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Home My WebLink AboutAPPROVED MECHANICAL PLANS - 22-00232 - Teton Radiology - MRI RemodelAuthor Name Author Email Author Phone No.: Don Allen Don.Allen@rexburg.org 208-372-2174 Description : Teton Radiology - MRI Remodel Address : 425 E 4th N Record Type : Commercial - Remodel Document Filename : MEDICAL IMAGING REXBURG MRI - MECH PERMIT.pdf Comment Author Contact Information: Corrections in the following table need to be applied before a permit can be issued Review Report Approved # 22-00232 Page Reference Annotation Type Author : Department Status Page Review Comments Applicant Response Comments M-0 Stamp Don Allen : Mechanical Open 1 Approved - Mechanical Inspector Commercial - Remodel Approval of plans does not constitute approval of variance from code Powered by TCPDF (www.tcpdf.org) 1.ALL MECHANICAL EQUIPMENT AND SYSTEMS SHALL BE INSTALLED IN ACCORDANCE WITH THE INTERNATIONAL M E C H A N I C A L C O D E (IMC) LATEST EDITION, AND ALL LOCAL & STATE CODES.2.ALL PLUMBING EQUIPMENT AND SYSTEMS SHALL BE INSTALLED IN ACCORDANCE WITH THE LATEST ADOPTED P L U M B I N G C O D E , AND ALL LOCAL & STATE CODES.3.ALL MECHANICAL AND PLUMBING EQUIPMENT SHALL BE INSTALLED PER THE MANUFACTURER'S RECOMMENDA T I O N S . 4.MECHANICAL CONTRACTORS SHALL RECEIVE PRIOR APPROVAL FROM THE STRUCTURAL ENGINEER BEFORE M A K I N G C U T S THROUGH ANY STRUCTURAL MEMBER.5.MECHANICAL CONTRACTORS SHALL COORDINATE INSTALLATION WITH CONSTRUCTION SUPERVISOR AND WITH A L L O T H E R TRADES TO AVOID CONFLICTS.6.THE MECHANICAL CONTRACTORS SHALL VERIFY MOTOR VOLTAGES WITH THE ELECTRICAL DRAWINGS BEFORE O R D E R I N G MOTORIZED EQUIPMENT AND CONTROLS.7.SEE MECHANICAL SCHEDULE SHEET FOR SCHEDULED CAPACITIES OF ALL MECHANICAL EQUIPMENT AND MATE R I A L S S P E C I F I E D . 8.DOMESTIC WATER SERVICE IS PROVIDED WITH A DOUBLE CHECK BACKFLOW PREVENTER.9.ALL MECHANICAL EQUIPMENT TO BE PROPOSED MUST BE ON THE APPROVED LIST PRIOR TO SUBMITTALS. ALL A P P R O V E D MANUFACTURERS MUST BE CAPABLE OF MEETING THE REQUIREMENTS OF THE SPECIFIED EQUIPMENT.10.RUNOUT AND HOOKUP SIZES TO INDIVIDUAL PLUMBING FIXTURE CAN BE FOUND ON THE PLUMBING FIXTURE SC H E D U L E . 11.PROVIDE REMOTE CEILING ACCESS BALANCE DAMPERS WITH CONCEALED CHROME PLATE COVERS FOR BALA N C E D A M P E R S LOCATED ABOVE HARD CEILINGS.12.PAINT ALL VTR'S, FLUES, EXHAUST CAPS, AND OTHER MECHANICAL ITEMS ON THE ROOF TO MATCH THE ROOF C O L O R . 13.INSULATED FLEXIBLE DUCTWORK MAY BE USED FOR RUNOUTS TO GRILLES AND DIFFUSERS, IN LENGTHS OF 6'- 0 " O R L E S S . 14.MAINTAIN MINIMUM OF 10'-0" DISTANCE BETWEEN ALL FRESH AIR INTAKES AND EXHAUST OR GAS FLUE DISCHA R G E S . 15.THE PLUMBING CONTRACTOR IS RESPONSIBLE FOR ALL BACKFLOW DEVICES TO BE INSPECTED BY A CERTIFIE D B A C K F L O W TECHNICIAN BEFORE THE USE OF THE BUILDING POTABLE WATER SYSTEM.16.LOCATE ACCESS HATCHES SO AS TO PROVIDE OPTIMUM SERVICEABILITY TO EQUIPMENT AND/OR VALVING. SE E A R C H I T E C T U R A L SPECIFICATION FOR TYPE AND COLOR. COORDINATE LOCATION WITH STRUCTURAL & LIGHTING.17.WHENEVER THERE IS A DISCREPANCY BETWEEN THE RUNOUT DUCT SIZE SHOWN ON THE PLANS AND THAT SH O W N I N T H E SCHEDULE, ALWAYS USE THE LARGER OF THE TWO DUCT SIZES.18.THE CONTRACTOR SHALL BE HELD RESPONSIBLE FOR VERIFICATION OF EXISTING JOB CONDITIONS PRIOR TO B I D . N O A D D I T I O N A L COST SHALL BE AWARDED TO THE SUCCESSFUL CONTRACTOR (OR THEIR SUBCONTRACTORS) AFTER BIDS HA V E B E E N SUBMITTED AND CONTRACTS AWARDED FOR FAILURE TO VERIFY EXISTING FIELD CONDITIONS. DISCREPANCIE S B E T W E E N ACTUAL FIELD CONDITIONS AND CONTRACT DOCUMENTS SHALL BE BROUGHT TO THE ENGINEERS ATTENTION F O R A L T E R N A T I V E METHODS OF INSTALLATION PRIOR TO THE BIDDING OF THIS PROJECT.19.UNLESS OTHERWISE NOTED ALL EXISTING MECHANICAL EQUIPMENT, PIPING, ETC, TO BE REMOVED SHALL BE D I S P O S E D O F B Y THE CONTRACTOR UNDER THIS CONTRACT. THE OWNER SHALL RETAIN THE RIGHT TO KEEP ANY REMOVED ITE M S . 20.ALL DOMESTIC COLD AND HOT WATER LINES IN THE AREA OF WORK WHICH ARE NO LONGER IN USE DUE TO THI S P R O J E C T S H A L L BE REMOVED BACK TO THE MAINS AND CAPPED.21.HOLES IN EXISTING WALL OR FLOORS SHALL BE PATCHED TO MATCH EXISTING WHERE PIPING, DUCTWORK, ET C . W E R E R E M O V E D OR ADDED DURING THIS PROJECT.22.DAMAGE TO THE EXISTING FACILITY DURING THE CONSTRUCTION SHALL BE REPAIRED OR REPLACED BY THE C O N T R A C T O R A T N O COST TO THE OWNER. A . C O M P L I A N C E W I T H T H E L A T E S T A D O P T E D E D I T I O N O F T H E I N T E R N A T I O N A L E N E R G Y C O N S E R V A T I O N C O D E I S R E Q U I R E D F O R T H I S P R O J E C T . T H E S E N O T E S C O V E R M A N D A T O R Y R E Q U I R E M E N T S O F T H E C O D E . A D D I T I O N A L R E Q U I R E M E N T S A R E N O T E D O N T H E D R A W I N G S A N D I N T H E S P E C I F I C A T I O N S . B . M I N I M U M R E Q U I R E M E N T S F O R S U P P L Y A N D R E T U R N D U C T W O R K I N S U L A T I O N : 1 . R - 6 : D U C T S L O C A T E D I N U N C O N D I T I O N E D S P A C E S ( S P A C E N E I T H E R H E A T E D N O R C O O L E D S U C H A S A B O V E C E I L I N G S P A C E S , W A L L S P A C E S , D U C T C H A S E S , S O F F I T S , A T T I C S , C R A W L S P A C E S , U N H E A T E D B A S E M E N T S , A N D U N H E A T E D G A R A G E S ) . 2 . R - 1 2 : D U C T S L O C A T E D O U T S I D E O F T H E B U I L D I N G ' S I N S U L A T I O N E N V E L O P E ( S U C H A S A B O V E T H E A T T I C I N S U L A T I O N ) . T Y P I C A L I N S U L A T I O N T H I C K N E S S R E Q U I R E D T O M E E T T H E S E R E Q U I R E M E N T S : 1 . D U C T W R A P : R - 6 = 1 - 1 / 2 " R - 1 2 = 4 " 2 . D U C T L I N E R : R - 6 = 1 - 1 / 2 " R - 1 2 = 3 " C . C O N T R A C T O R S H A L L V E R I F Y W I T H T H E M A N U F A C T U R E R , T H E R - V A L U E S O F T H E A C T U A L I N S U L A T I O N U S E D . R - V A L U E S S H A L L B E I N S T A L L E D V A L U E S . D . W H E R E D U C T S U S E D F O R C O O L I N G A R E E X T E R N A L L Y I N S U L A T E D , T H E I N S U L A T I O N S H A L L B E C O V E R E D W I T H A V A P O R R E T A R D E R H A V I N G A M A X I M U M P E R M E A N C E O F 0 . 