Biddle Air Systems Limited St. Mary s Road, Nuneaton,Warwickshire CV AU. Tel: + 0 78 Fax: + 0 77 Email: sales@biddle-air.co.uk http://www.biddle-air.co.uk F.H. Biddle B.V. P. O. Box, NL-988 ZG Kootstertille,The Netherlands. Tel: + Fax: + Biddle GmbH Emil - Hoffmann - Straße -9, 099 Köln, Germany. Tel: +9 (0) 80 Fax: +9 (0) 809 Biddle 8 rue Denis Papin, 900 Ivry sur Seine, France. Tel: + () 9 0 Fax: + () 9 0 Biddle N.V. Business Park E9, Battlelsesteenweg E 800 Mechelen, Belgium Tel: + (0) 877 Fax: + (0) 8777 The information given in this brochure is, to the best of our Knowledge, correct at the time of going to print. However, Biddle Air Systems are constantly looking at ways of improving their products and services and therefore reserve the right to change without prior notice any of the data contained in this publication. TECHNICAL DATA Designed & Produced by Nine Point High, Nuneaton, England
SPECIFICATION Casing CONTENTS Performance Data... - Correction Factors... Noise Data...7 Water Pressure Drop...8 Electrical Data...9 General Arrangements...0 Weights...0 Specification... Discharge Plenum data... Formed from heavy gauge zinc coated sheet steel stiffened as necessary to prevent distortion and drumming. Access panel assemblies are secured by pozi head screws. Grilles Chassis units, are not provided with grilles as standard. Heating and Cooling Coils Series 9 units - Up to rows of coil. The coils comprise aluminium fins with spacer collars, mechanically bonded to copper primary tubes by an expansion process which provides a high range of heat transfer coupled with long life. The primary tubes are brazed into copper headers. All coils are tested for a working pressure of 0 Bars gauge. An insulated drain tray is fitted under the cooling surface. Connections THE CONCEPT The new Coolflow range from Biddle is the latest in a long pedigree of proven, high performance fan coils which provide economic, high-efficiency cooling and heating solutions wherever individual climate control is required. Equally suited to new build projects and building refurbishment programmes Coolflow is simple to specify and install. Comprehensive Range Available in both vertical and horizontal chassis versions for wallmounted or built-in/ceiling-recessed applications, Coolflow is a low-profile system with unit depths from 07mm to 8mm. Thermally or acoustically-lined discharge plenum sections may be specified to allow equalisation of air pressure and re-direction of air flow. These incorporate circular spigots for ease of ductwork connection. Factory-fitted control valve packages can also be specified. Insulated drain trays help prevent the formation of condensation and optional condensate pumps are also available. Flexibility to suit all applications Optional Discharge Plenum A 0 B Unit sizes 9,9,9,9 Unit sizes 97,98 Dimensions of Discharge Plenum Cooling coils - mm or mm od copper tails. Heating coils - mm od copper tails. Filter Nylon non-woven filter is fitted on the inlet face of the units. Filters can be cleaned with a vacuum cleaner, by gently beating, or, in extreme cases by washing in mild detergent. A mesh g galvanised filter is available as an alternative to meet fire regulations of certain local Authorities. Fans/Motors Balanced DWDI forward curved centrifugal fans having aluminium impellers directly mounted on a resilient base for vibration free operation. Motors are totally enclosed, PSC type suitable for 0 Volt, phase 0 Hz electrical supply. They have sleeve bearings, class B insulation, thermal overload protection and multi speed tappings. Motors comply with relevant European standards. The fan/motor assembly is mounted on a fan plate which can be easily removed for servicing without disturbing wiring. Standard Controls Units are supplied as standard with a single pole switch giving speeds and off plus neon indicator. Switches are mounted on the side of the casing. Optional Controls Coolflow may be specified across the widest range of applications from single office installations, where comfort and convenience are essential, to building zones or groups of accommodation linked by common climate requirements. Coolflow has been proven over many years in business and commercial installations including retail, commercial office buildings, finance and computing, public buildings and many more. No 9 9 9 9 97 98 A 70 980 980 0 80 80 B 0 0 0 8 Spigot Dia. 0 0 00 00 00 0 Quantity Valve packages can be supplied and fitted to specification. The package can comprise port way valves with actuators, controllers and sensors to suit a wide range of applications. Optional Discharge Plenums Discharge plenums having circular spigot connections are available for chassis type units.
