUBT I,S THE JOB OF - THE OPERATOR TO REGULARLY INSPECT THESE INDICATORS TO STAY ON TOP OF THE - $THE INSTRUMENTS ARE ALL AVAILABLE ON - %THE VIDEO MONITOR AND CAN BE ACCESSED - !BY TYPING IN THE APPROPRIATE LINE - COMMAND. ANY TIME THE CURSOR IS PRESENT A LINE COMMAND CAN BE ENTERED AND - ;ENGAGED BY PRESSING RETURN. - %EXIT-RETURN P-PRINT ANYKEY-CONTINUE - HTHE LINE COMMANDS - #ANY OF THESE COMMANDS WILL ACCESS A - SCHEMATIC REPRESENTATION OF THE ENTIRE FACILITY. ALL THE COMPONENTS OF THE - PLANT ARE LAID OUT TO SHOW THEIR - #POSITION AND RELATIONSHIP. THE PIPE - NETWORK IS ARRANGED TO PROVIDE A CLEAR UNDERSTANDING OF THE VALVE SYSTEM. ALL PARTS ARE LABELED OR BY NAME OR SYMBOL. ANY INDICATIBON 1THE LAYOUT CAN BE - %ENTER AS A COMMAND FOR A DESCRIPTION. - "THE ENTIRE PLANT CAN BE PERUSED BY - 7USE OF THE JOYSTICK. THBIS 'DISPLAY - $WILL BE VITAL IN LOCATING AND UNDER- - #STANDING THE WORKINGS OF THE PLANT. - 'EXIT-RETURN P-PRINT ANYKEY-CONTINUE - THESE LINE COMMANDS ACCESS THE CONTROL ROD DISPLAY. THIS A GRAPHIC DISPLAY NOT MEANT TO RELATE THE ACTUAL STRUCTURE. - THE CONTROL ROD DRIVE MECHANISM IS THE MAIN POWER CONTROL DEVICE. WHEN THE - RODS ARE REMOVED THE REACTIVITY OF THE FUEL INCREASES CREATING HEAT. WHEN THE CORE TEMPERATURE IS NOMINAL AND ALL - OTHER PARTS AS WELL, POWER CAN BE PRO- DUCED BY THE TURBINE IN A CONTROLLED - MANNER. SLIGHT MODIFICATIONS OF THE RODSCAN ACHIEVE PRECISE POWER LEVELS. THE - RODS ARE ALWAYS MOVED IN GROUPS OF TWO DESIGNATED 1 - 8. NUMBERS ARE SEPARATED BY COMMAS. FOR EXAMPLE: TO MOVE THE RODS1 THROUGH 4 TO 50% ENTER: - %EXIT-RETURN P-PRINT ANYKEY-CONTINUE - %THESE COMMANDS ACCESS THE GAUGES THAT - "MONITOR THE MOST IMPORTANT ASPECTS - $OF THE SYSTEM. THE GAUGES WILL PROVE - TO BE THE BEST WAY TO GAIN AN OVERVIEW OF HOW THE WHOLE PLANT IS INTERACTING. THE TWENTYFOUR GAUGES CAN BE SCANNED - 6BY USING THE JOYSTICK. - THESE COMMANDS WILL DISPLAY A COMPUTER PICTURE OF WHAT IS HAPPENING INSIDE THE REACTOR VESSEL. IT SHOW COOLANT FLOW - #AND TEMPERATURE IN THE HOT AND COLD - ;LEGS OF THE COOLANT SYSTEM. - %EXIT-RETURN P-PRINT ANYKEY-CONTINUE - THE ANNUNCIATORS ARE THE PRIMARY VALVE STATUS DISPLAYS. ONE HUNDRED INDICATOR LIGHTS WITH LABELS TO SHOW IMMEDIATELY WHETHER A VALVE IS OPENED OR CLOSED. - #THE VALVE SYSTEM IS AS IMPORTANT TO - THE SAFE OPERATION OF THE PLANT AS ARE THE VEINS OF THE BODY. VALVES 1 - 9 - "ARE OF PARTICULAR IMPORTANCE. THEY - CONTROL THE FLOW OF COOLANT TO AND FROM THE REACTOR TO THE STEAM GENERATORS. - "THBIS <THE HEART OF THE SYSTEM. BUT - OTHER VALVES CAN BE ALSO VERY VITAL. A CLOSED VALVE ALONG THE STEAM LINE DURINGPOWER UP COULD DRIVE UP PRESSURE AND - $RUPTURE THE LINE OR EVEN THE BOILER. - $THE PLANT LAYOUT DISPLAY WILL REVEAL - $HOW THE VALVE SYSTEM IS DESIGNED AND - WHAT VALVES ARE OF PARTICULAR INTEREST. ALSO, MANY VALVES ARE COMPUTER OPERATED AUTOMATICALLY AND THE POSSIBILITY OF - MALFUNCTION CANNOT BE RULED OUT. - 'EXIT-RETURN P-PRINT ANYKEY-CONTINUE - WHILE VIEWING THE ANNUNCIATORS CONTROL OF ALL THE VALVES IS AVAILABLE BY - ENTERING ONE OF THESE COMMANDS FOLLOWED BY A NUMBER OR NUMBERS SEPARATED BY - #COMMAS. FOR EXAMPLE: TO OPEN VALVES - #AND THE SAME WITH CLOSE. THE ANNUN- - %CIATOR BOARD WILL REFLECT THE ACTION. - + <VALVE SEQUENCE COMMANDS ARE: - %STARTUP - OPENS ALL VALVES NECESSARY - FOR CONTROL RODS WITHDRAWAL. POWER ON - OPENS THE STEAM LINE VALVES - 9SO THE TURBINE CAN START. - $POWER OFF -CLOSES THE STEAM LINE AND - 7DISENGAGES THE TURBINE. - $SHUTDOWN -CLOSES POWER DOWN VALVES. - %THESE COMMANDS WILL DISPLAY THE ALARM - #PANEL SHOWING NEARLY 100 SOURCES OF - $POSSIBLE TROUBLE. THE ROWS OF LIGHTS - #ARE RED WHEN OFF AND YELLOW WHEN AN - "ALARM SOURCE HAS BEEN DETECTED. AN - +ALARM BELL ALSO SOUNDS WHEN A LIGHT IS ON. - %USING THE COMMAND LIGHT OR L FOLLOWED - BY A NUMBER NEXT TO A LIGHT WILL - %PRINTOUT THE SOURCE OF THE ALARM. THE - $F1 KEY WILL STOP THE BELL AND THE F3 - 9KEY WILL CLEAR THE PANEL. - $THE ALARM SOUND SYSTEM CAN BE TESTED - ;BY ENTERING BELL OR BUZZER. - !THE ALARMS SOUND UNDER EVEN UNDER - !NORMAL CIRCUMSTANCES TO ALERT THE - &OPERATOR OF OTHER THAN NOMINAL STATES. - EXIT-RETURN P-PRINT ANYKEY-CONTINUE - EMERGENCY REACTOR SHUTDOWN. THE OPERATORCAN SCRAM THE REACTOR IF CONDITIONS ARE SEVERE. AN AUTOMATIC SCRAM SYSTEM IS - .ALSO INCLUDED. - F7 KEY - WILL CLEAR THE DISPLAY SCREEN. VALVE- AND A NUMBER WILL NAME THE VALVE.TANK - AND A LETTER WILL NAME THE TANK. INQUIRY- FOLLOWED BY A RELEVANT WORD - <WILL PROVIDE AN EXPLANATION. - (PRINT- WILL DUMP THE LINE PRINTER BUFFER - TO A PRINTER (COMMODORE STANDARD)ON LINE- WILL NOTIFY THE COMPUTER OF - 6THE OPERATORS CONTROL. - "OFF LINE- WILL SHUTDOWN THE PLANT. - $MANUAL- PROVIDES THESE INSTRUCTIONS. - $F5 KEY - WILL CHANGE THE TEXT COLOR. - -PRINT ANYKEY-CONTINUE - HPROCEDURE - GOING ON LINE - ENTER ON LINE TO NOTIFY THE COMPUTER. CHECK ANNUNCIATORS TO SEE THAT VALVES - /1 - 9 ARE OPEN. - CHECK THE GAUGES FOR UNUSUAL READINGS. WATER LEVEL IN THE REACTOR, THE BOILERS AND THE PRESSURIZER SHOULD BE NEAR THE MIDDLE OF THE DIAL. - #CHECK THE CORE FOR COOLANT FLOW AND - $TEMPERATURE. THE CORE SHOULD BE LESS - 1THAN 300 DEGREES. - 2ENTER STARTUP TO OPEN THE INITIAL VALVESAND THEN GBO T - >HE CONTROL ROD DISPLAY. BEGIN BY RAISING GROUP 1,2,3,4 TO 25%. - %AFTER THIS CHECK THE GAUGES FOR POWER - LEVEL AND FUEL TEMPERATURE. ALSO CHECK THE CORE FOR EVEN COOLANT FLOW. POWER - $LEVEL WILL SHOW THE POTENTIAL. POWER - $OUTPUT WILL RISE WHEN THE TURBINE IS - %EXIT-RETURN P-PRINT ANYKEY-CONTINUE - 5ONCE A SMALL PROVINCE - $VIRTUALLY UNKNOWN OUTSIDE THE SOVIET - UNION. TODAY IT IS A WORD ADDED TO THE GROWING LEXICON OF MODERN FEARS. TO MOSTPEOPLE THE WORD MEANS NUCLEAR DISASTER. NOT BY WAR OR WEAPONS BUT BY A SEEMINGLYBENIGN EVERYDAY PRACTICALITY - THE NEED FOR ELECTRIC POWER. - WE ARE COMPLETELY DEPENDENT ON ELECTRIC POWER. WITHOUT IT THE WORLD WOULD PLUNGEINTO DARKNESS IN MORE WAYS THAN ONE. - %PRODUCING THE MASSIVE REQUIREMENTS OF - MODERN SOCIETY'S ELECTRICAL DEMANDS IS VERY EXPENSIVE AND THE METHODS OF - #GENERATING ELECTRICITY ARE LIMITED. - "POWER CAN BE MADE BY HYDROELECTRIC - $PLANTS THAT USE THE NATURAL FORCE OF - $FLOWING WATER. VARIOUS FOSSIL FUELS - CAN BE BURNED TO BOIL WATER THAT MAKES STEAM THAT IS USED TO TURN GENERATORS. - OTHER SMALLSCALE METHODS INCLUDE SOLAR AND WIND DRIVEN POWER GENERATORS. - $NATURAL GENERATING