0 5 P E R M O R A L U M I N U M F O I L H A V I N G A M I N I M U M T H I C K N E S S O F 2 M I L S . I N S U L A T I O N H A V I N G A P E R M E A N C E O F 0 . 0 5 P E R M S O R L E S S S H A L L N O T B E R E Q U I R E D T O B E C O V E R E D . A L L J O I N T S A N D S E A M S S H A L L B E S E A L E D T O M A I N T A I N T H E C O N T I N U I T Y O F T H E V A P O R R E T A R D E R . E . A L L D U C T J O I N T S , S E A M S , A N D C O N N E C T I O N S S H A L L B E F A S T E N E D A N D S E A L E D W I T H W E L D S , G A S K E T S , A D H E S I V E S , M A S T I C - P L U S - E M B E D D E D - F A B R I C S Y S T E M S , O R T A P E S . T A P E S A N D M A S T I C S S H A L L B E L I S T E D A N D L A B E L E D P E R U L 1 8 1 A O R U L 1 8 1 B . D U C T T A P E I S N O T P E R M I T T E D A S A S E A L A N T O N A N Y M E T A L D U C T S . D U C T C O N N E C T I O N S T O F L A N G E S O R E Q U I P M E N T S H A L L B E S E A L E D A N D M E C H A N I C A L L Y F A S T E N E D . F . M I N I M U M R E Q U I R E M E N T S ( T H I C K N E S S ) F O R P I P I N G I N S U L A T I O N S H A L L B E A S F O L L O W S : F L U I D N O M I N A L P I P E D I A M E T E R 1 / 2 " T O < 1 1 / 2 " 1 1 / 2 " T O < 4 " 4 " A N D A B O V E 1 . C H I L L E D W A T E R 1 / 2 " 1 " 1 " 2 . R E F R I G E R A N T S E E S P E C I F I C A T I O N S T H E A B O V E I N S U L A T I O N I S B A S E D O N H A V I N G A C O N D U C T I V I T Y N O T E X C E E D I N G 0 . 2 7 B T U - I N C H / H O U R - F T 2 - ° F . G . D O M E S T I C H O T W A T E R P I P I N G S Y S T E M S S H A L L B E I N S U L A T E D W I T H 1 " I N S U L A T I O N H A V I N G A C O N D U C T I V I T Y N O T E X C E E D I N G 0 . 2 7 B T U - I N C H / H O U R - F T 2 - ° F . H . D O M E S T I C W A T E R H E A T E R S W H I C H A R E N O T P R O V I D E D W I T H I N T E G R A L H E A T T R A P S A N D S E R V E N O N C I R C U L A T I N G S Y S T E M S S H A L L B E P R O V I D E D W I T H H E A T T R A P S O N T H E S U P P L Y A N D D I S C H A R G E P I P I N G A T T H E W A T E R H E A T E R . I . D O M E S T I C H O T W A T E R S Y S T E M S W I T H R E C I R C U L A T I O N P U M P S O R E L E C T R I C H E A T T R A C E S H A L L B E C O N T R O L L E D W I T H 7 - D A Y T I M E C L O C K S . J . A N O P E R A T I N G A N D M A I N T E N A N C E M A N U A L S H A L L B E P R O V I D E D P R I O R T O I S S U A N C E O F A C E R T I F I C A T E O F O C C U P A N C Y . T H E O & M M A N U A L S H A L L C O N T A I N T H E F O L L O W I N G I N F O R M A T I O N A S A M I N I M U M : 1 . E Q U I P M E N T C A P A C I T Y ( I N P U T & O U T P U T ) . 2 . E Q U I P M E N T O P E R A T I N G A N D M A I N T E N A N C E I N S T R U C T I O N S . 3 . C O N T R O L S Y S T E M M A I N T E N A N C E A N D C A L I B R A T I O N I N F O R M A T I O N , I N C L U D I N G W I R I N G D I A G R A M S , S C H E M A T I C S , A N D C O N T R O L S E Q U E N C E S . 4 . C O N T R O L S Y S T E M S E T P O I N T S S H A L L B E S H O W N O N C O N T R O L D R A W I N G S , A T C O N T R O L D E V I C E S , O R I N P R O G R A M M I N G C O M M E N T O N D D C S Y S T E M S . 5 . A C O M P L E T E W R I T T E N N A R R A T I V E O N H O W E A C H M E C H A N I C A L S Y S T E M I S I N T E N D E D T O O P E R A T E . MECHANICAL GENERAL NOTES E N E R G Y C O D E C O M P L I A N C E M E C H A N I C A L A N D P L U M B I N G D R A W I N G S L E G E N D F L E X I B L E D U C T W O R K T H R E E W A Y C O N T R O L V A L V E D U C T W O R K T W O W A Y C O N T R O L V A L V E D U C T W O R K B R E A K P R E S S U R E R E D U C I N G V A L V E D U C T W O R K O R P I P I N G R I S E G A T E V A L V E C O N C E N T R I C S Q U A R E T O R O U N D T R A N S I T I O N R E D U C E R M O T O R I Z E D D A M P E R G L O B E V A L V E M A N U A L V O L U M E D A M P E R B A L L V A L V E S P I N - I N F I T T I N G W / A I R E X T R A C T O R A N D H A N D D A M P E R B U T T E R F L Y V A L V E H I G H E F F I C I E N C Y F I T T I N G W / H A N D D A M P E R B A L A N C E V A L V E S W I T C H C H E C K V A L V E T H E R M O S T A T F L O O R C L E A N O U T H U M I D I S T A T W A L L C L E A N O U T T E M P E R A T U R E S E N S O R G R A D E C L E A N O U T C A R B O N D I O X I D E S E N S O R W A T E R H A M M E R A R R E S T O R C A R B O N M O N O X I D E S E N S O R F L O O R D R A I N N I T R O U S O X I D E S E N S O R F L O O R S I N K D U C T S M O K E D E T E C T O R G A S P R E S S U R E R E G U L A T O R W / G A S C O C K C O M B I N A T I O N S M O K E / F I R E D A M P E R P R E S S U R E R E L I E F V A L V E F I R E D A M P E R V E N T - T H R O U G H - R O O F S M O K E D A M P E R V E N T E Q U I P M E N T C A L L O U T S O I L , W A S T E , O R S A N I T A R Y S E W E R T U R N I N G V A N E S A C I D W A S T E L I N E I N T A K E O R E X H A U S T A C I D V E N T L I N E D I R E C T I O N O F A I R F L O W S T O R M D R A I N S U P P L Y D I F F U S E R R O O F D R A I N L I N E R E T U R N G R I L L E O V E R F L O W D R A I N L I N E E X H A U S T G R I L L E C O N D E N S A T E D R A I N L I N E F L O O R G R I L L E D O M E S T I C C O L D W A T E R ( C W ) C E I L I N G E X H A U S T F A N D O M E S T I C H O T W A T E R ( H W ) T E M P E R A T U R E G A U G E D O M E S T I C H O T W A T E R R E T U R N ( H W R ) P R E S S U R E G A U G E ( L I Q U I D F I L L E D W / I S O L A T I O N V A L V E ) T E M P E R E D W A T E R ( T W ) T E M P E R A T U R E S E N S O R ( D U C T O R P I P I N G ) M E D I U M P R E S S U R E N A T U R A L G A S F L O W S W I T C H L O W P R E S S U R E N A T U R A L G A S S T A I N L E S S S T E E L B R A I D E D F L E X C O N N E C T I O N F I R E S P R I N K L E R L I N E E L A S T O M E T R I C F L E X C O N N E C T O R G E O T H E R M A L W A T E R S U P P L Y S U C T I O N D I F F U S E R G E O T H E R M A L W A T E R R E T U R N Y T Y P E S T R A I N E R ( 1 1 / 2 " O R L A R G E R P R O V I D E D W / B L O W D O W N V A L V E ) C H I L L E D W A T E R S U P P L Y F L O W D I R E C T I O N C H I L L E D W A T E R R E T U R N D E M O L I T I O N / E Q U I P M E