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/LLYVnA - ------- <br /> f4. , <br /> T <br /> Compa,iy !J 5 / h o� / Ce Address r X177 �$oI✓/i r/ /r(°✓ �n f <br /> i\ <br /> Owner of Tank �, � ,,. E <br /> Grade of Product„ �� <br /> Gallons /o, o o 0 API Gravity <br /> Coefficient or Expansion , p0 <br /> Coefficient of Expansion times gallons equals Factor 5; s This is <br /> The figure that is used in this test for each degree of temperature shift . <br /> .....................................1..................................'./.. <br /> 1 r-,11, 511 <br /> .........L.............................. ........................... ...... <br /> Thermemeter Net Times . Change <br /> Time Start End shift % • due <br /> to <br /> ..... ....... ......... ....Qr.� ....... t or <br /> f X 25%' 1, of �s Average <br /> N1 To <br /> sq, y3 5 4. 5 o� Temperature <br /> X 50%0 Shift <br /> ( �. yi Go. yc� • f . ol <br /> A2 Mi( <br /> TimesFactor <br /> oS. <br /> G/. ps vss X 2s <br /> M3 Bo tom -. oosr� > �..................... <br /> Total or Average t. o y3�s Temperature Shift time' <br /> Temperature Shift Factor equals volume <br /> Change due only to <br /> "Note; Since the N1 probe represent only 20% of Temperature Change <br /> the tank the shift most me multiplied by <br /> 25% and the result recorded in the last or - . .2 3 <br /> columai. Be sure to mark the result + or <br /> soethatpi gore be reisesents multiplied by 5(19. <br /> Of the <br /> tank <br /> 50% added or <br /> The bottome probe temperature shift nuat is move o get <br /> pie—tmultiplied by 25%. These threetmper&eu�s to stertingack point <br /> are now added together to represent <br /> average temperature shift for the tank. � <br /> ( when adding be sure to recognise the <br /> + or - signs) This total is now entered <br /> in the space marked "average Temperature Net os or gain <br /> shift" and multiplied by the factor. <br /> Coments �, s Ica , k w 4, ; I/• �f a le- <br /> to f . ff. TA /< ;S <br /> /V. r-,P./7 . S y°-n. .�/� ,�j 4 s o j ,c%zj, <br />