METHODS ARE CLEAN - BUT LIMITED BY NATURE. FUEL BURNING IS VERY DESTRUCTIVE TO THE ENVIROMENT AND NATURAL FUEL SOURCES DWINDLE. - "A NEW WAY OF BOILING WATER WITHOUT - $BURNING FOSSIL FUEL WAS DEVELOPED IN - THE 1950'S. ATOMIC RESEARCH SHOWED THAT THE NATURAL INTERACTION OF SOME ELEMENTSPRODUCED A GREAT DEAL OF HEAT AS THE - RESULT OF NUCLEAR FISSION AND THE FUEL DID NOT BURN AWAY IN THE USUAL SENSE. - + ;BECAUSE THE HEAT WAS MADE OBN A - TOMIC SCALE THE SOURCE COULD LAST FOR A VERY LONG TIME AND, WITH ONE EXCEPTION, THE POWER WAS CLEAN. - (THE EXCEPTION IS OFCOURSE RADIOACTIVITY. - "RADIOACTIVE ISOTOPES ARE AMONG THE - $DEADLIEST ELEMENTS KNOWN. THE REASON - -THEY MAKE HEAT IS THE SAME REASON THEY KILL. - THE FOLLOWING PROGRAM WAS DEVELOPED TO DEMONSTRATE IN A LIMITED WAY SOME OF - <THE COMPLEXITIES OF USING ATOMIC ENERGY TO MAKE ELECTRICITY. - THE BASIC CONCEPT IS FAIRLY SIMPLE AND EXCEPT FOR THE HEAT SOURCE IS OLD TECH- NOLOGY. WATER BOILS, STEAM RESULTS AND, UNDER HIGH PRESSURE, IS USED TO TURN - A TURBINE THAT RUNS THE ELECTRIC - IN IT'S BRIEF HISTORY THE NUCLEAR ENERGYINDUSTRY HAS PROVEN TO BE ONE OF THE - SAFEST AND CLEANEST ENERGY SOURCES. THE PROBLEM IS THAT IT ONLY TAKES ONE MAJOR ACCIDENT TO KILL HUNDREDS OF THOUSANDS OF PEOPLE AND LAY WASTE TO MILLIONS OF ACRES OF LAND FOR THOUSANDS OF YEARS. - THE DESIGN OF A PLANT HAS THIS IN MIND. ALL IT TAKES ARE CAREFUL AND EXPERIENCEDOPERATORS TO KEEP THE WORLD SAFE AND - 3THE CONSUMER HAPPY. - KNP PRESENTS FOR DGOLD DOCS AND STORY FOR 'CHERNOBYL' ORIGINAL CRACKED BY ESI PRESS SPACE TO TOGGLE THE SCREENS HI TO : ANDY THE BREAKER AND DCS !! FAIRLIGHT TRIAD YETI SNAKE 1001 CREW TCS -OMEGA- DIV D RELAX ANTITRAX IKARI MZP I DROPPED THE PICCY IT WAS TO UGLY ! - PROCEDURE - POWER ON WHEN THE FUEL TEMPERATURE HAS LEVELED AND POWER LEVEL IS STEADY ENTER POWER ON. OBSERVING THE ANNUNCIATORS WILL SHOW TURBINE SAFETY VALVE 13 IS OPEN AS WELL AS THE PRIMARY STEAM LINES. THE SOUND FROM THE TURBINE BUILDING SHOULD BE HEARD TO RISE HAS POWER INCREASES. IF ALL SIX GENERATORS ARE WORKING THEN THE POWER OUTPUT GAUGE SHOULD READ NEAR THE POWER LEVEL NEEDLE. IF ALL OTHER READINGS ARE NOMINAL OR WITHIN SAFE LIMITS POWER SHOULD CONTINUE. THE POWER LEVEL CAN BE RAISED OR LOWERED AS REQUESTED BY MOVING THE CONTROL RODS. THE CONTROL RODS SHOULD NOT BE ARRANGED IN AN IRREGULAR WAY. AS POWER DEMANDS CHANGE KEEP THIS IN MIND. EXIT-RETURN - -PRINT ANYKEY-CONTINUE - PROCEDURE - ABNORMAL READINGS HIGH FUEL TEMPERATURE OPEN VALVES 1-9. CHECK CORE FOR UNEVEN COOLANT FLOW. LOWER THE CONTROL RODS. CHECK CORE WATER LEVEL AND PRESSURE. LOW CORE WATER LEVEL CHECK DRAIN TANK VALVES. OPEN 36 TO INCREASE LEVEL. IN AN EMERGENCY CHECK THAT HIGH PRESSURE INJECTION VALVE 37 IS OPEN. CHECK REACTOR RELIEF VALVE 91. IT SHOULD BE CLOSED. HIGH CORE WATER LEVEL OPEN DRAIN TANK VALVE 39 AND MONITOR UNTIL LEVEL NOMINAL. CHECK DRAIN TANK LEVEL. LOW BOILER WATER LEVEL OPEN FEED WATER VALVES 82 OR 83 FOR BOILER A, 84 OR 85 FOR BOILER B. IF NO RESULT OPEN FEED WATER SOURCE VALVES. EXIT-RETURN - -PRINT ANYKEY-CONTINUE - HHRADIATION IN CONTAINMENT CLOSE CONTAINMENT RELIEF VALVES 80 AND 81. LOW LEVELS WILL RESULT DURING NORMAL OPERATION. IF LEVELS EXCEED 200 MILLIREM ISOLATE CONTAINMENT BY CLOSING ALL VALVES LEADING IN OR OUT. RADIATION IN AUXILLARY CLOSE TOWER VENTS 43,44,45,46 AND 47. CHECK DRAIN TANK AND PROCESS VALVES AND COOLANT CONDENSER RELIEF VALVE. POWER OFF AND SHUTDOWN THE REACTOR. REACTOR, BOILER, STEAM LINE RUPTURE ISOLATE CONTAINMENT. POWER OFF. SHUTDOWNTHE REACTOR (SCRAM). MONITOR CONTAINMENTPRESSURE. KEEP CORE WATER LEVEL UP BY CLOSING NECESSARY VALVES AND MAINTAININGHIGH PRESSURE INJECTION UNTIL FUEL TEMPERATURE IS DOWN. ***********END MANUAL************** - MANUAL THE OPERATION OF THE PLANT REQUIRES CONSTANT MONITORING OF ALL THE MAJOR SYSTEMS. VARIOUS STEPS MUST BE TAKEN AT THE APPROPRIATE TIMES TO MAINTAIN NOMINAL VALUES ON ALL READOUTS AND INDICATORS. THERE ARE A MIRIAD OF MONITORING DEVICESTO KEEP THE OPERATOR INFORMED OF ALL PERTAINENT DATA BUT IT IS THE JOB OF THE OPERATOR TO REGULARLY INSPECT THESE INDICATORS TO STAY ON TOP OF THE SITUATION. THE INSTRUMENTS ARE ALL AVAILABLE ON THE VIDEO MONITOR AND CAN BE ACCESSED BY TYPING IN THE APPROPRIATE LINE COMMAND. ANY TIME THE CURSOR IS PRESENT A LINE COMMAND CAN BE ENTERED AND ENGAGED BY PRESSING RETURN. EXIT-RETURN P-PRINT ANYKEY-CONTINUE A - HTHE LINE COMMANDS PLANT LAYOUT FLOORPLAN SYSTEM SCHEMATIC BLUEPRINT ANY OF THESE COMMANDS WILL ACCESS A SCHEMATIC REPRESENTATION OF THE ENTIRE FACILITY. ALL THE COMPONENTS OF THE PLANT ARE LAID OUT TO SHOW THEIR POSITION AND RELATIONSHIP. THE PIPE NETWORK IS ARRANGED TO PROVIDE A CLEAR UNDERSTANDING OF THE VALVE SYSTEM. ALL PARTS ARE LABELED OR BY NAME OR SYMBOL. ANY INDICATION ON THE LAYOUT CAN BE ENTER AS A COMMAND FOR A DESCRIPTION. THE ENTIRE PLANT CAN BE PERUSED BY USE OF THE JOYSTICK. THIS IS DISPLAY WILL BE VITAL IN LOCATING AND UNDER- STANDING THE WORKINGS OF THE PLANT. EXIT-RETURN P-PRINT ANYKEY-CONTINUE - CONTROL RODS RODS CRDM THESE LINE COMMANDS ACCESS THE CONTROL ROD DISPLAY. THIS A GRAPHIC DISPLAY NOT MEANT TO RELATE THE ACTUAL STRUCTURE. THE CONTROL ROD DRIVE MECHANISM IS THE MAIN POWER CONTROL DEVICE. WHEN THE RODS ARE REMOVED THE REACTIVITY OF THE FUEL INCREASES CREATING HEAT. WHEN THE CORE TEMPERATURE IS NOMINAL AND ALL OTHER PARTS AS WELL, POWER CAN BE PRO- DUCED BY THE TURBINE IN A CONTROLLED MANNER. SLIGHT MODIFICATIONS OF THE RODSCAN ACHIEVE PRECISE POWER LEVELS. THE RODS ARE ALWAYS MOVED IN GROUPS OF TWO DESIGNATED 1 - 8. NUMBERS ARE SEPARATED BY COMMAS. FOR EXAMPLE: TO MOVE THE RODS1 THROUGH 4 TO 50% ENTER: GROUP 1,2,3,4 50% EXIT-RETURN P-PRINT ANYKEY-CONTINUE - HHGAUGES GAUGE THESE COMMANDS ACCESS THE GAUGES THAT MONITOR THE MOST IMPORTANT ASPECTS OF THE SYSTEM. THE GAUGES WILL PROVE TO BE THE BEST WAY TO GAIN AN OVERVIEW OF HOW THE WHOLE PLANT IS INTERACTING. THE TWENTYFOUR GAUGES CAN BE SCANNED BY USING THE JOYSTICK. REACTOR CORE FLOW THESE COMMANDS WILL DISPLAY A COMPUTER PICTURE OF WHAT IS HAPPENING INSIDE THE REACTOR VESSEL. IT SHOW COOLANT FLOW AND TEMPERATURE IN THE HOT AND COLD LEGS OF THE COOLANT SYSTEM. EXIT-RETURN P-PRINT ANYKEY-CONTINUE - LHANNUNCIATORS THE ANNUNCIATORS ARE THE PRIMARY VALVE STATUS DISPLAYS. ONE HUNDRED INDICATOR LIGHTS WITH LABELS TO SHOW IMMEDIATELY WHETHER A VALVE IS OPENED OR CLOSED. THE