N T T O B E R E M O V E D C O N D E N S E R W A T E R S U P P L Y N E W T O E X I S T I N G C O N N E C T I O N P O I N T C O N D E N S E R W A T E R R E T U R N ( E ) E X I S T I N G H E A T I N G W A T E R S U P P L Y ( F ) F U T U R E H E A T I N G W A T E R R E T U R N ( N ) N E W L I Q U I D R E F R I G E R A N T L I N E R E D U C E D P R E S S U R E B A C K F L O W P R E V E N T E R S U C T I O N R E F R I G E R A N T L I N E D O U B L E C H E C K B A C K F L O W P R E V E N T E R S L O P E P I P E I N D I R E C T I O N O F A R R O W U N I O N P I P E A N C H O R A I R V E N T P I P E G U I D E T R I P L E D U T Y V A L V E C A P N O T E : T H I S I S A L I S T O F C O M M O N L Y U S E D M E C H A N I C A L A N D P L U M B I N G S Y M B O L S . S O M E O F T H E S Y M B O L S S H O W N A B O V E M A Y N O T B E U S E D I N T H I S D R A W I N G P A C K A G E . M A I R F L O W A I R F L O W S T F C O H W C O S G C O C O 2 C O N O S D S F D F D S D - - # A W A V S D D - X C F M X " Ø R D R - X X " Ø O D R - X C F M X " Ø C D G - X C F M X " Ø T W T S M P G F S G F G W S G W R C W S C W R C S C R H W S H W R L S MECHANICAL ABBREVIATIONSA/C or ACAIR CONDITIONINGKWKILOWATTAFFABOVE FINISHED FLOORKWHKILOWATT HOURAHUAIR HANDLING UNITASHRAEAMERICAN SOCIETY OF HEATING, REFRIGERATION, AND AIRCONDITIONING ENGINEERSLATLEAVING AIR TEMPERATURELAVLAVATORYBTUBRITISH THERMAL UNITSLEEDLEADERSHIP IN ENERGY AND ENVIRO N M E N T A L D E S I G N BTUHBTUS PER HOURLWTLEAVING WATER TEMPERATURECACOMBUSTION AIRMAXMAXIMUMCCCOOLING COILMCAMINIMUM CIRCUIT AMPSCFMAIR FLOW RATE (CUBIC FEET PER MINUTE)MOCPMAXIMUM OVERCURRENT PROTECTI O N CHWRCHILLED WATER RETURNMINMINIMUMCHWSCHILLED WATER SUPPLYCLGCEILINGNCNOISE CRITERIACWCOLD WATERNFPANATIONAL FIRE PROTECTION ASSOCI A T I O N NTSNOT TO SCALEDEG or °DEGREEDIA or ØDIAMETEROSAOUTSIDE AIRDBDRY BULBPDPRESSURE DROPEAEXHAUST AIRPH or ØPHASEEATENTERING AIR TEMPERATUREPRVPRESSURE REDUCING VALVEEERENERGY EFFICIENCY RATIOESPEXTERNAL STATIC PRESSURERARETURN AIREWTENTERING WATER TEMPERATURERPMREVOLUTIONS PER MINUTERTUROOFTOP UNITFCOFLOOR CLEANOUTFDFIRE DAMPERSASUPPLY AIRFLAFULL LOAD AMPSSEERSEASONAL ENERGY EFFICIENCY RATI O FLRFLOORSFDCOMBINATION SMOKE/FIRE DAMPERFPMFEET PER MINUTESPSTATIC PRESSUREFTFEETSYMSYMBOLGAGAUGET & PTEMPERATURE AND PRESSUREGCOGRADE CLEANOUTTEMPTEMPERATUREGPMWATER FLOW RATE (GALLONS PER MINUTE)TYPTYPICALHCHEATING COILUMCUNIFORM MECHANICAL CODEHPHORSE POWERUPCUNIFORM PLUMBING CODEHVACHEATING, VENTILATING, AIR CONDITIONINGURLURINALHWHOT WATERHWRHOT WATER RETURNVTRVENT THROUGH ROOFHWSHOT WATER SUPPLYVVOLTSIBCINTERNATIONAL BUILDING CODEW/WITHIEECINTERNATIONAL ENERGY CONSERVATION CODEWBWET-BULBIFCINTERNATIONAL FIRE CODEWCWATER CLOSETIFGCINTERNATIONAL FUEL GAS CODEWCOWALL CLEANOUTIMCINTERNATIONAL MECHANICAL CODEWHWATER HEATERIPCINTERNATIONAL PLUMBING CODENOTE:THIS IS A STANDARD LIST OF COMMONLY USED MECHANICAL ABBREVIATIONS. SOME OF THE ABBREVIATIONS S H O W N A B O V E M A Y N O T BE USED IN THIS DRAWING PACKAGE. - O F P R O J E C T N O . 2 2 - 0 8 1 TETON RADIOLOGY MADISON 425 E. 4th North Rexburg, Idaho 83440 Renovation for new MRI Installation M - 0 - MECHANICAL COVER SHEET 0 4 / 0 5 / 2 0 2 2 - O F P R O J E C T N O . 2 2 - 0 8 1 TETON RADIOLOGY MADISON 425 E. 4th North Rexburg, Idaho 83440 Renovation for new MRI Installation M - 0 s - MECHANICAL SPECIFICATIONS 0 4 / 0 5 / 2 0 2 2 6 EF(E)7 EF(E)12X12(E)20X12(E)12X12(E) 1 N E V ( E ) 2 N E V ( E ) 2 4 F T X S ( E ) 2 4 F T X S ( E ) 2 4 F T X S ( E ) 1 CH 16"Ø(E) 8 " Ø ( E ) 6 " Ø ( E ) 14"Ø(E) (E) K-2035-8PINOIRLAVATORYVITREOUS CHINAVITREOUS CHINATOILETCIMARRONK-3619 T T 1 C U 2 C U 3 C U ( E ) ( E ) ( E ) 1 1 1 2 3 3 3 4 5 5 56 55879 9 10 - O F P R O J E C T N O . 2 2 - 0 8 1 TETON RADIOLOGY MADISON 425 E. 4th North Rexburg, Idaho 83440 Renovation for new MRI Installation - M - 1 MECHANICAL DEMOLITION FLOOR PLAN S Y M B O L U S E D F O R N O T E C A L L O U T . K E Y E D N O T E S : 1 . R E M O V E E X I S T I N G C O N D E N S I N G U N I T , P R E P A R E F O R L I K E - F O R - L I K E R E P L A C E M E N T . R E F E R T O N E W H V A C P L A N F O R A D D I T I O N A L I N F O R M A T I O N . 2 . R E M O V E E X I S T I N G C H I L L E R , P R E P A R E A R E F O R N E W C H I L L E R . R E F E R T O N E W H V A C P L A N F O R A D D I T I O N A L I N F O R M A T I O N . 3 . R E M O V E E X I S T I N G H I G H W A L L C O O L I N G U N I T S . P R E P A R E F O R L I K E - F O R - L I K E R E P L A C E M E N T . R E F E R T O N E W H V A C P L A N F O R A D D I T I O N A L I N F O R M A T I O N . 4 . R E M O V E E X I S T I N G T H E R M O S T A T , R E T A I N W I R I N G F O R N E W T H E R M O S T A T I N S T A L L A T I O N . 5 . R E M O V E E X I S T I N G D I F F U S E R / G R I L L E . R E T A I N D U C T W O R K F O R R E C O N N E C T I O N T O N E W D I F F U S E R / G R I L L E . R E F E R T O N E W H V A C P L A N F O R A D D I T I O N A L I N F O R M A T I O N . 6 . R E M O V E E X I S T I N G C R Y O G E N V E N T A N D P R E P A R E F O R I N S T A L L A T I O N O F N E W , S I M I L A R P A T H . R E F E R T O N E W H V A C P L A N F O R A D D I T I O N A L I N F O R M A T I O N . 7 . R E M O V E E X I S T I N G E X H A U S T F A N A N D E X H A U S T G R I L L E . P R E P A R E D U C T W O R K A N D R O O F P E N E T R A T I O N F O R N E W I N S T A L L A T I O N . R E F E R T O N E W H V A C P L A N F O R A D D I T I O N A L I N F O R M A T I O N . 8 . R E M O V E E X I S T I N G E X H A U S T F A N A N D A L L R E L A T E D D U C T W O R K , A C C E S S O R I E S , A P P U R T E N A N C E S , A N D C O N T R O L S . P A T C H R O O F T O M A T C H E X I S T I N G . C O O R D I N A T E W I T H A R C H I T E C T U R A L . 9 . R E M O V E E X I S T I N G V R F F A N C O I L U N I T . R E T A I N E X I S T I N G D U C T W O R K , P I P I N G , A N D C O N T R O L S F O R C O N N E C T I O N T O N E W F A N C O I L U N I T . R E F E R T O N E W H V A C P L A N F O R A D D I T I O N A L I N F O R M A T I O N . 