Chernobyl by ESI&FAC&Decibel
**** COMMODORE 64 BASIC V2 **** 64K RAM SYSTEM 38911 BASIC BYTES FREE READY. LOAD"CHERNO PICCY/DEC",8,1: SEARCHING FOR CHERNO PICCY/DEC LOADING READY. RUN - ;[S] BY DECIBEL CREW IN 1987 - [S] BY DECIBEL CREW IN 1987..... -
PROUDLY PRESENTS *** CHERNOBYL SHORT! *** SEAS GREETINGS: MSI, UII, EXILE, SILENT PRESS SPACE TO CONTINUE! IMPORTED BY FAC, SHORTED BY DECIBEL '87 - MMMMMM - MM *** - ! *** MMMMM - ! MMMMMMMMM - THE TOP 19 RANKED-GREETINGS: VORTEX, FCS, RDI, TDT, NFL, FLT, LAST SCIENCE, FAC, IPS/NE, COCO, DYNAMITE, HUMAN!, DETONATOR, TRIAD, CFR, TLH, BEASTIE BOYS, TRIANGLE AND APG ... OVERSEAS GREETINGS: MSI, UII, EXILE, SILENT RAGE, TWGI AND THE REST OF THE GANG. CALL: 04494-44289 OR 04495-4331 OR 04495-5079 IN HOLLAND... MUSIC BY RED.... CODE IS BNL104..... - PTURBINE BUILDING - %PRESSURIZER PRESSURIZER PRESSURIZER - 2COOLANT SYS STEAM LINES STEAM LINES CONTAINMENT - XAUXILLARY COOLING STACK - HIGH PRESSURE INJ - P(0D(0 /HP/HPPH/X - 0( 48T,HDBEFGMNOTUVZ[/ - -PRINT ANYKEY-CONTINUE - IS THE PRINTER READY - - -OPERATOR ON DUTYNAME:TIME:CODE: - BNL104-PNEXIT-RETURN - -PRINT ANY KEY-CONT.INSERT DISK - *O SEQUENCE ENDS - #PRESSURIZER LEVEL NOMINAL - 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 - YGENERATOR G3 MALFUNCTION - HIGH PRESSURE IN BOILER B - HIGH WATER LEVEL IN BOILER B - GENERATOR G4 MALFUNCTION - 3RADIATION IN COOLING TOWER - GENERATOR G5 MALFUNCTION - 2RADIATION 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 - XLOW 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 - 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 ENGIN 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 - 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. -