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rRal r�ll�l�'ll■ �®!� <br />FOR REFERENCE ONLY <br />REFER TO SEPARATE PERMIT CAPTIVE -AIR (OR EQUAL) EXHAUST FAN, HOOD, AND <br />MAKE UP AIR UNIT PLANS FOR ADDITIONAL INFORMATION <br />GREASE DUCT & CHIMNEY SPECIFICATIONS: <br />PROVIDE GREASE DUCT EQUAL TO CAPTIVEAIRE SYSTEMS MODEL 11DW" <br />ROUND 20 GAUGE 430 STAINLESS STEEL DUCTWORK. MODEL 11DW11 <br />IS LISTED TO UL-1978 AND IS INSTALLED USING "V" CLAMP LOCKING <br />CONNECTIONS SEALED WITH 3M FIRE BARRIER 2000 PLUS. MODEL 11DW11 <br />DOES NOT REQUIRE WELDING PROVIDING IT HAS BEEN INSTALLED PER <br />THE MANUFACTURES INSTALLATION GUIDE. <br />PROVIDE RATED ACCESS DOORS AT EVERY CHANGE IN DIRECTION AND EVERY 12, ON CENTER. PER <br />MANUFACTURES LISTING MODEL "DW" HORIZONTAL RUNS LESS THAN 75 FT. CAN BE SLOPED 1/16" PER 12"1 <br />HORIZONTAL RUNS MORE THAN 75 FT. CAN BE SLOPED 3/16" PER 12". <br />DUCT SHOULD BE SLOPED AS MUCH AS POSSIBLE TO REDUCE THE CHANCE OF GREASE ACCUMULATION IN <br />HORIZONTAL RUNS. <br />IF THE DUCT OR CHIMNEY IS WITHIN 18 INCHES OF COMBUSTIBLE MATERIAL, PROVIDE UL-2221 OR UL-103 HT <br />LISTED DOUBLE WALL GREASE DUCT OR DOUBLE WALL CHIMNEY EQUAL TO CAPTIVEAIRE SYSTEMS MODEL <br />"DW- 2R, 2R TYPE HT, 3R, OR 3Z" ROUND 20 GAUGE 430 STAINLESS INNER DUCT INSULATED WITH A 24 GAUGE <br />430 STAINLESS OUTER SHELL. <br />CUSTOMER APPROVAL TO MANUFACTURE: <br />Approved as Noted <br />Approved with NO Exception Taken <br />Revise and Resubmit <br />SIGNATURE <br />Your Title Date <br />JOB NO <br />3572163 <br />s <br />3 <br />4 <br />CONTROL PANEL <br />TO FIRE <br />SYSTEM PULL <br />S <br />STATION <br />e <br />CONTROL PANEL <br />J3 <br />TO <br />MASTER CORE <br />BOARD. <br />10 <br />INTERLOCK NETWORK <br />CONTROL PANEL® <br />» <br />TO <br />MASTER CORE <br />PANEL <br />S <br />13 <br />14 <br />17 <br />m <br />H <br />m <br />a <br />ffi <br />23 <br />s► <br />NUMBER DCV-1111 <br />ME Circle K - Exhaust Hood <br />PULL STATION <br />MS-01­1 <br />MANUAL ACTUATION LOOP/ REMOTE FM SYSTEM <br />Loop. 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Lin <br />CAT-5 CONNECTION <br />ADDITIONAL DEVICES MAY BE INUNE. <br />PLACE END OF LINE PLUG <br />IN EMPTY JACK PN: EOL120A <br />UNLESS VFD, PCU, <br />OR OTHER COMPONENT IN SERIE <br />SHEIDED TWISTED PAIR - <br />WIRE TO LIKE TERMINALS IN ALL <br />CORE PANELS THAT MUST ACTIVATE <br />TOGETHER SET MASTER & SLAVE <br />DIP SWITCHES PER CORE MANUAL. <br />a- <br />MASTER CORE <br />10 <br />HIGH TEMP GASKET IS <br />SEAL THE FAN TO THE <br />TRANSITION PLATE. <br />VENTED CURB ROOF <br />TERMINATION. <br />LISTED <br />Demand Control Ventilation Hood Control Panel Specifications: <br />- Controls shall be listed by ETL (UL 508A) and shall comply with demand ventilation system <br />BY +�, DESCRIPTION OF OPERATION: turndown requirements outlined in IECC 403.2.8 (2015). <br />INSTALL OemBnd Contra Venflabon, wI control b I Exhaust Fan, 1 SgVty Fen, Exhaust on in Fee. Llphla wt In Mrs. Fans roWulab baeW on duct tenpenMa. INVERTER DUTY <br />on 3 PHASE MOTOR REOUIREO FOR USE WITHVFD. Roan Wn,..trxe eellsor shipped bow fa smi Insumison.Vedly dlebnee betwwn VFD and Malor, adatxnsi coil <br />owb appty N distance azceede 50 feet. <br />;aD,B ECP#1-5 - The control enclosure shall be NEMA 1 rated and listed for installation inside of the <br />exhaust hood utility cabinet. The control enclosure may be constructed of stainless steel <br />or painted steel. <br />- Temperature probe(s) located in the exhaust duct riser(s) shall be constructed of <br />stainless steel. <br />A digital controller shall be provided to activate the hood exhaust fans dynamically based <br />on a fixed differential between the ambient and duct temperatures sensors. This function <br />shall meet the requirements of IMC 507.1.1. <br />A digital controller shall provide adjustable hysteresis settings to prevent cycling of the <br />fans after the cooking appliances have been turned off and/or the heat in the exhaust <br />system is reduced. <br />A digital controller shall provide an adjustable minimum fan run-time setting to prevent fan <br />cycling. <br />Variable Frequency Drives (VFDs) shall be provided for fans as required. The digital <br />controller shall modulate the VFDs between a minimum setpoint and a maximum setpoint on <br />demand. The duct temperature sensor input(s) to the digital controller shall be used to <br />calculate the speed reference signal. <br />The VFD speed range of operation shall be from 0% to 100% for the system, with the actual <br />minimum speed set as required to meet minimum ventilation requirements. <br />An internal algorithm to the digital controller shall modulate supply fan VFD speed <br />proportional to all exhaust fans that are located in the same fan group as the supply fan. <br />The system shall operate in PREP MODE during light cooking load