1 0 . E X I S T I N G S I N K T O R E M A I N A S - I S . # 0 4 / 0 5 / 2 0 2 2 K-2035-8PINOIRLAVATORYVITREOUS CHINAVITREOUS CHINATOILETCIMARRONK-3619 6 EF 1 N E V 2 N E V 1 CH12X12(E)20X12(E)12X12(E) 16"Ø(E) 8 " Ø ( E ) 6 " Ø ( E ) 14"Ø(E) T T 1 H W U 2 H W U 3 H W U 1 C U 2 C U 3 C U D-310"Ø 300 D-310"Ø 300 D-310"Ø 300 D-310"Ø 300R-1022X22 1 1 1 2 3 4 4 4 5 5 5 5 5552 R-1022X227789R-1022X22 10 - O F P L L C P R O J E C T N O . 2 2 - 0 8 1 TETON RADIOLOGY MADISON 425 E. 4th North Rexburg, Idaho 83440 Renovation for new MRI Installation - M - 2 MECHANICAL FLOOR PLAN S Y M B O L U S E D F O R N O T E C A L L O U T . K E Y E D N O T E S : 1 . M O U N T N E W C O N D E N S I N G U N I T S I N S A M E P L A C E A S R E M O V E D C O N D E N S I N G U N I T S . F I E L D V E R I F Y E X I S T I N G C O N D I T I O N S A N D E X A C T R E Q U I R E M E N T S . 2 . I N S T A L L N E W E X H A U S T F A N O N N E W C U R B I N S A M E L O C A T I O N A S E X I S T I N G . F I E L D V E R I F Y E X I S T I N G C O N D I T I O N S A N D E X A C T L O C A T I O N . 3 . I N S T A L L N E W C H I L L E R A T G R A D E . C O O R D I N A T E E X A C T L O C A T I O N A N D R E Q U I R E M E N T S W I T H A R C H I T E C T U R A L . 4 . I N S T A L L N E W H I G H W A L L C O O L I N G U N I T S I N S A M E P L A C E A S R E M O V E D H I G H W A L L C O O L I N G U N I T S , R E C O N N E C T I N G E X I S T I N G U T I L I T I E S . 5 . I N S T A L L N E W F A N C O I L U N I T I N S A M E L O C A T I O N A S R E M O V E D F A N C O I L U N I T . R E C O N N E C T T O E X I S T I N G D U C T W O R K , C O N T R O L S , A N D P I P I N G A S N E C E S S A R Y . N E W D U C T T R A N S I T I O N S M A Y B E R E Q U I R E D . F I E L D V E R I F Y E X I S T I N G C O N D I T I O N S , E X I S T I N G L O C A T I O N S , A N D E X A C T R E Q U I R E M E N T S . 6 . I N S T A L L N E W D I F F U S E R / G R I L L E I N S A M E L O C A T I O N A S R E M O V E D . C O N N E C T T O E X I S T I N G D U C T W O R K A S N E C E S S A R Y . F I E L D V E R I F Y E X I S T I N G C O N D I T I O N S A N D E X A C T L O C A T I O N S . 7 . E X I S T I N G D U C T W O R K T O R E M A I N . E X I S T I N G C E I L I N G I S B E I N G R A I S E D , V E R I F Y N E W H E I G H T S W I T H A R C H I T E C T U R A L . E X I S T I N G D U C T W O R K M A Y N E E D T O B E R A I S E D T O A C C O M M O D A T E N E W C E I L I N G H E I G H T S . F I E L D V E R I F Y E X I S T I N G C O N D I T I O N S A N D E X A C T R E Q U I R E M E N T S . 8 . N E W Q U E N C H V E N T , I N S T A L L E D P E R M R I M A N U F A C T U R E R R E Q U I R E M E N T S A N D M E C H A N I C A L D E T A I L S . R E F E R T O M E C H A N I C A L D E T A I L S F O R A D D I T I O N A L I N F O R M A T I O N . 9 . M R I M A N U F A C T U R E R R E Q U I R E D P R E S S U R E V E N T . V E R I F Y E X A C T R E Q U I R E M E N T S A N D I N S T A L L A T I O N W I T H M R I M A N U F A C T U R E R . 1 0 . E X I S T I N G S I N K T O R E M A I N A S - I S . # 0 4 / 0 5 / 2 0 2 2 NTS DUCT LINER DETAIL4 METAL FASTENERS:OMARK INSUL-PINS, DURO DYNE FASTENERS OR GRIP NAILSINSTALLED BY GRIP NAIL AIR HAMMER OR AUTO FASTENER EQUIP.DUCT LINERNOT MORE THAN 2"FROM EDGE OF LINER SPACINGPER SMACNA(TYPICAL)ALL ENDS OF LINERTO BE COATED W/ADHESIVE AND SHALLBE BUTTED FIRMLYTOGETHER DUCT LINER (TO BEADHERED TO DUCTW/ 100% ADHESIVESEE SPECIFICATIONS)PROVIDE SHEET METAL NOSING ORSLEEVE OVER ANY EXPOSED LINERWHICH FACES THE OPPOSITEDIRECTIONS AS THE AIRFLOWSHEET METAL DUCTTOP AND BOTTOMSECTION OF LINERSHALL OVERLAPTHE SIDES OPTION 1WIRE1.5"MINIMUMSTEEL BAND 1.5"MINIMUMSTEEL BANDNTSFLEXIBLE DUCT SUPPORT1 NOTES:1.SUPPORT SYSTEM SHALL NOT DAMAGE, CRIMP, OR INHIBIT DUCT FREE AREA IN ANY WAY.2.FLEXIBLE DUCT MUST NOT EXCEED 6'-0" FROM CONNECTION TO TERMINATION.3.MAXIMUM LENGTH BETWEEN SUPPORTS MUST NOT EXCEED 3'-0" ON CENTER.4.ATTACH BANDS OR WIRES TO SUPPORT STRUCTURE ABOVE.5.FLEXIBLE DUCTWORK SHALL BE FLEXMASTER 1-M OR APPROVED EQUAL.6.FLEXIBLE DUCTWORK SHALL BE INSULATED WITH A MINIMUM R-VALUE OF 5.0.7.FLEXIBLE DUCTWORK IS FOR INDOOR USE ONLY. DO NOT INSTALL OR STORE PRODUCT WHERE EXPOSURE TO DIR E C T SUNLIGHT CAN OCCUR. PROLONGED EXPOSURE TO SUNLIGHT MAY CAUSE DETERIORATION OF VAPOR BARRIER.8.TERMINAL DEVICES SHALL BE SUPPORTED INDEPENDENTLY OF THE FLEXIBLE DUCTWORK.9.REPAIR TURN OR DAMAGED VAPOR BARRIER/JACKET WITH DUCT TAPE LISTED AND LABELED TO UL 181B. IF INTERN A L CORE IS PENETRATED, REPLACE FLEXIBLE DUCTWORK.10.AVOID BENDING DUCT ACROSS SHARP CORNERS OR INCIDENTAL CONTACT WITH METAL FIXTURES, PIPES, OR CON D U I T S . 11.FLEXIBLE DUCTWORK SHALL NOT BE INSTALLED WITHIN 4 INCHES OF HOT EQUIPMENT (FURNACES, BOILERS, STEA M PIPES, ETC.) THAT IS ABOVE 250°F.12.FLEXIBLE DUCTWORK SHALL NOT BE INSTALLED IN CONCRETE, BURIED BELOW GRADE, OR IN CONTACT WITH THEGROUND.13.DO NOT INSTALL FLEXIBLE DUCTWORK IN EXPOSED CEILING AREA.OPTION 2 N O T E S : 1 . F O R T A K E - O F F S L A R G E R T H A N 1 2 " D I A M E T E R , U S E A F A C T O R Y M A N U F A C T U R E D D A M P E R . L O U V E R S & D A M P E R S , I N C . M O D E L C D - 6 0 0 W I T H A L O C K I N G H A N D Q U A D R A N T O R E Q U A L . 2 . R O D C O N T I N U O U S O N 2 " W . G . C L A S S A N D O N A L L D A M P E R S O V E R 1 2 " D I A M E T E R . 3 . B L A D E 2 2 G A G E M I N . , B U T N O T L E S S T H A N T W O G A G E S M O R E T H A N T H E D U C T G A G E . 4 . P R O V I D E R E M O T E C E I L I N G O P E R A T O R W H E R E D A M P E R I S I N A C C E S S I B L E . 5 . F O R D U C T S O V E R 1 2 " H I G H U S E M U L T I P L E B L A D E D A M P E R S ( S E E F I G . C ) . 6 . A L T E R N A T E M A N U F A C T U R E R S I N C L U D E : A M E R I C A N W A R M I N G , S A F E - A I R / D O W C O , J & J , L O U V E R S & D A M P E R S , R U S K I N , N A I L O R , A R R O W U N I T E D , P O T T O R F F , & C E S C O . 7 . P R O V I D E S T A N D - O F F F O R D A M P E R A R M S L O C A T E D W / E X T E R N A L I N S U L A T I O N . N O T T O S C A L E B A L A N C E D A M P E R D E T A I L 2 F I G . A 1 8 G A . B L A D E M I N . 