VALVE SYSTEM IS AS IMPORTANT TO THE SAFE OPERATION OF THE PLANT AS ARE THE VEINS OF THE BODY. VALVES 1 - 9 ARE OF PARTICULAR IMPORTANCE. THEY CONTROL THE FLOW OF COOLANT TO AND FROM THE REACTOR TO THE STEAM GENERATORS. THIS IS THE HEART OF THE SYSTEM. BUT OTHER VALVES CAN BE ALSO VERY VITAL. A CLOSED VALVE ALONG THE STEAM LINE DURINGPOWER UP COULD DRIVE UP PRESSURE AND RUPTURE THE LINE OR EVEN THE BOILER. THE PLANT LAYOUT DISPLAY WILL REVEAL HOW THE VALVE SYSTEM IS DESIGNED AND WHAT VALVES ARE OF PARTICULAR INTEREST. ALSO, MANY VALVES ARE COMPUTER OPERATED AUTOMATICALLY AND THE POSSIBILITY OF MALFUNCTION CANNOT BE RULED OUT. EXIT-RETURN P-PRINT ANYKEY-CONTINUE - OPEN CLOSE WHILE VIEWING THE ANNUNCIATORS CONTROL OF ALL THE VALVES IS AVAILABLE BY ENTERING ONE OF THESE COMMANDS FOLLOWED BY A NUMBER OR NUMBERS SEPARATED BY COMMAS. FOR EXAMPLE: TO OPEN VALVES 23,24,67,80 ENTER: OPEN 23,24,67,80 AND THE SAME WITH CLOSE. THE ANNUN- CIATOR BOARD WILL REFLECT THE ACTION. VALVE SEQUENCE COMMANDS ARE: STARTUP - OPENS ALL VALVES NECESSARY FOR CONTROL RODS WITHDRAWAL. POWER ON - OPENS THE STEAM LINE VALVES SO THE TURBINE CAN START. POWER OFF -CLOSES THE STEAM LINE AND DISENGAGES THE TURBINE. SHUTDOWN -CLOSES POWER DOWN VALVES. - ALARM PANEL THESE COMMANDS WILL DISPLAY THE ALARM PANEL SHOWING NEARLY 100 SOURCES OF POSSIBLE TROUBLE. THE ROWS OF LIGHTS ARE RED WHEN OFF AND YELLOW WHEN AN ALARM SOURCE HAS BEEN DETECTED. AN ALARM BELL ALSO SOUNDS WHEN A LIGHT IS ON. USING THE COMMAND LIGHT OR L FOLLOWED BY A NUMBER NEXT TO A LIGHT WILL PRINTOUT THE SOURCE OF THE ALARM. THE F1 KEY WILL STOP THE BELL AND THE F3 KEY WILL CLEAR THE PANEL. THE ALARM SOUND SYSTEM CAN BE TESTED BY ENTERING BELL OR BUZZER. THE ALARMS SOUND UNDER EVEN UNDER NORMAL CIRCUMSTANCES TO ALERT THE OPERATOR OF OTHER THAN NOMINAL STATES. EXIT-RETURN P-PRINT ANYKEY-CONTINUE - SCRAM EMERGENCY REACTOR SHUTDOWN. THE OPERATORCAN SCRAM THE REACTOR IF CONDITIONS ARE SEVERE. AN AUTOMATIC SCRAM SYSTEM IS ALSO INCLUDED. CLEAR - CLR - F7 KEY - WILL CLEAR THE DISPLAY SCREEN. VALVE- AND A NUMBER WILL NAME THE VALVE.TANK - AND A LETTER WILL NAME THE TANK. INQUIRY- FOLLOWED BY A RELEVANT WORD WILL PROVIDE AN EXPLANATION. PRINT- WILL DUMP THE LINE PRINTER BUFFER TO A PRINTER (COMMODORE STANDARD)ON LINE- WILL NOTIFY THE COMPUTER OF THE OPERATORS CONTROL. OFF LINE- WILL SHUTDOWN THE PLANT. MANUAL- PROVIDES THESE INSTRUCTIONS. F5 KEY - WILL CHANGE THE TEXT COLOR. EXIT-RETURN - -PRINT ANYKEY-CONTINUE HIN LIM9TC - HPROCEDURE - GOING ON LINE ENTER ON LINE TO NOTIFY THE COMPUTER. CHECK ANNUNCIATORS TO SEE THAT VALVES 1 - 9 ARE OPEN. CHECK THE GAUGES FOR UNUSUAL READINGS. WATER LEVEL IN THE REACTOR, THE BOILERS AND THE PRESSURIZER SHOULD BE NEAR THE MIDDLE OF THE DIAL. CHECK THE CORE FOR COOLANT FLOW AND TEMPERATURE. THE CORE SHOULD BE LESS THAN 300 DEGREES. ENTER STARTUP TO OPEN THE INITIAL VALVESAND THEN GO TO THE CONTROL ROD DISPLAY. BEGIN BY RAISING GROUP 1,2,3,4 TO 25%. AFTER THIS CHECK THE GAUGES FOR POWER LEVEL AND FUEL TEMPERATURE. ALSO CHECK THE CORE FOR EVEN COOLANT FLOW. POWER LEVEL WILL SHOW THE POTENTIAL. POWER OUTPUT WILL RISE WHEN THE TURBINE IS ENGAGED. EXIT-RETURN P-PRINT ANYKEY-CONTINUE - HCHERNOBYL - ONCE A SMALL PROVINCE VIRTUALLY UNKNOWN OUTSIDE THE SOVIET UNION. TODAY IT IS A WORD ADDED TO THE GROWING LEXICON OF MODERN FEARS. TO MOSTPEOPLE THE WORD MEANS NUCLEAR DISASTER. NOT BY WAR OR WEAPONS BUT BY A SEEMINGLYBENIGN EVERYDAY PRACTICALITY - THE NEED FOR ELECTRIC POWER. WE ARE COMPLETELY DEPENDENT ON ELECTRIC POWER. WITHOUT IT THE WORLD WOULD PLUNGEINTO DARKNESS IN MORE WAYS THAN ONE. PRODUCING THE MASSIVE REQUIREMENTS OF MODERN SOCIETY'S ELECTRICAL DEMANDS IS VERY EXPENSIVE AND THE METHODS OF GENERATING ELECTRICITY ARE LIMITED. POWER CAN BE MADE BY HYDROELECTRIC PLANTS THAT USE THE NATURAL FORCE OF FLOWING WATER. VARIOUS FOSSIL FUELS CAN BE BURNED TO BOIL WATER THAT MAKES STEAM THAT IS USED TO TURN GENERATORS. OTHER SMALLSCALE METHODS INCLUDE SOLAR AND WIND DRIVEN POWER GENERATORS. - NATURAL GENERATING METHODS ARE CLEAN BUT LIMITED BY NATURE. FUEL BURNING IS VERY DESTRUCTIVE TO THE ENVIROMENT AND NATURAL FUEL SOURCES DWINDLE. A NEW WAY OF BOILING WATER WITHOUT BURNING FOSSIL FUEL WAS DEVELOPED IN THE 1950'S. ATOMIC RESEARCH SHOWED THAT THE NATURAL INTERACTION OF SOME ELEMENTSPRODUCED A GREAT DEAL OF HEAT AS THE RESULT OF NUCLEAR FISSION AND THE FUEL DID NOT BURN AWAY IN THE USUAL SENSE. BECAUSE THE HEAT WAS MADE ON AN ATOMIC SCALE THE SOURCE COULD LAST FOR A VERY LONG TIME AND, WITH ONE EXCEPTION, THE POWER WAS CLEAN. THE EXCEPTION IS OFCOURSE RADIOACTIVITY. RADIOACTIVE ISOTOPES ARE AMONG THE DEADLIEST ELEMENTS KNOWN. THE REASON THEY MAKE HEAT IS THE SAME REASON THEY KILL. - THE FOLLOWING PROGRAM WAS DEVELOPED TO DEMONSTRATE IN A LIMITED WAY SOME OF THE COMPLEXITIES OF USING ATOMIC ENERGY TO MAKE ELECTRICITY. THE BASIC CONCEPT IS FAIRLY SIMPLE AND EXCEPT FOR THE HEAT SOURCE IS OLD TECH- NOLOGY. WATER BOILS, STEAM RESULTS AND, UNDER HIGH PRESSURE, IS USED TO TURN A TURBINE THAT RUNS THE ELECTRIC GENERATORS. IN IT'S BRIEF HISTORY THE NUCLEAR ENERGYINDUSTRY HAS PROVEN TO BE ONE OF THE SAFEST AND CLEANEST ENERGY SOURCES. THE PROBLEM IS THAT IT ONLY TAKES ONE MAJOR ACCIDENT TO KILL HUNDREDS OF THOUSANDS OF PEOPLE AND LAY WASTE TO MILLIONS OF ACRES OF LAND FOR THOUSANDS OF YEARS. THE DESIGN OF A PLANT HAS THIS IN MIND. ALL IT TAKES ARE CAREFUL AND EXPERIENCEDOPERATORS TO KEEP THE WORLD SAFE AND THE CONSUMER HAPPY. - 6KNP PRESENTS FOR DGOLD - 6 >DOCS AND STORY FOR 'CHERNOBYL' - 5 7ORIGINAL CRACKED BY ESI - +PRESS SPACEB TO0GGLE THE SCREENS - #HI TO : ANDY THE BREAKER AND DCS !! - <FAIRLIGHT TRIAD YETI SNAKE - <1001 CREW TCS -OMEGA- DIV D - ;RELAX ANTITRAX IKARI MZP - ? 