or COOL DOWN MODE when <br />sufficient heat remains underneath the hood system after cooking operations have <br />completed. Operation during either of these periods will disable the supply fans and provide <br />an exhaust fan speed that is equal to the minimum ventilation requirement. <br />- A digital controller shall disable the supply fan(s), activate the exhaust fan(s), activate <br />the appliance shunt trip, and disable an electric gas valve automatically when fire condition <br />is detected on a covered hood. <br />A digital controller shall allow for external BMS fan control via Dry Contact (external <br />control shall not override fan operation logic as required by code). <br />- An LCD interface shall be provided with the following features: <br />a. On/Off push button fan & light switch activation <br />b. Integrated gas valve reset for electronic gas valves (no reset relay required) <br />c. VFD Fault display with audible & visual alarm notification <br />d. Duct temperature sensor failure detection with audible & visual alarm notification <br />e. Mis-wired duct temperature sensor detection with audible & visual alarm notification <br />f. A single low voltage Cat-5 RJ45 wiring connection <br />g. An energy savings indicator that utilizes measured kWh from the VFDs <br />ANAUJ I t-AN. <br />HE INNER DUCT IS FULLY WELDED TO <br />HE TRANSITION PLATE, ALL WELDS ARE <br />YE TESTED. <br />ECURED TO THE <br />URB BY OTHER. <br />rk <br />ROOM TEMPERATURE <br />SENSOR <br />INTERFACE <br />Sequence of Operations: <br />The hood control panel is capable of operating in one or more of the following states at any <br />given time: <br />- Automatic: The system operates based on the differential between room temperature and <br />the temperature at the hood cavity or exhaust duct collar. Fans activate at a <br />configurable temperature differential threshold. Depending on the job configuration each fan <br />zone can be configured as static or dynamic. These terms refer to whether a variable <br />motor (such as EC Motors or VFD driven motors) modulate with temperature. If the panel is <br />equipped with variable speed fans and the zone is defined as "dynamic", these will modulate <br />within a user -defined range based on the temperature differential. Panels equipped with <br />variable speed fans and a fan zone defined as "static", fans will run at a set speed <br />calculated for the drive. Demand control ventilation systems are capable of modulating <br />exhaust and make up air fan speeds per the requirements outlined in IECC 403.2.8. <br />- Manual: The system operates based on human input from an HMI. <br />- Schedule: A weekly schedule can be set to run fans for a specified period throughout the <br />day. There are three occupied times per day to allow for the user to set up a time that is <br />suitable to their needs. Any time that is within the defined occupied time, the system will run <br />at modulation mode and follow the fan procedure algorithm based on temperature during this <br />time. During unoccupied time, the system will have an extra offset to prevent unintended <br />activation of the system during a time where the system is not being occupied. <br />- Other: The system cperates based on the input from an external source (DDC, BMS or <br />hard -wired interlock) <br />�s�lf <br />0ail <br />L3 <br />r <br />CL <br />IIM <br />r I a <br />r� <br />rrrr <br />rrr <br />C <br />I c <br />I C <br />u <br />r <br />I c <br />C <br />C <br />�a ' <br />e <br />C a <br />= 0 <br />ci <br />a <br />0 <br />0 <br />m <br />.r <br />V) <br />— <br />m <br />0 <br />a) <br />rn <br />0 <br />a) <br />0 <br />rn <br />LO <br />v <br />_0 <br />0 <br />TO <br />-6-0 <br />/C0 <br />CV <br />X <br />W <br />i <br />U <br />DATE: <br />DWG.#: <br />DRAWN <br />BY: <br />SCALE: <br />3/4" = 1'-0" <br />MASTER DRAWING <br />rn <br />CM <br />CD <br />In <br />0 <br />M <br />W <br />ai <br />a <br />y <br />0 <br />o <br />Of/1 <br />a- <br />Z <br />INFINITY ENGINEERING <br />GROUP, LLC <br />1208 East Kennedy Boulevard <br />Suite 230 <br />Tampa, Florida 33602 <br />[p]: 813.434.4770 <br />[f]: 813.445.4211 <br />www.iegroup.net <br />Cert. of Auth. No. 27889 <br />Client Name and Address <br />1201 OAKFIELD DRIVE, NO. 109 <br />BRANDON, FLORIDA 33509 <br />FOR <br />REFERENCE <br />ONLY <br />Date <br />r_ <br />Z <br />Z <br />N <br />= <br />cM <br />M <br />�aa <br />LL <br />J <br />a�a <br />J <br />W <br />W <br />J <br />= <br />W <br />ca. <br />o <br />aJa <br />V <br />m <br />0 <br />Q <br />N <br />Z <br />a <br />W <br />= <br />o <br />N <br />a <br />Q <br />Lo <br />=v0 <br />0 <br />X <br />M <br />W <br />z <br />.2 <br />a� <br />a <br />LL <br />o <br />a <br />r <br />w <br />SHEET NO. <br />4 <br />'Project No. Sheet ` <br />140-88.00 <br />Date <br />05/03/2019 MC-004 <br />Scale <br />AS NOTED <br />