1 / 8 " C L E A R A N C E A L L A R O U N D 1 9 " T O 4 8 " F I G . D F I G . B U P T O 1 8 " 1 / 8 " C L E A R A N C E A L L A R O U N D 2 2 G A . B L A D E F I G . C E L E V A T I O N , T W O B L A D E A R R A N G E M E N T D U C T V O L U M E D A M P E R ( S E E N O T E 1 ) W I N G N U T D A M P E R A R M ( S E E N O T E 4 ) D A M P E R B L A D E ( S E E N O T E 3 ) R O U N D D U C T R O D ( S E E N O T E 2 ) 1 8 " G A G E M I N I M U M B L A D E 6 " T O 9 " W I D E 1 / 2 " R O D D U C T 1 / 2 " Q U A D R A N T D U C T H E M M E D E D G E 3 / 8 " Q U A D R A N T 3 / 8 " P I N S T A N D - O F F S T A N D - O F F S T A N D - O F F N O T E : 1 . A L L D U C T W O R K T R A N S I T I O N S S H A L L B E C O N S T R U C T E D A N D I N S T A L L E D T O S M A C N A , S P E C I F I C A T I O N S A N D T H E A B O V E N O T E D S T A N D A R D S . A N Y D E V I A T I O N S S H A L L B E C O O R D I N A T E D W I T H T H E E N G I N E E R . O = 1 5 ° M A X I M U M 2 0 % M A X A R E A R E D U C T I O N O = 3 0 ° M A X I M U M X R = 1 . 0 X X X X X O = 4 5 ° M A X I M U M R = 6 " M I N . 1 / 4 O = 1 5 ° M A X I M U M X O X X R = 1 . 0 X X X 1 / 2 1 / 4 R = 6 " M I N . X X O O R . A . 9 0 ° T U R N I N G V A N E S S . A . X Y . 2 5 Y , 4 " M I N . X Y R = 1 . 5 X X Y X X + Y Y Y O X O X Z N O T T O S C A L E R E C T A N G U L A R D U C T F I T T I N G D E T A I L S 3 O B S T R U C T I O N R E D U C T I O N R A D I U S O F F S E T M I T E R E D O F F S E T 4 5 ° E L B O W S Q U A R E E L B O W W / T U R N I N G V A N E S 9 0 ° E L B O W C O N C E N T R I C T R A N S I T I O N E C C E N T R I C T R A N S I T I O N D U C T T A K E - O F F R A D I U S W Y E S Q U A R E T E E W / T U R N I N G V A N E S S Q U A R E T E E W / D U C T T A K E - O F F S X X R = 1 . 5 X X 9 0 ° T U R N I N G V A N E S X X R = 1 . 5 X X X X R = 1 . 5 X X X Y Y Z X 1 . 5 X Z X Y X 6 " Y + 2 Y Y = 3 " - 8 " , Z = 3 " Y = 1 7 " - 2 4 " , Z = 9 " X Z Y X Y = 2 X ; Z = S E E P L A N S Y Z X X Y X X Y Z X Z = X - Y ( 4 " M I N . ) X Y = 9 " - 1 6 " , Z = 6 " Y = 2 5 " U P , Z = 1 2 " N O T T O S C A L E R O U N D D U C T F I T T I N G D E T A I L S 6 N O T E : 1 . A L L D U C T W O R K T R A N S I T I O N S S H A L L B E C O N S T R U C T E D A N D I N S T A L L E D T O S M A C N A , S P E C I F I C A T I O N S , A N D T H E A B O V E N O T E D S T A N D A R D S . A N Y D E V I A T I O N S S H A L L B E C O O R D I N A T E D W I T H T H E E N G I N E E R . W Y E F I T T I N G O F F S E T E C C E N T R I C T R A N S I T I O N C O N C E N T R I C T R A N S I T I O N 9 0 ° T E E F I T T I N G C O N I C A L F I T T I N G 9 0 ° T E E W / O V A L T O R O U N D T A P 4 5 ° L A T E R A L T A P R A D I U S E L B O W 9 0 ° G O R E D E L B O W 5 G O R E M I T E R E D E L B O W W / T U R N I N G V A N E S 4 5 ° G O R E D E L B O W 3 G O R E 1 1 / 2 " I N S U L A T I O N 2 4 G A G A L V A N I Z E D C O U N T E R F L A S H I N G . E X T E N D U P S I D E O F R O O F C U R B B E T W E E N F A N B A S E A N D W O O D N A I L E R R O O F I N S U L A T I O N O N R O O F D E C K R O O F I N G . E X T E N D U P S I D E O F R O O F C U R B B E T W E E N F A N B A S E A N D W O O D N A I L E R 1 8 G A G A L V A N I Z E D S T E E L F A C T O R Y R O O F C U R B P R O V I D E 2 0 G A U G E S H E E T M E T A L P L A T E B E T W E E N R O O F D E C K A N D R O O F C U R B . C U T H O L E I N P L A T E T O S I Z E O F D U C T . E X T E N D F L A N G E D D U C T D O W N T H R U O P E N I N G A N D T R A N S I T I O N T O S I Z E S H O W N O N P L A N S M O T O R I Z E D D A M P E R O R B A C K D R A F T D A M P E R S E T O N F A C T O R Y D A M P E R T R A Y . R E F E R T O F A N S C H E D U L E F O R D A M P E R S P E C I F I C A T I O N . P R O V I D E G A S K E T T Y P E S E A L B E T W E E N D A M P E R A N D T R A Y T O P R E V E N T W A T E R L E A K A G E E X H A U S T F A N . R E F E R T O F A N S C H E D U L E F O R S P E C I F I E D M O D E L F A C T O R Y W O O D 1 2 " M I N I M U M N A I L E R L A G F A N B A S E T O W O O D N A I L E R , T W O S C R E W S O N E A C H S I D E O F C U R B L A G C U R B A N D D U C T S U P P O R T P L A T E T O R O O F D E C K A T T W O P L A C E S O N E A C H S I D E O F C U R B . U S E T H E F O L L O W I N G : F O R M E T A L D E C K , U S E S H E E T M E T A L S C R E W S . F O R W O O D D E C K , U S E L A G S . F O R C O N C R E T E D E C K , U S E E X P A N S I O N A N C H O R S N O T T O S C A L E E X H A U S T F A N M O U N T I N G D E T A I L - F A C T O R Y D A M P E R T R A Y 1 2 " A B O V E R O O F , M I N . R O O F D E C K U S E S I L I C O N E C A U L K A N D S H E E T M E T A L S C R E W S T O S E A L F L A N G E T O P L A T E - O F P R O J E C T N O . 2 2 - 0 8 1 TETON RADIOLOGY MADISON 425 E. 4th North Rexburg, Idaho 83440 Renovation for new MRI Installation M - 3 - MECHANICAL DETAILS 0 4 / 0 5 / 2 0 2 2 N O T E : P R O V I D E E X T E R I O R R A I S E D P I P I N G S U P P O R T S O N 8 ' - 0 " C E N T E R S , A T A L L E L B O W S , A N D D I R E C T L Y A F T E R A L L R I S E S . E Q U I P M E N T C O N N E C T I O N S S H A L L N O T S U P P O R T A N Y P I P I N G W E I G H T . VARIES N T S E X T E R I O R P I P E S U P P O R T D E T A I L 6 I N S U L A T E D P I P I N G A N D P R O T E C T I V E C O V E R . S E E S P E C I F I C A T I O N S R O L L E R S U P P O R T U N I S T R U T T O B E U S E D F O R P I P E R E S T R A I N T . P I P E S A D D L E W E L D E D T O T H E P I P E 1 5 / 8 " X 1 5 / 8 " U N I S T R U T C H A N N E L ( G A L V A N I Z E D ) ( T Y P . ) P O S T P L A T E U N I S T R U T P 2 0 7 2 A ( T Y P ) . A N C H O R T O S L A B . C O N C R E T E N O T E S : 1 . C O N T R A C T O R S H A L L C O O R D I N A T E E X A C T R E Q U I R E M E N T S W / G E A N D C H I L L E R M A N U F A C T U R E R . 2 . P I P I N G S H A L L B E N O N - F E R R O U S M E T A L ( C O P P E R , B R A S S ) , B R A X I N G S O L D E R , H A R D S O L D E R , O R F I T T I N G S O L D E R T Y P E 3 A N D 4 . A L U M I N U M , I R O N , C A R B O N S T E E L , Z I N C , Z I N C P L A T E D S T E E L O R S T A N D A R D S T E E L P I P E S M A Y N O T B E U S E D . 