3I DROPPED THE PICCY - 0IT WAS TO UGLY ! - 4PROCEDURE - POWER ON - %WHEN THE FUEL TEMPERATURE HAS LEVELED - _AND POWER LEVEL IS STEADY ENTER - $OBSERVING THE ANNUNCIATORS WILL SHOW - "TURBINE SAFETY VALVE 13 IS OPEN AS - $WELL AS THE PRIMARY STEAM LINES. THE - SOUND FROM THE TURBINE BUILDING SHOULD BE HEARD TO RISE HAS POWER INCREASES. - IF ALL SIX GENERATORS ARE WORKING THEN THE POWER OUTPUT GAUGE SHOULD READ NEAR THE POWER LEVEL NEEDLE. IF ALL OTHER - #READINGS ARE NOMINAL OR WITHIN SAFE - LIMITS POWER SHOULD CONTINUE. THE POWER LEVEL CAN BE RAISED OR LOWERED AS - %REQUESTED BY MOVING THE CONTROL RODS. - THE CONTROL RODS SHOULD NOT BE ARRANGED IN AN IRREGULAR WAY. AS POWER DEMANDS - 9CHANGE KEEP THIS IN MIND. - -PRINT ANYKEY-CONTINUE - =PROCEDURE - ABNORMAL READINGS - 3 5HIGH FUEL TEMPERATURE - OPEN VALVES 1-9. CHECK CORE FOR UNEVEN COOLANT FLOW. LOWER THE CONTROL RODS. - $CHECK CORE WATER LEVEL AND PRESSURE. - , 4LOW CORE WATER LEVEL - #CHECK DRAIN TANK VALVES. OPEN 36 TO - %INCREASE LEVEL. IN AN EMERGENCY CHECK - %THAT HIGH PRESSURE INJECTION VALVE 37 - #IS OPEN. CHECK REACTOR RELIEF VALVE - 891. IT SHOULD BE CLOSED. - 8 5HIGH CORE WATER LEVEL - $OPEN DRAIN TANK VALVE 39 AND MONITOR - %UNTIL LEVEL NOMINAL. CHECK DRAIN TANK - 6LOW BOILER WATER LEVEL - #OPEN FEED WATER VALVES 82 OR 83 FOR - #BOILER A, 84 OR 85 FOR BOILER B. IF - NO RESULT OPEN FEED WATER SOURCE VALVES. EXIT-RETURN - -PRINT ANYKEY-CONTINUE - HHRADIATION IN CONTAINMENT - CLOSE CONTAINMENT RELIEF VALVES 80 AND 81. LOW LEVELS WILL RESULT DURING - NORMAL OPERATION. IF LEVELS EXCEED 200 MILLIREM ISOLATE CONTAINMENT BY CLOSING ALL VALVES LEADING IN OR OUT. - 3 6RADIATION IN AUXILLARY - #CHECK DRAIN TANK AND PROCESS VALVES - #AND COOLANT CONDENSER RELIEF VALVE. - #POWER OFF AND SHUTDOWN THE REACTOR. - #REACTOR, BOILER, STEAM LINE RUPTURE - ISOLATE CONTAINMENT. POWER OFF. SHUTDOWNTHE REACTOR (SCRAM). MONITOR CONTAINMENTPRESSURE. KEEP CORE WATER LEVEL UP BY - CLOSING NECESSARY VALVES AND MAINTAININGHIGH PRESSURE INJECTION UNTIL FUEL - 4TEMPERATURE IS DOWN. - #THE OPERATION OF THE PLANT REQUIRES - $CONSTANT MONITORING OF ALL THE MAJOR - $SYSTEMS. VARIOUS STEPS MUST BE TAKEN - $AT THE APPROPRIATE TIMES TO MAINTAIN - "NOMINAL VALUES ON ALL READOUTS AND - THERE ARE A MIRIAD OF MONITORING DEVICESTO KEEP THE OPERATOR INFORMED OF ALL - 2PERTAINENT DATA BUBT I,S THE JOB OF - THE OPERATOR TO REGULARLY INSPECT THESE INDICATORS TO STAY ON TOP OF THE - $THE INSTRUMENTS ARE ALL AVAILABLE ON - %THE VIDEO MONITOR AND CAN BE ACCESSED - !BY TYPING IN THE APPROPRIATE LINE - COMMAND. ANY TIME THE CURSOR IS PRESENT A LINE COMMAND CAN BE ENTERED AND - ;ENGAGED BY PRESSING RETURN. - %EXIT-RETURN P-PRINT ANYKEY-CONTINUE - HTHE LINE COMMANDS - #ANY OF THESE COMMANDS WILL ACCESS A - SCHEMATIC REPRESENTATION OF THE ENTIRE FACILITY. ALL THE COMPONENTS OF THE - PLANT ARE LAID OUT TO SHOW THEIR - #POSITION AND RELATIONSHIP. THE PIPE - NETWORK IS ARRANGED TO PROVIDE A CLEAR UNDERSTANDING OF THE VALVE SYSTEM. ALL PARTS ARE LABELED OR BY NAME OR SYMBOL. ANY INDICATIBON 1THE LAYOUT CAN BE - %ENTER AS A COMMAND FOR A DESCRIPTION. - "THE ENTIRE PLANT CAN BE PERUSED BY - 7USE OF THE JOYSTICK. THBIS 'DISPLAY - $WILL BE VITAL IN LOCATING AND UNDER- - #STANDING THE WORKINGS OF THE PLANT. - 'EXIT-RETURN P-PRINT ANYKEY-CONTINUE - THESE LINE COMMANDS ACCESS THE CONTROL ROD DISPLAY. THIS A GRAPHIC DISPLAY NOT MEANT TO RELATE THE ACTUAL STRUCTURE. - THE CONTROL ROD DRIVE MECHANISM IS THE MAIN POWER CONTROL DEVICE. WHEN THE - RODS ARE REMOVED THE REACTIVITY OF THE FUEL INCREASES CREATING HEAT. WHEN THE CORE TEMPERATURE IS NOMINAL AND ALL - OTHER PARTS AS WELL, POWER CAN BE PRO- DUCED BY THE TURBINE IN A CONTROLLED - MANNER. SLIGHT MODIFICATIONS OF THE RODSCAN ACHIEVE PRECISE POWER LEVELS. THE - RODS ARE ALWAYS MOVED IN GROUPS OF TWO DESIGNATED 1 - 8. NUMBERS ARE SEPARATED BY COMMAS. FOR EXAMPLE: TO MOVE THE RODS1 THROUGH 4 TO 50% ENTER: - %EXIT-RETURN P-PRINT ANYKEY-CONTINUE - %THESE COMMANDS ACCESS THE GAUGES THAT - "MONITOR THE MOST IMPORTANT ASPECTS - $OF THE SYSTEM. THE GAUGES WILL PROVE - TO BE THE BEST WAY TO GAIN AN OVERVIEW OF HOW THE WHOLE PLANT IS INTERACTING. THE TWENTYFOUR GAUGES CAN BE SCANNED - 6BY USING THE JOYSTICK. - THESE COMMANDS WILL DISPLAY A COMPUTER PICTURE OF WHAT IS HAPPENING INSIDE THE REACTOR VESSEL. IT SHOW COOLANT FLOW - #AND TEMPERATURE IN THE HOT AND COLD - ;LEGS OF THE COOLANT SYSTEM. - %EXIT-RETURN P-PRINT ANYKEY-CONTINUE - THE ANNUNCIATORS ARE THE PRIMARY VALVE STATUS DISPLAYS. ONE HUNDRED INDICATOR LIGHTS WITH LABELS TO SHOW IMMEDIATELY WHETHER A VALVE IS OPENED OR CLOSED. - #THE VALVE SYSTEM IS AS IMPORTANT TO - THE SAFE OPERATION OF THE PLANT AS ARE THE VEINS OF THE BODY. VALVES 1 - 9 - "ARE OF PARTICULAR IMPORTANCE. THEY - CONTROL THE FLOW OF COOLANT TO AND FROM THE REACTOR TO THE STEAM GENERATORS. - "THBIS <THE HEART OF THE SYSTEM. BUT - OTHER VALVES CAN BE ALSO VERY VITAL. A CLOSED VALVE ALONG THE STEAM LINE DURINGPOWER UP COULD DRIVE UP PRESSURE AND - $RUPTURE THE LINE OR EVEN THE BOILER. - $THE PLANT LAYOUT DISPLAY WILL REVEAL - $HOW THE VALVE SYSTEM IS DESIGNED AND - WHAT VALVES ARE OF PARTICULAR INTEREST. ALSO, MANY VALVES ARE COMPUTER OPERATED AUTOMATICALLY AND THE POSSIBILITY OF - MALFUNCTION CANNOT BE RULED OUT. - 'EXIT-RETURN P-PRINT ANYKEY-CONTINUE - WHILE VIEWING THE ANNUNCIATORS CONTROL OF ALL THE VALVES IS AVAILABLE BY - ENTERING ONE OF THESE COMMANDS FOLLOWED BY A NUMBER OR NUMBERS SEPARATED BY - #COMMAS. FOR EXAMPLE: TO OPEN VALVES - #AND THE SAME WITH CLOSE. THE ANNUN- - %CIATOR BOARD WILL REFLECT THE ACTION. - + <VALVE SEQUENCE COMMANDS ARE: - %STARTUP - OPENS ALL VALVES NECESSARY - FOR CONTROL RODS WITHDRAWAL. POWER ON - OPENS THE STEAM LINE VALVES - 9SO THE TURBINE CAN START. - $POWER OFF -CLOSES THE STEAM LINE AND - 7DISENGAGES THE TURBINE. - $SHUTDOWN -CLOSES POWER DOWN VALVES. - %THESE COMMANDS WILL DISPLAY THE ALARM - #PANEL SHOWING NEARLY 100 SOURCES OF - $POSSIBLE TROUBLE. THE ROWS OF LIGHTS - #ARE RED WHEN OFF AND YELLOW WHEN AN - "ALARM SOURCE HAS BEEN DETECTED. AN - +ALARM BELL ALSO SOUNDS WHEN A LIGHT IS ON. - %USING THE COMMAND LIGHT OR L FOLLOWED - BY A NUMBER NEXT TO A LIGHT WILL - %PRINTOUT THE SOURCE OF THE ALARM. THE - $F1 KEY WILL STOP THE BELL AND THE F3 - 9KEY WILL CLEAR THE PANEL. - $THE ALARM SOUND SYSTEM CAN BE TESTED - ;BY ENTERING BELL OR BUZZER. - !THE ALARMS SOUND UNDER EVEN UNDER - !NORMAL CIRCUMSTANCES TO ALERT THE - &OPERATOR OF OTHER THAN NOMINAL STATES. - EXIT-RETURN P-PRINT ANYKEY-CONTINUE - EMERGENCY REACTOR SHUTDOWN. THE OPERATORCAN SCRAM THE REACTOR IF CONDITIONS ARE SEVERE. AN AUTOMATIC SCRAM SYSTEM IS - .ALSO INCLUDED. - F7 KEY - WILL CLEAR THE DISPLAY SCREEN. VALVE- AND A NUMBER WILL NAME THE VALVE.TANK - AND A LETTER WILL NAME THE TANK. INQUIRY- FOLLOWED BY A RELEVANT WORD - <WILL PROVIDE AN EXPLANATION. - (PRINT- WILL DUMP THE LINE PRINTER BUFFER - TO A PRINTER (COMMODORE STANDARD)ON LINE- WILL NOTIFY THE COMPUTER OF - 6THE OPERATORS CONTROL. - "OFF LINE- WILL SHUTDOWN