Horizontal Unit (H) GENERAL ARRANGEMENT DRAWINGS Controllability To provide all year round comfort, Coolflow offers the complete range of control options from single unit manual fan switch to valve packages including actuators, controllers and air temperature sensors. CASING SUPPORT SPIGOT COOLING CONNS. No. A B C D F G Flow CF Return CR 70 00 70 8 ø ø 980 00 00 9 980 0 0 00 9 97 0 0 0 0 8 97 ø ø 80 0 0 0 97 80 0 8 0 Vertical Unit (V) HEATING CONNS. Flow HF Return HR ø ø Right Hand Connections as shown. Left Hand Connections opposite hand. Coil connection sizes for basic unit are shown (i.e. no valves). Please contact sales office for specific valve connection details & dimensions. Manufactured Quality Biddle is a long-established international specialist manufacturer of fan coils. The company s production units are accredited to ISO 900 and combine long experience, quality materials and hightechnology solutions to produce a unique range of highly respected heating, ventilating and air conditioning products backed by technical expertise. Comfort attributes Coolflow provides individual climate control with exceptional user comfort. The system s efficient performance keeps noise levels to a minimum and allows air volumes to be conditioned with up to 0 pascals resistance per unit. Integral nylon, non-woven filtration may be replaced by an optional woven mesh filter when required. Where fresh air mixing is desired, Coolflow may be easily linked in-line to Biddle s Modulair fan coil system. Ease of maintenance Coolflow is engineered for long-continuous performance and minimal maintenance. Components such as filters and drain trays can be easily accessed for fast, trouble-free cleaning. Filters are secured by quick release / turn fasteners for ease of maintenance. References The model reference consists of a code giving the unit size, coil and casing arrangement. CASING SUPPORT SPIGOT COOLING CONNS. No. A B C D F G Flow CF Return CR 70 00 70 8 ø ø 980 00 00 9 980 0 0 00 9 97 0 0 0 0 8 97 ø ø 80 0 0 0 97 80 0 8 0 HEATING CONNS. Flow HF Return HR ø ø Right Hand Connections as shown. Left Hand Connections opposite hand. Coil connection sizes for basic unit are shown (i.e. no valves). Please contact sales office for specific valve connection details & dimensions. Example Product Coolflow =K Unit Size 9, 9, 9, 9,97,98 Cooling Coils rows =K rows =K Heating Coil 0 rows =H0 row =H Mounting Horizontal =H Vertical =V K 9-K/H-H APPROXIMATE OPERATING WEIGHTS Size Weight (kg) 9 7 7 0
PERFORMANCE DATA Pipe System, Heating & Cooling Applications COIL ARRANGEMENT row cooling KH ( row heating ) *Cooling Performance based on Minimum Water Flow rates at Flow Temperature 0 Pa 80 8 07 88.7.9.8....00.80.7...9.79..0.79..0 98 7 0 0..0.8.8.7.0.8.9.8.7.8...8.7.8..8 09 7 8.97.78..98..9..0.0.0..8.7.99.0..0. 9 0 78 9.07.70...9.9..8.0.87..98 8.8 7.99 7.7.9.07. 9 97 0 9 0 7.9..80..7.7.8.8.99..8.9 0.8 9. 8. 7.8.9. 780 0 0 0 0.87 7..0.80 9...00.78.80 9. 7.0.87 0 Pa 00 8.7.9.8..0..0..0..0.9 0 8...0.7..9...9..80. 0 7 9.7..9..9..89.9.9..90...7.08 9 9 9 7.8.8.8.97..0..0.70.9.9.8 7.7 7.....9 8 8 8 8.0.8.8.8.88...8..8.0. 9.0 8. 7....0 90 0 70 70 0.0 7.0..0 8..88.0.7.9 8.70.0.7 Air on Coil: ºC db, 0% rh Chilled Water: ºC flow, ºC return Hot Water: 8. C flow, 7. C return 0 Pa 0 0 97 77.88.8.9.. 0.99*.7...8.07 0.87.8.90...7.8 79 0 77.90...0.....89...0.7.9..80.0.9 7 8 0 8.8.0....*.7.0.7..7....78.0.0. 