3 . C O N T R A C T O R S H A L L F I L L T H E C H I L L E D W A T E R S Y S T E M W / A M I X T U R E O F 3 5 % - 4 0 % P R O P Y L E N E G L Y C O L . D 1 D 2 N O T E S : 1 . E X P A N S I O N T O A G R E A T E R D I A M E T E R T U B E C A N B E A C C O M P L I S H E D B Y U S E O F A D I F F U S E R . T H E D I F F U S E R M U S T M E E T Q U E N C H V E N T R E Q U I R E M E N T S A N D T H E G E O M E T R I C P A R A M E T E R S S H O W N H E R E . T H E D I A M E T E R O F T H E P I P E S H O U L D N E V E R D E C R E A S E I N T H E D I R E C T I O N O F F L O W . B > 2 . 5 X ( D 2 - D 1 ) B C W S C W R D R A I N V A L V E W / H O S E C O N N E C T I O N ( T Y P . ) A U T O M A T I C A I R V E N T W / B A L L V A L V E A T A L L H I G H P O I N T S ( T Y P . ) P E T E ' S P L U G ( T Y P . ) U N I O N ( T Y P . ) S T A I N L E S S S T E E L F L E X I B L E C O N N E C T O R ( T Y P . ) N E W C O N C R E T E H O U S E K E E P I N G P A D , S E C U R E L Y A T T A C H N E W C H I L L E R P E R M A N U F A C T U R E R ' S I N S T R U C T I O N S C H I L L E R ( S U P P L I E D B Y M R I M A N U F A C T U R E R ) H E A T E X C H A N G E R C A B I N E T ( H E C ) L O N G R A D I U S E L B O W ( T Y P . ) C R Y O C O O L E R C O M P R E S S O R ( C R Y ) B A L L V A L V E W I T H I N 1 8 " O F I N T E R F A C E P A N E L ( T Y P . ) V E R I F Y H O S E R E Q U I R E M E N T S W I T H M R I M A N U F A C T U R E R P O W E R , G R A D I E N T , R F C A B I N E T ( P G R ) V E R I F Y H O S E R E Q U I R E M E N T S W I T H M R I M A N U F A C T U R E R 3 " C H I L L E D W A T E R P I P I N G U P T O 2 5 0 ' - 0 " M A X I M U M O N E - W A Y L E N G T H . 3 / 1 6 " M I N I M U M S T A I N L E S S S T E E L F L A N G E S T A I N L E S S S T E E L S C R E W ( T Y P . ) S T A I N L E S S S T E E L L O C K I N G N U T ( T Y P . ) S T A I N L E S S S T E E L S P R I N G W A S H E R ( T Y P . ) S T A I N L E S S S T E E L S P R I N G W A S H E R ( T Y P . ) D I E L E C T R I C B U S I N G ( T Y P . ) G A S K E T ( T Y P . ) N O T E S : 1 . D I E L E C T R I C I S O L A T I O N H A S T O B E I N S T A L L E D T O A V O I D E L E C T R I C A L N O I S E B E I N G P I C K E D U P B Y L O O P S B E T W E E N T H E M A G N E T , T H E Q U E N C H T U B E , T H E R F R O O M A N D T H E B U I L D I N G . 2 . I T I S N E C E S S A R Y T O H A V E O N E D I E L E C T R I C I S O L A T I O N O F T H E Q U E N C H T U B E I N S I D E T H E R F R O O M A N D O N E O U T S I D E O F T H E R F R O O M . N T S Q U E N C H V E N T D I F F U S E R 4 N T S D I E L E C T R I C I S O L A T I O N 5 N T S M R I A N D A S S O C I A T E D E Q U I P M E N T C H I L L E D W A T E R P I P I N G D E T A I L 2 PROVIDED /INSTALLED BYCONTRACTORPROVIDED BY GE,INTSTALLED BYCONTRACTORMOUNTING HARDWARE TO BE SUPPLIED BY GEAND INSTALLED BY THE CONTRACTOR, TYPICALOF 12 PLACES. GALVANIC ISOLATION AT THISLOCATION IS REQUIRED FLEXIBLE BELLOWS / ACOUSTIC DECOUPLERSECTION. FLEX COUPLING AT MAGNET PROVIDEDBY GE, CONNECTED BY CONTRACTOR FLANGE FOR QUENCH VENT COUPLING RF WAVEGUIDE MADE WITH FLANGES FOR QUENCHVENT COUPLING TO BE SIZED, FABRICATED, ANDINSTALLED BY RF SHIELD CONTRACTOR INCOOPERATION WITH QUENCH VENT MANUFACTURER DIELECTRIC ISOLATION, COORDINATE WITH RFSHIELDING CONTRACTOR AND REFER TO GEPLANS FOR REQUIREMENTS ROOF ROOF FLASHING AS REQUIRED TO PROVIDE AWEATHER TIGHT SEAL AROUND A VENT THAT CANRELIEVE HELIUM GAS AT TEMPERATURES LESSTHAN -400°F DEFLECTOR PLATE SHALL BE WELDED TO THETUBE TO PREVENT HELIUM FROM RE-ENTERINGTHE BUILDING LINE OF BUG SCREEN - 3/8" WIRE MESH COVERINGAN AREA AT LEAST 2.5 TIMES THE CROSS SECTIONOF THE QUENCH VENT EXITING DUCT QUENCH VENT CAP SHALL BE DESIGNED INACCORDANCE W/ GE QUENCH VENT NOTES TOPREVENT RAIN FROM ENTERING THE QUENCH DUCT 16"4"8"16"24"8"FINAL CONNECTION OF THE CRYOGEN EXITING DUCTSYSTEM SHALL BE PERFORMED BY THE CONTRACTORDURING THE DAY OF MAGNET DELIVERY QUENCH VENT FLEXIBLE SECTION, COORDINATE WITHMRI MANUFACTURER FOR EXACT REQUIREMENTS 8"RF SHIELDNOTES:1.THE CONTRACTOR SHALL VERIFY SIZE OF THE CRYOGEN EXITING DUCT SYSTEM W/ THE MRI MANUFACTURER BASED ON THE EXISTING CONDITIONS. THE FINALCALCULATED DIAMETER OF THE DUCT MAY VARY WITH THE ACTUAL ROUTING.2.THE QUENCH VENT SHALL BE CONSTRUCTED OF NON-MAGNETIC AISI 304, 309, 316 OR 321 STAINLESS STEEL (>22 GAUGE). THERMAL CONTRACTION UP TO 3mm/ METER MAY OCCUR SO A STEEL BELLOWS OR FLEXIBLE SECTION MUST BE INSTALLED EVERY 32'-9" NOT TO EXCEED 2% OF THE OVERALL LENGTH.3.TAKE PROPER PRECAUTIONS WHEN FIELD WELDING IN THE VICINITY OF LIQUIFIED / FROZEN OXYGEN.4.ALL MATERIAL AND WORK SHALL BE PROVIDED/PERFORMED BY THE CONTRACTOR WITH FINAL CONNECTION OF THE CRYOGEN EXITING DUCT SYSTEM TO THEGE MAGNET TO BE PERFORMED UNDER GE'S SUPERVISION.5.THE QUENCH TUBE MUST HAVE A MINIMUM 1" INSULATION FOR THE FULL LENGTH. WITHIN THE RF SHIELD, THERE SHOULD BE A 1" LAYER OF MINERAL FIBERINSULATION WITH A VAPOR BARRIER AND 1" CLASS O OR CLASS AP ARMAFLEX. OUTDOOR PIPE MUST BE WEATHERPROOF. THE TUBE MUST HAVE A WARNINGPOSTED ALONG ITS ENTIRE LENGTH FOR "EXTREMELY COLD HELIUM GAS - AUTHORIZED PERSONNEL ONLY." THE INSULATION MUST NOT TOUCH THE MAGNETCOVERS. TO AVOID RF DISTURBANCES, THE INSULATION MUST NOT MAKE ELECTRIC CONTACT W/ THE WAVEGUIDE.QUENCH VENT FLANGE AT MAGNETNTSCRYOGEN EXITING DUCT (QUENCH VENT) SYSTEM DETAIL3 DIELECTRIC ISOLATION, COORDINATE WITH RFSHIELDING CONTRACTOR AND REFER TO GEPLANS FOR REQUIREMENTS F U L L S I Z E ( 3 " ) C H I L L E D W A T E R B Y P A S S P R O V I D E W / B A L L V A L V E A N D 3 / 4 " D R A I N V A L V E W / H O S E C O N N E C T I O N A N D C A P G R A D I E N T C O I L ( P G R ) M A G N E T ( M A G ) W A T E R C O O L I N G B A C K S U P P L Y A N D D R A I N C O N N E C T I O N S , V E R I F Y E X A C T R E Q U I R E M E N T S W I T H M R I M A N U F A C T U R E R B A L L V A L V E ( T Y P . ) CWS CWR F I L T E R P R O V I D E D B Y M R I M A N U F A C T U R E R , I N S T A L L E D B Y M E C H A N I C A L C O N T R A C T O R F L O W M E T E R P R O V I D E D B Y M R I M A N U F A C T U R E R , I N S T A L L E D B Y M E C H A N I C A L C O N T R A C T O R V E R I F Y H O S E R E Q U I R E M E N T S W I T H M R I M A N U F A C T U R E R THE MECHANICAL CONTRACTOR AND WATER TREATMENT CONTRACTOR SHALL COORDINATE EXACT REQUIREMENTS OF CHILLER PIPING SYSTEM FLUSHING/CLEANINGWITH MRI MANUFACTURER. MRI MANUFACTURER REQUIREMENTS SUPERCEDE THE REQUIRED