THE PLANT. - $MANUAL- PROVIDES THESE INSTRUCTIONS. - $F5 KEY - WILL CHANGE THE TEXT COLOR. - -PRINT ANYKEY-CONTINUE - HPROCEDURE - GOING ON LINE - ENTER ON LINE TO NOTIFY THE COMPUTER. CHECK ANNUNCIATORS TO SEE THAT VALVES - /1 - 9 ARE OPEN. - CHECK THE GAUGES FOR UNUSUAL READINGS. WATER LEVEL IN THE REACTOR, THE BOILERS AND THE PRESSURIZER SHOULD BE NEAR THE MIDDLE OF THE DIAL. - #CHECK THE CORE FOR COOLANT FLOW AND - $TEMPERATURE. THE CORE SHOULD BE LESS - 1THAN 300 DEGREES. - 2ENTER STARTUP TO OPEN THE INITIAL VALVESAND THEN GBO T - >HE CONTROL ROD DISPLAY. BEGIN BY RAISING GROUP 1,2,3,4 TO 25%. - %AFTER THIS CHECK THE GAUGES FOR POWER - LEVEL AND FUEL TEMPERATURE. ALSO CHECK THE CORE FOR EVEN COOLANT FLOW. POWER - $LEVEL WILL SHOW THE POTENTIAL. POWER - $OUTPUT WILL RISE WHEN THE TURBINE IS - %EXIT-RETURN P-PRINT ANYKEY-CONTINUE - 5ONCE A SMALL PROVINCE - $VIRTUALLY UNKNOWN OUTSIDE THE SOVIET - UNION. TODAY IT IS A WORD ADDED TO THE GROWING LEXICON OF MODERN FEARS. TO MOSTPEOPLE THE WORD MEANS NUCLEAR DISASTER. NOT BY WAR OR WEAPONS BUT BY A SEEMINGLYBENIGN EVERYDAY PRACTICALITY - THE NEED FOR ELECTRIC POWER. - WE ARE COMPLETELY DEPENDENT ON ELECTRIC POWER. WITHOUT IT THE WORLD WOULD PLUNGEINTO DARKNESS IN MORE WAYS THAN ONE. - %PRODUCING THE MASSIVE REQUIREMENTS OF - MODERN SOCIETY'S ELECTRICAL DEMANDS IS VERY EXPENSIVE AND THE METHODS OF - #GENERATING ELECTRICITY ARE LIMITED. - "POWER CAN BE MADE BY HYDROELECTRIC - $PLANTS THAT USE THE NATURAL FORCE OF - $FLOWING WATER. VARIOUS FOSSIL FUELS - CAN BE BURNED TO BOIL WATER THAT MAKES STEAM THAT IS USED TO TURN GENERATORS. - OTHER SMALLSCALE METHODS INCLUDE SOLAR AND WIND DRIVEN POWER GENERATORS. - $NATURAL GENERATING METHODS ARE CLEAN - BUT LIMITED BY NATURE. FUEL BURNING IS VERY DESTRUCTIVE TO THE ENVIROMENT AND NATURAL FUEL SOURCES DWINDLE. - "A NEW WAY OF BOILING WATER WITHOUT - $BURNING FOSSIL FUEL WAS DEVELOPED IN - THE 1950'S. ATOMIC RESEARCH SHOWED THAT THE NATURAL INTERACTION OF SOME ELEMENTSPRODUCED A GREAT DEAL OF HEAT AS THE - RESULT OF NUCLEAR FISSION AND THE FUEL DID NOT BURN AWAY IN THE USUAL SENSE. - + ;BECAUSE THE HEAT WAS MADE OBN A - TOMIC SCALE THE SOURCE COULD LAST FOR A VERY LONG TIME AND, WITH ONE EXCEPTION, THE POWER WAS CLEAN. - (THE EXCEPTION IS OFCOURSE RADIOACTIVITY. - "RADIOACTIVE ISOTOPES ARE AMONG THE - $DEADLIEST ELEMENTS KNOWN. THE REASON - -THEY MAKE HEAT IS THE SAME REASON THEY KILL. - THE FOLLOWING PROGRAM WAS DEVELOPED TO DEMONSTRATE IN A LIMITED WAY SOME OF - <THE COMPLEXITIES OF USING ATOMIC ENERGY TO MAKE ELECTRICITY. - THE BASIC CONCEPT IS FAIRLY SIMPLE AND EXCEPT FOR THE HEAT SOURCE IS OLD TECH- NOLOGY. WATER BOILS, STEAM RESULTS AND, UNDER HIGH PRESSURE, IS USED TO TURN - A TURBINE THAT RUNS THE ELECTRIC - IN IT'S BRIEF HISTORY THE NUCLEAR ENERGYINDUSTRY HAS PROVEN TO BE ONE OF THE - SAFEST AND CLEANEST ENERGY SOURCES. THE PROBLEM IS THAT IT ONLY TAKES ONE MAJOR ACCIDENT TO KILL HUNDREDS OF THOUSANDS OF PEOPLE AND LAY WASTE TO MILLIONS OF ACRES OF LAND FOR THOUSANDS OF YEARS. - THE DESIGN OF A PLANT HAS THIS IN MIND. ALL IT TAKES ARE CAREFUL AND EXPERIENCEDOPERATORS TO KEEP THE WORLD SAFE AND - 3THE CONSUMER HAPPY. -
**** COMMODORE 64 BASIC V2 **** 64K RAM SYSTEM 38911 BASIC BYTES FREE READY. LOAD"CHERNOBYL ESI/DG",8,1: SEARCHING FOR CHERNOBYL ESI/DG LOADING READY. RUN - F TURBINE BUILDING - CONTAINMENT - (8D(8 X XPL$ - PRESSURIZER PRESSURIZER PRESSURIZER - G COOLANT SYS STEAM LINES STEAM LINES CONTAINMENT DRAIN TANK CONTAINMENT AUXILLARY COOLING STACK REACTIVITY - HIGH PRESSURE INJ - (0D(0 /HP/HPPH/X - 0( 48T,HDBEFGMNOTUVZ[/ - -PRINT ANYKEY-CONTINUE - IS THE PRINTER READY - - H OPERATOR ON DUTYNAME:TIME:CODE: - ACCESS DENIED BNL104-PNEXIT-RETURN - -PRINT ANY KEY-CONT.INSERT DISK - H* SEQUENCE ENDS - CONTAINMENT PRESSURE WITHIN LIMITS - CORE COOLANT RETURN FROM BOILER A - CORE COOLANT OUTPUT TO BOILER A - CORE COOLANT RETURN FROM BOILER B - CORE COOLANT OUTPUT TO BOILER B - BOILER A COOLANT RETURN TO CORE - BOILER A COOLANT INPUT FROM CORE - BOILER B COOLANT RETURN TO CORE - BOILER B COOLANT INPUT FROM CORE - PRESSURIZER CUTOFF AND ISOLATION - STEAM LINE A BLOCK VALVE TO TURBINE - MAIN STEAM LINE BLOCK VALVE TO TURBINE - TURBINE SAFETY VALVE (AUTOMATIC) - WATER RETURN LINE FROM TURBINE - RETURN WATER PROCESS LINE - STEAM LINE B BLOCK VALVE TO TURBINE - RETURN WATER PROCESS TANK INPUT - DEGASIFIER A CUTOFF VALVE - DEGASIFIER B CUTOFF VALVE - NEW COOLANT TANK 1 OUTPUT - NEW COOLANT TANK 2 OUTPUT - NEW COOLANT LINE 1 BLOCK VALVE - NEW COOLANT LINE 2 BLOCK VALVE - REACTOR COOLANT SUPPLY VALVE - HIGH PRESSURE INJECTION CUTOFF - CORE COOLANT DRAIN TANK RELIEF - WASTE STORAGE INPUT - COOLING TOWER VENT LINE (RELEASE) - RETURN WATER PUMP BYPASS LINE - RETURN WATER DEGASIFIER BLEED VALVE - AUXILLARY PROCESS BLEED VALVE - CORE DRAIN TANK BLEED VALVE - RETURN WATER FILTER BYPASS LINE - RETURN WATER PUMP BYPASS LINE - FEED WATER TANK SUPPLY LINE - COOLANT CONDENSER INLET VALVE - WASTE OUTLET LINE - WASTE SYSTEM OUTLET LINE - WASTE OUTLET SEND LINE - PROCESS TANK OUTLET LINE - CORE DRAIN TANK LINE - COOLANT TANK RELIEF VALVE - WASTE PROCESS EXCHANGE LINE - EXHAUST VENTING LINE (RELEASE) - RADIOACTIVE WASTE COLLECTION LINE - CONTAINMENT RELIEF VALVE (RELEASE) - FEED WATER TO BOILER A CUTOFF - FEED WATER TO BOILER B CUTOFF - STEAM LINE CONDENSER - BOILER A SAFETY VALVE (AUTO) - REACTOR VESSEL SAFETY VALVE (AUTO) - BOILER B SAFETY VALVE (AUTO) - PRESSURIZER SAFETY VALVE (AUTO) - CORE DRAIN TANK RELIEF (TO SUMP) - FILTER TANK RELIEF (TO SUMP) - COOLANT TANK 1 DUMP VALVE - COOLANT TANK 2 DUMP VALVE - PROCESS TANK RELIEF VALVE (TO SUMP) - COOLANT CONDENSER DUMP LINE - PRESSURIZER MAINTAIN CORE PRESSURE - DEGASIFIER REMOVE GASEOUS PRODUCTS - SURGE TANK PRESSURE EXCURSION RELIEF - CONDENSER RETURN STEAM TO WATER - GAS COLLECTION REMOVE CONTAINMENT GAS - RAD COLLECTOR CONTAINMENT RADIATION - RETURN WATER FILTER PREPROCESS - STEAM LINE FILTER REMOVE BYPRODUCTS - PROCESSOR REMOVE BYPRODUCTS - DRAIN TANK COLLECTOR PUMP - WASTE STORAGE TANK - WASTE COLLECTION AND DISTRIBUTION TANK - PRIMARY COOLANT PUMP SYSTEM A INPUT - PRIMARY COOLANT PUMP SYSTEM B INPUT - PRIMARY COOLANT PUMP SYSTEM A OUTPUT - PRIMARY COOLANT PUMP SYSTEM B OUTPUT - HIGH PRESSURE INJECTION PUMP - NEW COOLANT DISTRIBUTOR PUMP - ELECTRICAL GENERATOR - AUXILLARY GENERATOR - VENTING PUMP COOLING TOWER - COOLANT