09 7 8 0 78.70....7..8.0.9.7.0.7 7.9 7..9..7.9 0 0..9.0.8.8..77...9.0.7 9. 8.7 7.9 7.0..0 70 0 90 90 0.0 7.0.7.00 9.00.97...0 8.80.80.00 0 Pa 0 8 7...0.*....0.7..9. 0 8..0.9.8.9.0..07..78.9. 7 8 09 78...78.9....0.7.8..77...8 0 7 09 8....7.0.0.09.8...79. 7..90.0.79.7. 9 0 9.98..9....8..00.8.7.98 8.8 7.9 7...0.9 0 00 0 0 9.78.9.0. 8..70...7 8.0.. On when speed tapping is selected, as the designed medium speed, the airflow rates at other tappings will increase from the tabled values. ELECTRICAL DATA Electrical Supply 0V ph 0Hz Free Air Flow Free Air Flow Free Air Flow Free Air Flow Free Air Flow Free Air Flow WIRING DIAGRAM 80 8 07 88 0 9 80 70 0 8 80 77 8 7 0.8 0. 0. 0.8 0. 0. 0.0 98 7 0 0 07 9 80 70 70 80 0 9 80 70 0. 0. 0. 0.8 0. 0. 0.0 09 7 8 0 900 770 0 70 0 8 8 0 9 0. 0.7 0.0 0. 0.9 0. 0.9 9 0 78 9 90 0 00 90 88 7 0 8 8 0.9 0.79 0.7 0.7 0.0 0..8 9 97 0 9 0 0 070 90 80 70 00 0 8 8 8.0 0.9 0.80 0.70 0. 0..0 780 0 0 0 0 90 0 0 90 70.97.0 0.80 0.77.8 General schematic diagram - Not including electrical heating or valve package options ON / OFF SWITCH Blue Brown Black Black Orange Red THREE SPEED SWITCH Green/Yellow Blue Red Orange Black DOTTED WIRING BY OTHERS High Med. Low E N}By Others L 9
WATER PRESSURE DROP PERFORMANCE DATA Coil Arrangement K Row Cooling Water Flow Rate (Kg/s) 0.0 0.0 0.08 0.080 0.08 0.00 0. 0.0 0.7 0.00 0. 0.0 0.7 0.00 0. 0.0 0.7 0.00 Minimum Water Flow Rates (kg/s) To Avoid Laminar Flow Conditions,, Water Flow Rate (Kg/s) 0.00 0.00 0.00 0.080 0.00 0. 0.0 0.7 0.00 0. 0.0 0.97.7..9.7 9.00.9 0.0 0.0 0.80.8..0 7.8.0 Water Pressure Drop (K Pa) for Flow Temperature (ºC)..8.. 7.0..0.0 8.80 0.0 0.00 0.07 0.090 Water Pressure Drop (K Pa) for 0.0 0...0.8 9.8. 9....87.9.0. 9..0.0 0.0. 0 0.0 0.0 0.08 0.08 Coil Arrangement H Row Heating 0.0 0...0.8 9.8. 9...08.9... 7. 9..8.8 7. 0.0 0.0..7.8 7..77.9.07 0. 8. 7.08..7.7.. 8. 0.89.78 7.0 0.8.9 8.7. Factors for Water Temperatures MWT ( C) 8 = x.0 0 = x = x 0.98 = x 0.9 0.07 0.... 8.79.7 9.77.9..9.9.7.89.9..79 7. 9.7.8.9 7.0 9.9..8 0. 0.07 0.... 8.79.7 9.77.9..9.9,, Coil Arrangement K Row Cooling Water Flow Rate (Kg/s) 0.0 0.08 0.08 0.09 0.00 0. 0.0 0.7 0.00 0. 0.0 0.7 0.00 0. 0.0 0.7 0.00 Factors for Water Temperatures MWT ( C) 8 = x.0 0 = x = x 0.98 = x 0.9 Factors for Water Temperatures MWT (0 C) = x.07 = x.0 = x.0 7 = x 0.98.0.8..0 7.9 9.9 Minimum Water Flow Rates (kg/s) To Avoid Laminar Flow Conditions,, Minimum Water Flow Rates (kg/s) To Avoid Laminar Flow Conditions Flow Temperature (ºC) 0 0.0 0.0 0.0 0.0 Water Pressure Drop (K Pa) for..87.7.0. 9..0.0 0.0 7..0.7.9.0.8 7.9 0.7..0 9.0.09....9.8 8.0 0...8 7. 9.8 Flow Temperature (ºC) 0.00 0.07 0.090 0.0.7.89.9..79 7. 9.7.8.9 7.0 9.9..8 0. 0.8.9.7... 7.0 8.8 0.0.0.7 7.0 9.. 0.0 0.08 0.08 0.09 Two Pipe System, Cooling Only Application COIL ARRANGEMENT row cooling K ( ) only *Cooling Performance based on Minimum Water Flow rates at Flow Temperature 0 Pa 80 8 07 88..9..00.7..7.0.9.8.7.7 98 7 0 0.97...9.0.0.7.9..0.9.7 09 7 8...07..98..0.77..70..9 9 0 78 9.80..7.8.0..9.09.8.7.0.0 9 97 0 9 0 9.0 7..89... 7...9.8.09.8 780 0 0 0.70 9.0 7...0 7.0.8.0 0 Pa 00 8..89..0*.8.8.0. 0 8.0..9.79.0.90.70.7 0 7 9.9.9.0.9.08.70..9.09. 9 9 9 7.98.9..7...8..0..8.79 8 8 8 8 7.7.7.0.9...9...90.. 90 0 70 70. 8.0.0.90 0.00.70..8 Air on Coil: ºC db, 0% rh Chilled Water: ºC flow, ºC return Hot Water: Not available on pipe system 0 Pa 0 0 97 77..09.89..*.*.97.7.8.. 79 0 77.9.99.7.9.8.8*.7.7.0.70.8.0 7 8 0 8.8.0..98..*.9.7.88..8.9 09 7 8 0 78..78..9.0.8.0...90..9 0 0 7.8 7.07...8.90.9..9.0.9.89 70 0 90 90.90 8..8.0 0.0.8.9. 0 Pa 0 8 7.97.70.9*.8*....0 0 8..7.7.*.90.8..09 7 8 09 78.7...0.7*..8.7.8.9 0 7 09 8.70..9..9..7..8.8.0. 9 0 9 7....79.90.9..9.8.9.89.7 0 00 0 0.90 8.0.90. 9...7. On when speed tapping is selected, as the designed medium speed, the airflow rates at other tappings will increase from the tabled values. 8