WORK DESCRIBED BELOW IF DIFFERENT.A QUALIFIED WATER TREATMENT CONTRACTOR SHALL BE UTILIZED TO FURNISH THE CLEANING MATERIAL AND SUPERVISE THE FLUSHING AND TREATMENT OF THESYSTEM. APPROVED WATER TREATMENT CONTRACTORS MUST SHOW PROOF OF SIMILAR SERVICE FOR NO LESS THAN 3 YEARS, AND SHALL HAVE FULL-TIME SERVICEPERSONNEL LOCATED WITHIN ONE-HOUR FROM THE JOB SITE. MONITORING AND TREATMENT OF THE SYSTEM SHALL BE PROVIDED FOR A PERIOD OF ONE YEARFOLLOWING FINAL ACCEPTANCE OF BUILDING AND SYSTEM.DESCRIPTION OF WORK1. LEAK CHECK AND INITIAL SYSTEM CLEANING:-ONCE THE ENTIRE SYSTEM HAS BEEN COMPLETELY INSTALLED, THE COOLING WATER DISTRIBUTION SYSTEM SHALL BE COMPLETELY CLEANED AND CHECKEDFOR LEAKS. THE WATER TREATMENT CONTRACTOR SHALL ADD INITIAL CHEMICAL CLEANING AGENT TO FACILITATE FLUSHING AND TO PREVENT CORROSIONDURING THE LEAK CHECK PROCESS. THE SYSTEM SHALL BE FREE OF ALL CUTTING OILS AND OTHER DEBRIS. THE WATER TREATMENT CONTRACTOR SHALL FIL L THE COOLING SYSTEM WITH CLEAN, FRESH WATER AND THOROUGHLY CHECK SYSTEM PIPING FOR LEAKS. FOLLOWING THE LEAK CHECK, THE CLOSED SYSTE M SHALL BE FLUSHED UNTIL THE LEAVING WATER RUNS CLEAR. THE WATER TREATMENT CONTRACTOR SHALL ENSURE THAT SYSTEMS NOT BE LEFT DRY DURINGSYSTEM DRAIN-DOWN. THE WATER TREATMENT CONTRACTOR AND MECHANICAL CONTRACTOR SHALL VERIFY WHICH EQUIPMENT SHALL BE EXCLUDED FROMTHIS PROCESS PER THE MANUFACTURER'S INSTRUCTIONS/RECOMMENDATIONS AND MAKE ACCOMMODATIONS TO BYPASS THAT EQUIPMENT.2. COOLING WATER SYSTEM CHEMICAL TREATMENT:-FILL SYSTEM WITH A SOLUTION OF 10% BY WEIGHT OF A HEAVY DUTY ALKALINE LIQUID CLEANER. THE CLEANER SHALL BE CAPABLE OF WETTING ANDPENETRATING HEAVY SOIL DEPOSITS OF OIL OR GREASE, AND OF KEEPING THESE PRODUCTS IN SUSPENSION.-CIRCULATE SOLUTION FOR A MINIMUM OF 8 HOURS, THEN FLUSH SYSTEM WITH CLEAN FRESH WATER UNTIL ALL SOLIDS HAVE BEEN CLEANED FROM THESYSTEM. CLEAN ALL STRAINERS IN SYSTEM.-THE WATER TREATMENT CONTRACTOR SHALL REFILL SYSTEM WITH A MIXTURE OF 60% VOLUME OF CLEAN WATER AND 40% VOLUME OF DOWFROST HDPROPYLENE GLYCOL WITH BUILT-IN CHEMICAL INHIBITOR.3. AT THE CONCLUSION OF CLEANING AND TREATING, THE WATER TREATMENT CONTRACTOR SHALL CERTIFY IN WRITING THAT THE SYSTEM HAS BEEN CLEANED ANDTREATED AS SPECIFIED.4. AT THE END OF ONE YEAR, THE SYSTEM SHALL AGAIN BE CHECKED AND REFILLED AS REQUIRED TO MEET THE ABOVE SPECIFICATIONS. SERVICE DURING THEONE-YEAR WARRANTY PERIOD SHALL BE AS REQUIRED TO MAINTAIN ABOVE SPECIFICATIONS.NOT TO SCALE COOLING WATER SYSTEM FLUSHING AND TREATMENT1 - O F P R O J E C T N O . 2 2 - 0 8 1 TETON RADIOLOGY MADISON 425 E. 4th North Rexburg, Idaho 83440 Renovation for new MRI Installation M - 4 - MECHANICAL DETAILS 0 4 / 0 5 / 2 0 2 2 D I F F U S E R S C H E D U L E SYMBOLNOMINAL SIZ E N E C K S I Z E R U N O U T S I Z E C F M R A N G E R E M A R K S 6X6 6 " Ø 6 " Ø 0 - 9 0 1 , 2 , 3 , 4 , 5 , 6 , 7 9X9 8 " Ø 8 " Ø 9 0 - 2 0 0 1 , 2 , 3 , 4 , 5 , 6 , 7 12X12 1 0 " Ø 1 0 " Ø 2 0 0 - 3 5 0 1 , 2 , 3 , 4 , 5 , 6 , 7 15X15 1 2 " Ø 1 2 " Ø 3 0 0 - 5 0 0 1 , 2 , 3 , 4 , 5 , 6 , 7 15X15 1 4 " Ø 1 4 " Ø 4 0 0 - 6 5 0 1 , 2 , 3 , 4 , 5 , 6 , 7 18X18 1 6 " Ø 1 6 " Ø 6 0 0 - 9 0 0 1 , 2 , 3 , 4 , 5 , 6 , 7 21X21 2 1 X 2 1 2 1 X 2 1 9 0 0 - 1 4 0 0 1 , 2 , 3 , 4 , 5 , 6 , 7 6"Ø CFM D-18"Ø CFM D-210"Ø CFM D-312"Ø CFM D-414"Ø CFM D-516"Ø CFM D-621X21CFMD-7REMARKS:1.SIZES BASED ON TITUS M O D E L O M N I - A A S E R I E S . A L U M I N U M M R I - A P P R O V E D C O N S T R U C T I O N . A P P R O V E D ALTERNATE MANUFACTU R E R S I N C L U D E A N E M O S T A T , J & J R E G I S T E R , N A I L O R , M E T A L - A I R E , T U T T L E & B A I L E Y , KRUEGER, PRICE, AND UN I T E D E N E R T E C H . 2.SIZES BASED ON A MAXIM U M N C L E V E L O F 2 5 . 3.ALL DIFFUSERS LOCATED I N L A Y - I N C E I L I N G A R E A S S H A L L B E B O R D E R T Y P E 3 A N D B E M O U N T E D I N MANUFACTURER PROVID E D 2 4 " x 2 4 " P A N E L S . A L L D I F F U S E R S L O C A T E D I N H A R D C E I L I N G A R E A S S H A L L B E BORDER TYPE 6 (BEVELE D ) S U R F A C E M O U N T E D . S E E A R C H I T E C T U R A L P L A N S F O R L O C A T I O N S O F V A R I O U S CEILING TYPES.4.SEE HVAC FLOOR PLANS F O R D I R E C T I O N A L T H R O W R E Q U I R E M E N T S F O R E A C H D I F F U S E R . 5.ALL OF THE DIFFUSERS S H O W N I N T H I S S C H E D U L E M A Y N O T B E U S E D . R E F E R E N C E T H E H V A C P L A N F O R DIFFUSER CALL-OUTS AN D T H E Q U A N T I T Y O F E A C H S I Z E R E Q U I R E D . 6.WHENEVER THERE IS A DI S C R E P A N C Y B E T W E E N T H E R U N O U T D U C T S I Z E S H O W N O N T H E P L A N S A N D T H A T SHOWN IN THE SCHEDUL E , A L W A Y S U S E T H E L A R G E R O F T H E T W O D U C T S I Z E S . 7.WHITE FINISH. E X H A U S T F A N S C H E D U L E S Y M B O L A R E A S E R V E D U N I T T Y P E B L O W E R E L E C T R I C A L S O N E S O P E R A T I N G W E I G H T ( L B S ) M A N U F A C T U R E R A N D M O D E L R E M A R K S C F M E S P M A X I M U M R P M D R I V E H P V / Ø E F - 1 M R I R O O F T O P U P B L A S T 1 , 2 0 0 0 . 2 5 1 0 7 5 D I R E C T 1 / 6 1 1 5 / 1 9 . 3 1 5 0 C O O K M O D E L A C R U D 1 3 5 R 1 0 D 1 , 2 , 3 R E M A R K S : 1 . A P P R O V E D A L T E R N A T E M A N U F A C T U R E R S : G R E E N H E C K , P E N N B A R R Y , T W I N C I T Y , A N D S O L E R & P A L A U . 2 . P R O V I D E U N I T W I T H M A N U F A C T U R E R ' S A L U M I N U M R O O F C U R B W / D A M P E R T R A Y A N D B A C K D R A F T D A M P E R , T H E R M A L O V E R L O A D P R O T E C T I O N , P R E - W I R E D N E M A 3 R E L E C T R I C A L D I S C O N N E C T S W I T C H , A N D I N T E G R A L A L U M I N U M B I R D S C R E E N . 