TANK 1 OUTPUT PUMP - COOLANT TANK 2 OUTPUT PUMP - SAMPLE LINES TO ANALYSIS LAB - CORE INPUT VALVE 1 HAS CLOSED - CORE OUTPUT VALVE 2 HAS CLOSED - CORE INPUT VALVE 3 HAS CLOSED - CORE OUTPUT VALVE 4 HAS CLOSED - BOILER OUTPUT VALVE 5 HAS CLOSED - BOILER INPUT VALVE 6 HAS CLOSED - BOILER OUTPUT VALVE 7 HAS CLOSED - BOILER INPUT VALVE 8 HAS CLOSED - PRESSURIZER CUTOFF VALVE 9 HAS CLOSED - TURBINE SAFETY VALVE 13 HAS CLOSED - STEAM DUMP LINE VALVE 24 HAS OPENED - HIGH PRESSURIZER PRESSURE - HIGH PRESSURIZER WATER LEVEL - HIGH PRESSURIZER TEMPERATURE - HIGH STEAM LINE PRESSURE - CONTAINMENT RELIEF VALVE HAS OPENED - COOLANT PUMP A1 MALFUNCTION - COOLANT PUMP A2 MALFUNCTION - COOLANT PUMP B1 MALFUNC - COOLANT PUMP B2 MALFUNCTION - FEED WATER PUMP W1 MALFUNCTION - FEED WATER PUMP W2 MALFUNCTION - FEED WATER PUMP W3 MALFUNCTION - FEED WATER PUMP W4 MALFUNCTION - HIGH CONTAINMENT PRESSURE - HIGH CONTAINMENT TEMPERATURE - HIGH PRESSURE IN BOILER A - HIGH WATER LEVEL IN BOILER A - HIGH TEMPERATURE IN BOILER A - H.P.I. PUMP 1 MALFUNCTION - H.P.I. PUMP 2 MALFUNCTION - H.P.I. PUMP 3 MALFUNCTION - HIGH RADIATION IN CONTAINMENT - HIGH RADIATION IN AUXILLARY BLDG. - GENERATOR G1 MALFUNCTION - RADIATION IN ANALYSIS LAB - GENERATOR G2 MALFUNCTION - GENERATOR G3 MALFUNCTION - HIGH PRESSURE IN BOILER B - HIGH WATER LEVEL IN BOILER B - GENERATOR G4 MALFUNCTION - RADIATION IN COOLING TOWER - GENERATOR G5 MALFUNCTION - RADIATION IN CONTROL ROOM - GENERATOR G6 MALFUNCTION - LOW PRESSURIZER PRESSURE - RADIATION IN STEAM DUMP LINE DISCHARGE - SECURITY VIDEO MALFUNCTION - REACTOR VESSEL RUPTURE - PRESSURIZER RUPTURE - STEAM GENERATOR A RUPTURE - STEAM GENERATOR B RUPTURE - CORE DRAIN TANK RUPTURE - MAIN STEAM LINE RUPTURE - CORE COOLANT LINE RUPTURE - WASTE GAS TANK RUPTURE - HIGH TEMPERATURE IN BOILER B - LOW STEAM LINE PRESSURE - LOW PRESSURE IN BOILER A - CONTAINMENT BUILDING RUPTURE - CONTAINMENT SHIELD RUPTURE - RETURN WATER LINE RUPTURE - LOW PRESSURIZER WATER LEVEL - LOW PRESSURIZER TEMPERATURE - REACTOR TRIP AUTOMATIC SCRAM - REACTOR VESSEL RUPTURE - HIGH PRESSURE IN REACTOR VESSEL - LOW PRESSURE IN REACTOR VESSEL - HIGH CORE TEMPERATURE - LOW CORE TEMPERATURE - HIGH COOLANT LEVEL IN CORE - LOW COOLANT LEVEL IN CORE - EXCESS HYDROGEN IN REACTOR - HIGH FUEL TEMPERATURE - LOW FUEL TEMPERATURE - FUEL ASSEMBLY MISALIGNMENT - REACTOR VESSEL VIBRATION - IRREGULAR COOLANT FLOW IN CORE - LOW BORON CONCENTRATION - EXCESS HYDROGEN IN CONTAINMENT - LOW WATER LEVEL IN BOILER A - LOW TEMPERATURE IN BOILER A - LOW PRESSURE IN BOILER B - LOW WATER LEVEL IN BOILER B - LOW TEMPERATURE IN BOILER B - HIGH COOLANT SYSTEM TEMPERATURE - HIGH STEAM LINE TEMPERATURE - LOW COOLANT SYSTEM TEMPERATURE - LOW STEAM LINE TEMPERATURE - HIGH DRAIN TANK LEVEL - CONTAINMENT ISOLATION PROCEDURE - AUXILLARY ISOLATION PROCEDURE - COOLING TOWER VENTS CLOSED - THE PLANT IS OFF THE LINE - THE PLANT IS ON LINE - THE REACTOR IS AT COLD STANDBY - THE REACTOR IS AT HOT STANDBY - STARTUP SEQUENCE INITIATED - POWER ON SEQUENCE INITIATED - POWER OFF SEQUENCE INITIATED - SHUTDOWN SEQUENCE INITIATED - OPERATOR INITIATED SCRAM - OPERATOR INITIATED TURBINE TRIP - PRESSURIZER PRESSURE NOMINAL - PRESSURIZER LEVEL NOMINAL - PRESSURIZER TEMPERATURE NOMINAL - REACTOR PRESSURE NOMINAL - REACTOR COOLANT LEVEL NOMINAL - REACTOR TEMPERATURE NOMINAL - BOILER A PRESSURE NOMINAL - BOILER A LEVEL NOMINAL - BOILER A TEMPERATURE NOMINAL - BOILER B PRESSURE NOMINAL - BOILER B LEVEL NOMINAL - BOILER B TEMPERATURE NOMINAL - FUEL TEMPERATURE NOMINAL - COOLANT SYSTEM TEMPERATURE NOMINAL - STEAM LINE TEMPERATURE NOMINAL - STEAM LINE PRESSURE NOMINAL - CONTAINMENT PRESSURE WITHIN LIMITS - DRAIN TANK LEVEL WITHIN LIMITS - NO RADIATION IN CONTAINMENT - NO RADIATION IN AUXILLARY - NO RADIATION IN COOLING TOWER - REACTIVITY AT -5 - POWER OUTPUT AT 000 MEGAWATTS - POWER LEVEL AT 00% - REQUEST - POWER LEVEL TO 25% - REQUEST - POWER LEVEL TO 35% - REQUEST - POWER LEVEL TO 50% - REQUEST - POWER LEVEL TO 60% - REQUEST - POWER LEVEL TO 75% - REQUEST - POWER LEVEL TO 90% - REQUEST - POWER LEVEL TO 100% - THE REACTOR VESSEL IS A 50 FT. TALL - CONTAINER THAT HOLDS THE URANIUM FUEL - ASSEMBLY THAT COMPRISES THE CORE. - COOLANT FLOWS THROUGH THE VESSEL TO - REMOVE THE HEAT GENERATED BY THE FUEL - THROUGH THE PROCESS OF NUCLEAR FISSION. - THE HEATED WATER FROM THE CORE IS SENT - TO TWO STEAM GENERATORS OR BOILERS. THE - HEAT IS EXCHANGED BETWEEN THE COOLANT - AND THE BOILER WATER. THE WATER BOILS - AND GENERATES STEAM. THE COOLED COOLANT - RETURNS TO THE REACTOR. - THE TURBINE IS A VERY LARGE TURNING - DEVICE SIMILAR TO A JET ENGINE DESIGN. - THE STEAM PRODUCED BY THE BOILERS IS - SENT UNDER HIGH PRESSURE THROUGH THE - TURBINE MAKING IT SPIN. THE MOMENTUM IS - TRANSFERED TO ELECTRICAL GENERATORS TO - PRODUCE POWER. THE TURBINE MUST ALWAYS - BE IN MOTION THEREFORE IF STEAM IS NOT - AVAILABLE FOR NORMAL OPERATION THE - TURBINE IS KEPT MOVING BY AN ELECTRIC - MOTOR CALLED THE TURNING GEAR. - THE CONTAINMENT BUILDING IS A CONCRETE - DOMED STRUCTURE THAT HOUSES THE REACTOR - THE BOILERS AND RELATED EQUIPMENT. THE - CONTAINMENT IS A SEALED ENCLOSURE WITH - A MAXIMUM PRESSURE TOLERANCE OF 90 PSIG - AND WILL PREVENT ESCAPE OF RADIATION - OR GAS IF NOT RUPTURED OR BREACHED. - THE AUXILLARY BUILDING CONTAINS ALL THE - PRE AND POST REACTION EQUIPMENT SUCH AS - NEW COOLANT, WATER, WASTE HANDLING - DEVICES AND STORAGE TANKS. THE WASTE - REMOVAL SYSTEM IS ALSO HERE WHERE WASTE - PRODUCTS CAN BE PIPED TO TRUCKS FOR - TRANSPORT TO WASTE DISPOSAL SITES. - THE COOLANT USED IN THE REACTOR IS - IS WATER CONTAINING DISSOLVED BORON. - THE BORON IS A NEUTRON ABSORBENT THAT - HELPS TO CONTROL THE RATE OF FISSION. - THE CONCENTRATION OF BORON MUST BE AT - A SPECIFIED VALUE (PARTS PER MILLION) - FOR A NORMAL CONTROLLED REACTION. THE - WATER ITSELF ACTS TO INCREASE THE RATE - OF FISSION BY SLOWING THE NEUTRONS - BECAUSE SLOWER NEUTRONS HAVE A BETTER - CHANCE OF HITTING OTHER PARTICLES. - RADIATION IS THE NUCLEAR DECAY OF AN - UNSTABLE ELEMENT. NUCLEAR PATICLES FLY - OUT OF THE ELEMENT AT NEARLY THE SPEED - OF LIGHT. RADIATION IS HARMFUL BECAUSE - THE ENERGY OF THESE PARTICLES IS - DESTRUCTIVE TO TISSUE AND THEY PASS - EASILY THROUGH THE HUMAN BODY. - THE RADIATION FROM A NUCLEAR REACTOR - IS USUALLY RELEASED IN THE FORM OF GAS. - THE PRESSURIZER IS A LARGE TANK THAT - IS PARTIALLY