CORRECTION FACTORS Cooling Duty Factors NOISE DATA Approximate duty factors to be applied to tables of cooling capacities for air-on at C db, 0% rh chilled water at C flow, C return. On-coil dry bulb minus flow temperature (all at 0% rh) 8 7 0 9 8 Factors to be applied to sensible and total cooling capacities for water temperature rise C C Total.0.0 0.9 0.80 0.70 0. 0. 0.7 Sensible.7..0 0.9 0.8 0.7 0. 0.9 0. 0.7 0. Total. 0.8 0.7 0. 0. 0. 0.8 Sensible. 0.90 0.8 0.7 0. 0.0 0. 0.8 0. 0.9 These factors are only approximate for initial selection. Actual capacities will be given by computer selection on request. Example: -K H operating with chilled water at 8 C flow C return, air on coil C db 0% rh, tapping, 0Pa external pressure. On-coil temp minus flow temp = - 8 = C Water temp rise = - 8 = C... Factors = 0. for total cooling 0.7 for sensible cooling For table of capacities at C db 0% rh, CW / C a model -K H at tapping, 0Pa external has a listed capacity of.8 kw total,.9 kw sensible.... Approximate duty = Total.8 x 0. =.9 kw Sensible.9 x 0.7 =.87 kw TYPICAL NOISE LEVELS (NR) (Speed Setting) 0 7 8 9 7 9 9 0 9 9 0 9 The noise levels given above are for guidance only. They are based on the total noise energy of unit at 0 Pa external pressure being discharged into a furnished room of average construction. The room volume equal to the airflow rate at each motor tapping giving air changes per hour. No allowance has been made for ceiling absorption or duct work attenuation etc. Experience shows that these noise levels can be reduced by up to NR for a chassis unit mounted above an insulated ceiling. Use the sound power levels to determine accurate noise levels for each application. Heating Duty Factors Approximate duty factors to be applied to tables of heat emission for airon coil at C db, 0% rh hot water at 8. C flow, 7. C return. Flow temperature minus on-coil dry bulb temperature 0 9. 0 0 0 Factor to be applied to heat emission for water temperature drop 0 C..0 0.9 0.8 0.7 0. 0. 0. 0. C.9.08.0 0.97 0.8 0.7 0. 0. 0.7 0.7 These factors are only approximate for initial selection. Actual capacities will be given by computer selection on request. Example: -K H operating with hot water at 0 C flow C return, air on coil 0 C db, tapping, 0 Pa external pressure. Flow temp minus on-coil temp = 0-0 = 0 C Water temp drop = 0 - = C... Factors = 0. From table of emissions for C db 0% rh, hot water 8. C/7. C a model -K H at tapping,0 Pa external pressure has a listed emission of 7.0 kw.... Approximate emission = 7.0 x 0. =. kw NOTE: When applying low factors ensure that the minimum water flow rates are maintained. TOTAL UNIT SOUND POWER LEVELS Motor Tapping Sound Power Level (db re 0 - Watts) at Centre Band Frequency (Hz) 0 00 K K K 8K.. 8.. 0.. 0.. 7 8 9. 9. 9. 9... 7 9.. 7 0 9. 0. 9..... 8 9 9. 9.. 7. 0. 8.. 0 7... 8. 8. 9. 7. 7. 0. 8... 0 9 0 8 0.. 8. 7.. 0. 0...7 0. 7. 8.7 9. 0. 8.7.. 9. 0.7. 0... 7. 9.. 9. 9.. 9 7. 8 7 8. 0 8.. 9... 8 9 9. 9. 9. 8 9 9. 0.. 9. 9. 9.. 9 0. 9... 9.... 9. 0 7. 9. 0. 9. 8. 8 0 9 9 9 0 0 7 9 7 7