3 . F A N C O N T R O L L E D B Y M R I S Y S T E M . C O O R D I N A T E W I T H M R I I N S T A L L A T I O N C O N T R A C T O R . RETURN & EXHAUST GRILLE SCHEDULESYMBOLNOMINAL SIZENECK / RUNOUTSIZECFM RANGEREMARKS8X86"Ø0-80 1 , 2 , 3 , 4 , 5 , 6 , 710X108"Ø80-180 1 , 2 , 3 , 4 , 5 , 6 , 712X1210"Ø180-300 1 , 2 , 3 , 4 , 5 , 6 , 722X106"Ø0-80 1 , 2 , 3 , 4 , 5 , 6 , 722X108"Ø80-180 1 , 2 , 3 , 4 , 5 , 6 , 722X1010"Ø180-300 1 , 2 , 3 , 4 , 5 , 6 , 722X2212"Ø300-500 1 , 2 , 3 , 4 , 5 , 6 , 722X2214"Ø500-750 1 , 2 , 3 , 4 , 5 , 6 , 722X1022X10500-1100 1 , 2 , 3 , 4 , 5 , 6 , 722X2222X221100-2000 1 , 2 , 3 , 4 , 5 , 6 , 7 6"Ø R-18"Ø R-210"Ø R-36"Ø R-48"Ø R-510"Ø R-612"Ø R-714"Ø R-822X10R-922X22R-10REMARKS:1.ALTNERNATE MANUFACTURERS: ANEMOSTAT, CARNES, PRICE, NAILOR, METAL-AIRE, TUTTLE & BAILEY,KRUEGER, J&J REGISTER, AND UNITED ENERTECH.2.SIZES BASED ON TITUS MODEL 50F, ALUMINUM EGGCRATE RETURN GRILLE, 1/2" x 1/2" x 1" SPACING (SINGLECORE). PROVIDE SQUARE TO ROUND TRANSITION (WHERE ROUND RUN-OUT INDICATED).3.SIZES BASED ON A MAXIMUM NC LEVEL OF 25.4.ALL GRILLES LOCATED IN LAY-IN CEILING AREAS SHALL HAVE BORDER #3, UNLESS OTHERWISE INDICATED. ALLGRILLES LOCATED IN HARD CEILING AREAS SHALL HAVE BORDER #1, UNLESS OTHERWISE INDICATED. REFERTO ARCHITECTURAL PLANS FOR LOCATIONS OF VARIOUS CEILING TYPES. SHEET METAL DUCTWORK VISIBLEBEHIND GRILLE SHALL BE PAINTED FLAT BLACK.5.ALL OF THE GRILLES SHOWN IN THIS SCHEDULE MAY NOT BE USED. REFERENCE THE HVAC PLAN FOR GRILLECALL-OUTS AND THE QUANTITY OF EACH SIZE REQUIRED.6.WHENEVER THERE IS A DISCREPANCY BETWEEN THE RUNOUT DUCT SIZE SHOWN ON THE PLANS AND THATSHOWN IN THE SCHEDULE, ALWAYS USE THE LARGER OF THE TWO DUCT SIZES.7.COLOR TO BE SELECTED BY ARCHITECT.SEQUENCE OF OPERATIONSSU P P L Y A I R T H E R M O S T A T T DXCRETURN AIRAIR HANDLING UNITCONDENSING UNITNTSAIR HANDLING UNIT CONTROL SYSTEM S C H E M A T I C AIR HANDLING UNITS WITHOUT ECONOMIZERS:THE AIR HANDLING UNIT SUPPLY FAN WILL START DURING OCCUPIED PERIODS AS SET BY THE PROGRAMMABLE THE R M O S T A T . I F C O O L I N G I S R E Q U I R E D T H E PROGRAMMABLE THERMOSTAT WILL START THE COMPRESSORIZED COOLING SYSTEM TO MAINTAIN THE USER ADJU S T A B L E C O O L I N G S P A C E S E T P O I N T . I F HEATING IS REQUIRED THE UNIT WILL ENERGIZE THE HEATING SYSTEM AND CYCLING THE HEATING STAGE(S) AS RE Q U I R E D T O M A I N T A I N T H E S P A C E TEMPERATURE HEATING SETPOINT. IF THE SPACE TEMPERATURE IS BETWEEN THE HEATING AND COOLING SETPOIN T , T H E S U P P L Y F A N W I L L C O N T I N U E T O OPERATE, BUT NEITHER HEATING NOR COOLING WILL BE ENABLED.IN THE UNOCCUPIED MODE THE AIR HANDLING UNIT SUPPLY FAN WILL BE STOPPED. IF SPACE TEMPERATURE WERE T O R I S E A B O V E O R F A L L B E L O W T H E UNOCCUPIED SPACE SET POINTS THE AIR HANDLING UNIT SUPPLY FAN WILL START AND HEATING OR COOLING WILL B E E N A B L E D T O M A I N T A I N T H E S P A C E TEMPERATURE AT THE UNOCCUPIED SPACE TEMPERATURE SETPOINT. V R F H V A C S Y S T E M S C H E D U L E I N D O O R F A N C O I L U N I T S H E A T P U M P S Y M B O L F A N C O I L S Y M B O L A R E A S E R V E D N O M I N A L T O N S U N I T T Y P E S U P P L Y F A N C O O L I N G H E A T I N G E L E C T R I C A L O S A S O U N D ( d B ) O P E R . W E I G H T ( L B S ) M A N U F A C T U R E R A N D M O D E L R E M A R K S C F M H / L M B H M B H M C A M O C P V / Ø N E V - 1 N M R I I M A G I N G R O O M 4 . 0 D U C T E D 1 , 3 0 7 3 4 . 3 5 4 . 0 2 . 8 1 5 2 0 8 / 1 2 4 0 7 0 1 2 5 D A I K I N M O D E L F X S Q 4 8 T A V J U 1 , 2 , 3 , 4 E V - 2 N M R I C O N T R O L R O O M 2 . 0 D U C T E D 7 4 2 1 7 . 1 2 7 . 0 1 . 8 1 5 2 0 8 / 1 8 0 6 4 1 0 0 D A I K I N M O D E L F X S Q 2 4 T A V J U 1 , 2 , 3 , 4 R E M A R K S : 1 . A P P R O V E D A L T E R N A T E M A N U F A C T U R E R S : N O N E . 2 . C O N T R O L U N I T W I T H E X I S T I N G C O N T R O L L E R S . 3 . P R O V I D E W I T H C O N D E N S A T E P U M P ( I F N E C E S S A R Y , F I E L D V E R I F Y E X I S T I N G C O N D I T I O N S ) . 4 . P R O V I D E W I T H M I C R O M E T L H I G H E F F I C I E N C Y F I L T E R B O X W I T H 1 " M E R V 8 F I L T E R S A N D 4 E X T R A S E T S O F F I L T E R S F O R E A C H U N I T . R E M A R K S : 1 . A P P R O V E D A L T E R N A T E M A N U F A C T U R E R S : S U B M I T F O R P R I O R A P P R O V A L . 2 . C O N T R O L U N I T W I T H M A N U F A C T U R E R ' S H A R D - W I R E D W A L L M O U N T E D 7 D A Y P R O G R A M M A B L E T H E R M O S T A T . 3 . P R O V I D E M A N U F A C T U R E R S C R A N K C A S E H E A T E R , L O W A M B I E N T C O N T R O L S & ( T O 0 ° F ) W I N D B A F F L E S , A N D R E F R I G E R A T I O N L I N E S E T S I Z E D B Y M A N U F A C T U R E R . 4 . P R O V I D E C O N D E N S I N G U N I T W I T H N E W V I B R A T I O N I S O L A T O R S . 5 . P R O V I D E W I T H A S P E N M I N I C O N D E N S A T E P U M P , C O N C E A L P U M P B E H I N D U N I T W I T H I N M O U N T I N G B R A C K E T A S S E M B L Y . P U M P S H A L L B E P O W E R E D B Y F A N C O I L . 6 . E L E C T R I C A L T O P R O V I D E D I S C O N N E C T . D U C T L E S S S P L I T H I G H W A L L C O O L I N G U N I T S C H E D U L E S Y M B O L A R E A S E R V E D N O M I N A L T O N S U N I T T Y P E S U P P L Y F A N C O O L I N G C A P A C I T Y A T 9 5 ° F O S A E L E C T R I C A L O U T D O O R U N I T M I N I M U M S E E R I N D O O R / O U T D O O R W E I G H T ( L B S ) M A N U F A C T U R E R A N D M O D E L R E M A R K S C F M V / Ø T O T A L ( M B H ) S E N S I B L E ( M B H ) M C A M O C P V / Ø H W U - 1 , C U - 1 M R I M E C H A N I C A L R O O M 2 . 0 H I G H W A L L C O O L I N G O N L Y 3 0 5 T H R U O / U 1 2 . 0 8 . 5 1 1 1 5 2 0 8 / 1 1 9 . 0 2 0 / 6 5 C A R R I E R F A N C O I L M O D E L 4 0 M H H 1 2 C A R R I E R C O N D E N S I N G U N I T M O D E L 3 8 M H R B C 1 2 1 , 2 , 3 , 4 , 5 , 6 H W U - 2 , C U - 2 M R I M E C H A N I C A L R O O M 2 . 0 H I G H W A L L C O O L I N G O N L Y 5 5 0 T H R U O / U 1 8 . 0 1 3 . 0 1 5 2 0 2 0 8 / 1 1 9 . 0 2 5 / 7 5 C A R R I E R F A N C O I L M O D E L 4 0 M H H 1 8 C A R R I E R C O N D E N S I N G U N I T M O D E L 3 8 M H R B C 1 8 1 , 2 , 3 , 4 , 5 , 6 H W U - 3 , C U - 3 M R I M E C H A N I C A L R O O M 2 . 0 H I G H W A L L C O O L I N G O N L Y 6 4 0 T H R U O / U 2 5 . 0 1 8 . 0 1 8 2 5 2 0 8 / 1 1 8 . 5 3 5 / 9 5 C A R R I E R F A N C O I L M O D E L 4 0 M H H 2 4 C A R R I E R C O N D E N S I N G U N I T M O D E L 3 8 M H R B C 2 4 1 , 2 , 3 , 4 , 5 , 6 - O F P R O J E C T N O . 2 2 - 0 8 1 TETON RADIOLOGY MADISON 425 E. 4th North Rexburg, Idaho 83440 Renovation for new MRI Installation M - 5 - MECHANICAL SCHEDULES 0 4 / 0 5 / 2 0 2 2