FILLED WITH COOLANT AND - PARTLY WITH AIR. IT KEEPS THE COOLANT - IN THE REACTOR UNDER ENOUGH PRESSURE SO - THAT IT CANNOT BOIL OR TURN TO STEAM - AS THIS WOULD REDUCE THE HEAT REMOVING - CAPACITY OF THE COOLANT CAUSING FUEL - OVERHEATING. THE AIR BUBBLE IN THE - PRESSURIZER CAN BE EXPANDED BY HEATERS - TO INCREASE PRESSURE OR REDUCED BY - WATER SPRAYS TO DECREASE PRESSURE. - A DEGASIFIER REMOVES OR FILTERS THE GAS - BYPRODUCTS IN THE COOLANT AND WATER - LINES. GASES ARE PRODUCED BY THE VERY - HOT WATER REACTING WITH THE SURROUNDING - HIGH PRESSURE INJECTION IS AN EMERGENCY - SYSTEM TO MAINTAIN CORE COOLANT LEVEL - SHOULD THE PRESSURIZER OR COOLANT LINES - MALFUNCTION. IT IS AN AUTOMATIC SYSTEM. - A BLEED VALVE ALLOWS SMALL AMOUNTS OF - THE WATER TO BE TAPPED FROM THE MAIN - LINES FOR TESTING OR FILTERING. - FEED WATER IS THE BOILER WATER RESUPPLY - SYSTEM. THE STEAM GENERATED IS SENT TO - THE TURBINE, CONDENSED BACK INTO WATER - AND RETURNED TO AUXILLARY FOR PROCESS. - THE PROCESSED WATER THEN SUPPLIES THE - FEED WATER PUMPS AND THE WATER LEVEL - IN THE BOILERS IS MAINTAINED. - PROCESSORS AND FILTERS ARE USED AT MANY - POINTS ALONG THE FLOW PATH TO MAINTAIN - THE PURITY OF THE WATER. THEY ARE ALSO - USED IN THE AUXILLARY BLDG. TO REMOVE - WASTE PRODUCTS FROM THE SYSTEM. - A CONDENSER TURNS STEAM BACK INTO WATER - BY CHANGING TEMPERATURE AND PRESSURE. - CABLE JUNCTION IS WHERE ALL THE WIRING - FOR THE ENTIRE PLANT MEETS. MONITORING - OF THE PLANTS ELECTRICAL SYSTEM IS DONE - HERE AS WELL AS CIRCUIT TESTING. - REACTIVITY REFERS TO THE PERCENTAGE OF - NEUTRONS PRODUCED BY ATOMIC DECAY THAT - WILL COLLIDE WITH OTHER ATOMS PRODUCING - MORE NEUTRONS. THIS CAN BE RELATED TO - THE RATE OF THE FISSION PROCESS INSIDE - THE CORE THAT CREATES HEAT. IF NO BORON - WAS PRESENT, EACH COLLISION WOULD MAKE - 3 MORE NEUTRONS AND THE CHAIN REACTION - WOULD GROW EXPONENTIALLY. WITH NEUTRON - ABSORBENT BORON THE RATIO IS 1 TO 1 - AND A CONTROLLED REACTION RATE IS - MAINTAINED. WITH THE CONTROL RODS - INSERTED A NEGATIVE REACTIVITY RESULTS - AND LESS COLLISIONS OCCUR, REDUCING - THE POWER OUTPUT OF THE SYSTEM. - THE FUEL OF A NUCLEAR REACTOR IS MANY - TONS OF URANIUM FORMED INTO THOUSANDS - OF THIN RODS THAT ARE ENCASED IN - ZIRCONIUM CLADDING. THE FISSIONING OF - THE URANIUM ATOMS PRODUCES GREAT HEAT - WHICH IS USED TO PRODUCE POWER. - THE MELTING POINT OF URANIUM IS 5100 - DEGREES FAHRENHEIT BUT THE FUEL CAN - DISSOLVE AT 3200 DEGRESS. - POUNDS PER SQUARE INCH GAUGE IS UNIT OF - MEASURE OF PRESSURE. - A MEGAWATT IS EQUAL TO 1,000,000 WATTS. - ANNUNCIATORS ARE INDICATOR LIGHTS THAT - DISPLAY STATUS INFORMATION. MOST OF THE - ANNUNCIATORS RELATE TO VALVES AND LIT - WOULD MEAN THAT THE VALVE WAS OPEN. - THE CONTROL RODS ARE THE PRIMARY MEANS - OF CONTROLLING THE AMOUNT OF REACTIVITY - OF THE REACTOR. THIS RELATES DIRECTLY - TO THE POWER OUTPUT OF THE SYSTEM AND - SO THE CONTROL ROD DRIVE MECHANISM IS - USED TO INCREASE OR DECREASE THE POWER - PRODUCED BY THE NUCLEAR POWER PLANT. - HIGH PRESSURE INJ - C(0D(0 /HP/HPPH/X - 0( 48T,HDBEFGMNOTUVZ[/ - -PRINT ANYKEY-CONTINUE - IS THE PRINTER READY - - H OPERATOR ON DUTYNAME:TIME:CODE: - ACCESS DENIED BNL104-PNEXIT-RETURN - -PRINT ANY KEY-CONT.INSERT DISK - H* SEQUENCE ENDS - CONTAINMENT PRESSURE WITHIN LIMITS - CORE COOLANT RETURN FROM BOILER A - CORE COOLANT OUTPUT TO BOILER A - CORE COOLANT RETURN FROM BOILER B - CORE COOLANT OUTPUT TO BOILER B - BOILER A COOLANT RETURN TO CORE - BOILER A COOLANT INPUT FROM CORE - BOILER B COOLANT RETURN TO CORE - BOILER B COOLANT INPUT FROM CORE - PRESSURIZER CUTOFF AND ISOLATION - STEAM LINE A BLOCK VALVE TO TURBINE - MAIN STEAM LINE BLOCK VALVE TO TURBINE - TURBINE SAFETY VALVE (AUTOMATIC) - WATER RETURN LINE FROM TURBINE - RETURN WATER PROCESS LINE - STEAM LINE B BLOCK VALVE TO TURBINE - RETURN WATER PROCESS TANK INPUT - DEGASIFIER A CUTOFF VALVE - DEGASIFIER B CUTOFF VALVE - NEW COOLANT TANK 1 OUTPUT - NEW COOLANT TANK 2 OUTPUT - NEW COOLANT LINE 1 BLOCK VALVE - NEW COOLANT LINE 2 BLOCK VALVE - REACTOR COOLANT SUPPLY VALVE - HIGH PRESSURE INJECTION CUTOFF - CORE COOLANT DRAIN TANK RELIEF - WASTE STORAGE INPUT - COOLING TOWER VENT LINE (RELEASE) - RETURN WATER PUMP BYPASS LINE - RETURN WATER DEGASIFIER BLEED VALVE - AUXILLARY PROCESS BLEED VALVE - CORE DRAIN TANK BLEED VALVE - RETURN WATER FILTER BYPASS LINE - RETURN WATER PUMP BYPASS LINE - FEED WATER TANK SUPPLY LINE - COOLANT CONDENSER INLET VALVE - WASTE OUTLET LINE - WASTE SYSTEM OUTLET LINE - WASTE OUTLET SEND LINE - PROCESS TANK OUTLET LINE - CORE DRAIN TANK LINE - COOLANT TANK RELIEF VALVE - WASTE PROCESS EXCHANGE LINE - EXHAUST VENTING LINE (RELEASE) - RADIOACTIVE WASTE COLLECTION LINE - CONTAINMENT RELIEF VALVE (RELEASE) - FEED WATER TO BOILER A CUTOFF - FEED WATER TO BOILER B CUTOFF - STEAM LINE CONDENSER - BOILER A SAFETY VALVE (AUTO) - REACTOR VESSEL SAFETY VALVE (AUTO) - BOILER B SAFETY VALVE (AUTO) - PRESSURIZER SAFETY VALVE (AUTO) - CORE DRAIN TANK RELIEF (TO SUMP) - FILTER TANK RELIEF (TO SUMP) - COOLANT TANK 1 DUMP VALVE - COOLANT TANK 2 DUMP VALVE - PROCESS TANK RELIEF VALVE (TO SUMP) - COOLANT CONDENSER DUMP LINE - PRESSURIZER MAINTAIN CORE PRESSURE - DEGASIFIER REMOVE GASEOUS PRODUCTS - SURGE TANK PRESSURE EXCURSION RELIEF - CONDENSER RETURN STEAM TO WATER - GAS COLLECTION REMOVE CONTAINMENT GAS - RAD COLLECTOR CONTAINMENT RADIATION - RETURN WATER FILTER PREPROCESS - STEAM LINE FILTER REMOVE BYPRODUCTS - HIGH PRESSURE IN REACTOR VESSEL - LOW PRESSURE IN REACTOR VESSEL - HIGH CORE TEMPERATURE - LOW CORE TEMPERATURE - HIGH COOLANT LEVEL IN CORE - LOW COOLANT LEVEL IN CORE - EXCESS HYDROGEN IN REACTOR - HIGH FUEL TEMPERATURE - LOW FUEL TEMPERATURE - FUEL ASSEMBLY MISALIGNMENT - REACTOR VESSEL VIBRATION - IRREGULAR COOLANT FLOW IN CORE - LOW BORON CONCENTRATION - EXCESS HYDROGEN IN CONTAINMENT - LOW WATER LEVEL IN BOILER A - LOW TEMPERATURE IN BOILER A - LOW PRESSURE IN BOILER B - LOW WATER LEVEL IN BOILER B - LOW TEMPERATURE IN BOILER B - HIGH COOLANT SYSTEM TEMPERATURE - HIGH STEAM LINE TEMPERATURE - LOW COOLANT SYSTEM TEMPERATURE - LOW STEAM LINE TEMPERATURE - HIGH DRAIN TANK LEVEL - CONTAINMENT ISOLATION PROCEDURE - AUXILLARY ISOLATION PROCEDURE - COOLING TOWER VENTS CLOSED - THE PLANT IS OFF THE LINE - THE PLANT IS ON LINE - THE REACTOR IS AT COLD STANDBY - THE REACTOR IS AT HOT STANDBY - STARTUP SEQUENCE INITIATED - POWER ON SEQUENCE INITIATED - POWER OFF SEQUENCE INITIATED - SHUTDOWN SEQUENCE INITIATED - OPERATOR INITIATED SCRAM - OPERATOR INITIATED TURBINE TRIP - PRESSURIZER PRESSURE NOMINAL - PRESSURIZER LEVEL NOMINAL - PRESSURIZER TEMPERATURE NOMINAL - REACTOR PRESSURE NOMINAL - REACTOR COOLANT LEVEL NOMINAL - REACTOR TEMPERATURE NOMINAL - BOILER A PRESSURE NOMINAL - BOILER A LEVEL NOMINAL - BOILER A TEMPERATURE NOMINAL - BOILER B PRESSURE NOMINAL - BOILER B LEVEL NOMINAL - BOILER B TEMPERATURE NOMINAL - FUEL TEMPERATURE NOMINAL - COOLANT SYSTEM TEMPERATURE NOMINAL - STEAM LINE TEMPERATURE NOMINAL - STEAM LINE PRESSURE NOMINAL - CONTAINMENT PRESSURE WITHIN LIMITS - DRAIN TANK LEVEL WITHIN LIMITS - NO RADIATION IN CONTAINMENT - NO RADIATION IN AUXILLARY - NO RADIATION IN COOLING TOWER - REACTIVITY AT -5 - POWER OUTPUT AT 000 MEGAWATTS - POWER LEVEL AT 00% - REQUEST - POWER LEVEL TO 25% - REQUEST - POWER LEVEL TO 35% - REQUEST - POWER LEVEL TO 50% - REQUEST - POWER LEVEL TO 60% - REQUEST - POWER LEVEL TO 75% - REQUEST - POWER LEVEL TO 90% - REQUEST - POWER LEVEL TO 100% - - OFFERS: CHERNOBYL ONEPARTED BY KNP ON 10 OCT. 1987 IKARI RED SECTOR -MZP- LASER CRACKIN A D-GOLD PRODUCTION 1987 NG GEAR. - THE CONTAINMENT BUILDING IS A CONCRETE - DOMED STRUCTURE THAT HOUSES THE REACTOR - THE BOILERS AND RELATED EQUIPMENT. THE - CONTAINMENT IS A SEALED ENCLOSURE WITH - A MAXIMUM PRESSURE TOLERANCE OF 90 PSIG - AND WILL PREVENT ESCAPE OF RADIATION - OR GAS IF NOT RUPTURED OR BREACHED. - THE AUXILLARY BUILDING CONTAINS ALL THE - PRE AND POST REACTION EQUIPMENT SUCH AS - NEW COOLANT, WATER, WASTE HANDLING - DEVICES AND STORAGE TANKS. THE WASTE - REMOVAL SYSTEM IS ALSO HERE WHERE WASTE - PRODUCTS CAN BE PIPED TO TRUCKS FOR - TRANSPORT TO WASTE DISPOSAL SITES. - THE COOLANT USED IN THE REACTOR IS - IS WATER CONTAINING DISSOLVED BORON. - THE BORON IS A NEUTRON ABSORBENT THAT - HELPS TO CONTROL THE RATE OF FISSION. - THE CONCENTRATION OF BORON MUST BE AT - A SPECIFIED VALUE (PARTS PER MILLION) - FOR A NORMAL CONTROLLED REACTION. THE - WATER ITSELF ACTS TO INCREASE THE RATE - OF FISSION BY SLOWING THE NEUTRONS - BECAUSE SLOWER NEUTRONS HAVE A BETTER - CHANCE OF HITTING OTHER PARTICLES. - RADIATION IS THE NUCLEAR DECAY OF AN - UNSTABLE ELEMENT. NUCLEAR PATICLES FLY - OUT OF THE ELEMENT AT NEARLY THE SPEED - OF LIGHT. RADIATION IS HARMFUL BECAUSE - THE ENERGY OF THESE PARTICLES IS - DESTRUCTIVE TO TISSUE AND THEY PASS - EASILY THROUGH THE HUMAN BODY. - THE RADIATION FROM A NUCLEAR REACTOR - IS USUALLY RELEASED IN THE FORM OF GAS. - THE PRESSURIZER IS A LARGE TANK THAT - IS PARTIALLY FILLED WITH COOLANT AND - PARTLY WITH AIR. IT KEEPS THE COOLANT - IN THE REACTOR UNDER ENOUGH PRESSURE SO - THAT IT CANNOT BOIL OR TURN TO STEAM - AS THIS WOULD REDUCE THE HEAT REMOVING - CAPACITY OF THE COOLANT CAUSING FUEL - OVERHEATING. THE AIR BUBBLE IN THE - PRESSURIZER CAN BE EXPANDED BY HEATERS - TO INCREASE PRESSURE OR REDUCED BY - WATER SPRAYS TO DECREASE PRESSURE. - A DEGASIFIER REMOVES OR FILTERS THE GAS - BYPRODUCTS IN THE COOLANT AND WATER - LINES. GASES ARE PRODUCED BY THE VERY - HOT WATER REACTING WITH THE SURROUNDING - HIGH PRESSURE INJECTION IS AN EMERGENCY - SYSTEM TO MAINTAIN CORE COOLANT LEVEL - SHOULD THE PRESSURIZER OR COOLANT LINES - MALFUNCTION. IT IS AN AUTOMATIC SYSTEM. - A BLEED VALVE ALLOWS SMALL AMOUNTS OF - THE WATER TO BE TAPPED FROM THE MAIN - LINES FOR TESTING OR FILTERING. - FEED WATER IS THE BOILER WATER RESUPPLY - SYSTEM. THE STEAM GENERATED IS SENT TO - THE TURBINE, CONDENSED BACK INTO WATER - AND RETURNED TO AUXILLARY FOR PROCESS. - THE PROCESSED WATER THEN SUPPLIES THE - FEED WATER PUMPS AND THE WATER LEVEL - IN THE BOILERS IS MAINTAINED. - PROCESSORS AND FILTERS ARE USED AT MANY - POINTS ALONG THE FLOW PATH TO MAINTAIN - THE PURITY OF THE WATER. THEY ARE ALSO - USED IN THE AUXILLARY BLDG. TO REMOVE - WASTE PRODUCTS FROM THE SYSTEM. - A CONDENSER TURNS STEAM BACK INTO WATER - BY CHANGING TEMPERATURE AND PRESSURE. - CABLE JUNCTION IS WHERE ALL THE WIRING - FOR THE ENTIRE PLANT MEETS. MONITORING - OF THE PLANTS ELECTRICAL SYSTEM IS DONE - HERE AS WELL AS CIRCUIT TESTING. - REACTIVITY REFERS TO THE PERCENTAGE OF - NEUTRONS PRODUCED BY ATOMIC DECAY THAT - WILL COLLIDE WITH OTHER ATOMS PRODUCING - MORE NEUTRONS. THIS CAN BE RELATED TO - THE RATE OF THE FISSION PROCESS INSIDE - THE CORE THAT CREATES HEAT. IF NO BORON - WAS PRESENT, EACH COLLISION WOULD MAKE - 3 MORE NEUTRONS AND THE CHAIN REACTION - WOULD GROW EXPONENTIALLY. WITH NEUTRON - ABSORBENT BORON THE RATIO IS 1 TO 1 - AND A CONTROLLED REACTION RATE IS - MAINTAINED. WITH THE CONTROL RODS - INSERTED A NEGATIVE REACTIVITY RESULTS - AND LESS COLLISIONS OCCUR, REDUCING - THE POWER OUTPUT OF THE SYSTEM. - THE FUEL OF A NUCLEAR REACTOR IS MANY - TONS OF URANIUM FORMED INTO THOUSANDS - OF THIN RODS THAT ARE ENCASED IN - ZIRCONIUM CLADDING. THE FISSIONING OF - THE URANIUM ATOMS PRODUCES GREAT HEAT - WHICH IS USED TO PRODUCE POWER. - THE MELTING POINT OF URANIUM IS 5100 - DEGREES FAHRENHEIT BUT THE FUEL CAN - DISSOLVE AT 3200 DEGRESS. - POUNDS PER SQUARE INCH GAUGE IS UNIT OF - MEASURE OF PRESSURE. - A MEGAWATT IS EQUAL TO 1,000,000 WATTS. - ANNUNCIATORS ARE INDICATOR LIGHTS THAT - DISPLAY STATUS INFORMATION. MOST OF THE - ANNUNCIATORS RELATE TO VALVES AND LIT - WOULD MEAN THAT THE VALVE WAS OPEN. - THE CONTROL RODS ARE THE PRIMARY MEANS - OF CONTROLLING THE AMOUNT OF REACTIVITY - OF THE REACTOR. THIS RELATES DIRECTLY - TO THE POWER OUTPUT OF THE SYSTEM AND - SO THE CONTROL ROD DRIVE MECHANISM IS - USED TO INCREASE OR DECREASE THE POWER - PRODUCED BY THE NUCLEAR POWER PLANT. - ADCCCNNIIA D-GOLD PRODUCTION 1987 - SONEPARTED BY KNP ON 10 OCT. 1987 - RJOY PORT II CONTROL THE SCROLL SPEED - FIRE TO GO ! - KCHERNOBYL CRACKED BY ESI ONEPARTED,EDITED AND CRUCHED BY KNP - DTHE ENTRANCE CODE : BNL104 - DTHE MANUAL FUNCTION IS REMOVED. IT WAS STUPID MADE WITH ALL THOSE FILES ! SEE THE STORY AND THE DOCS IN THE PICTURE FILE !! - ETHE DGOLD RANKINGS : FAIRLIGHT ANDY -THE BREAKER- PAYNE AND HIS DOUGHNUT CRACKING SERVICE TRIAD YETI SNAKE 1001 CREW TCS -OMEGA- DIV D+NFL+BCS RELAX ANTITRAX IKARI RED SECTOR -MZP- LASER CRACKING SERVICE RDI DETONATOR POPEYE SCG BB AND ETC - JAN ENIGMATIC KNP PRODUCTION -
- OFFERS SUPER SUNDAY GENERAL MANAGER EDITED BY KNP ON 8 AUG. 1987 IAD 1001 CREW OUR NON-ALPHABETIC A D-GOLD PRODUCTION 1987 -
