BIM-MEPAUS SPECIFICATION Fan Coil Units
Issued By: BIM-MEPAUS 30 Cromwell Street, Burwood 3205 VIC Australia
Revision: REV A
Date December 2016 AUS BIM-MEP Specification Fan Coil Units
Acknowledgements
BIM-MEPAUS greatly acknowledges the contributions of the following organisations to this specification.
D&E Air Conditioning A.G. Coombs BSA A2K Technologies Colair O’Connors Services
Formatting conventions
The following table provides the text formats used in BIM-MEPAUS documentation and their application.
Text Type Example Indicates
Italicised text BIM Execution Plan The generic title for a type of document
Bold italicized text BIM-MEPAUS specification The name of a referenced document
Red bold text LOD First reference to a term or abbreviation that is defined in the website glossary under Practices
Blue text www.bimmepaus.com.au Hyperlink / web link
Blue italicised text Explanatory notes Explanatory notes or reference information
Green bold text Future development Sections or documents that are still under development by BIM-MEPAUS.
Keeping BIM-MEPAUS up-to-date
BIM-MEPAUS specifications, templates and content are updated to reflect changes in legislation, technology and industry practice. Feedback and suggestions are welcome and can be made via the BIM-MEPAUS website. Updates are managed and delivered through the BIM-MEPAUS website.
Liability Disclaimer
BIM-MEPAUS makes no warranty, expressed or implied, including but not limited to any implied warranties of merchantability and fitness for a particular purpose, nor assumes any legal liability or responsibility for the accuracy, completeness, or usefulness of the information in this document.
In no event shall BIM-MEPAUS or its agents be liable for damages or losses resulting from your use of, or reliance on the information provided in this document.
COPYRIGHT © BIM-MEPAUS All rights reserved.
BIM-MEPAUS December 2016
AUS BIM-MEP Specification Fan Coil Units
Table of Contents
1 INTRODUCTION ...... 1 1.1 Scope ...... 1 1.2 BIM-MEPAUS reference documents ...... 1 1.3 Objectives ...... 1 1.4 BIM-MEPAUS Schema ...... 1 2 APPLICABLE STANDARDS ...... 2
3 MODELS ...... 3 3.1 Model workflow ...... 3 3.2 Generic design content ...... 3 3.3 Manufacturer certified content ...... 3 3.4 Commissioned As-Built Model ...... 4 4 SHARED PARAMETER SCHEDULING ...... 5
5 FAN COIL UNIT SPECIFICATION ...... 7 5.1 Fan Coil Unit duty selection ...... 7 5.2 Fan Coil Unit installation arrangements ...... 7 5.3 Smoke spill applications ...... 7 5.4 Fan Coil Unit motor selection ...... 8 5.5 Fan Coil Unit coil selection ...... 8 6 REVIT FUNCTIONALITY ...... 9 6.1 Category classification ...... 9 6.2 Functional type and sub-type ...... 9 6.3 Family naming syntax ...... 9 6.4 Family/type version control ...... 9 6.5 Omniclass ...... 10 6.6 Connector settings ...... 10 6.7 Family geometry ...... 11 6.8 Clearance and access zones ...... 11 7 PARAMETER SCHEDULES ...... 12 7.1 Identity schedule...... 12 7.2 BIM classification schedule ...... 13 7.3 System analysis schedule ...... 13 7.4 Green building properties schedule ...... 13 7.5 Performance/Quality schedule ...... 14 7.6 Manufacturer schedule ...... 17 7.7 Commissioning schedule ...... 18 7.8 Completion schedule ...... 19 7.9 Generic design model schedule ...... 20 7.10 MCM schedule...... 24
BIM-MEPAUS December 2016
AUS BIM-MEP Specification Fan Coil Units
1 INTRODUCTION 1.1 Scope
This document sets out the BIM-MEPAUS specification for the following families:
Fan Coil Units (off the shelf and custom built units);
Fan Coil Unit scheduling options allow inclusion of:
Chilled Water Heating Water Coils;
Fan Coil Unit options not included are:
Air filters Return/Outside Air Volume Control Dampers
Fan Coil Units typically serve single zones and are generally suspended from above.
1.2 BIM-MEPAUS reference documents
This specification should be read in conjunction with the following specifications and documents:
BIM-MEPAUS Ducting systems, plant and equipment schedule – this Excel based schedule provides the complete listing of ductwork systems, plant and equipment names as well as the system colour schema.
BIM-MEPAUS Fan Coil Unit product data template – this Excel based schedule details the BIM-MEPAUS Industry Foundation Model and generic design families provided by BIM-MEPAUS including the catalogue of size types provided for design purposes. The workbook also provides the complete schedule of shared parameters and the product data templates for designers and product manufacturers.
BIM-MEPAUS Master shared parameter schedule – this document provides the reference source for all shared parameter names used within BIM-MEPAUS Generic Design and Manufacturer Certified Model (MCM) content models together with the Revit MEP classification of each parameter and its associated BIM-MEPAUS GUID.
BIM-MEPAUS Plant, equipment and fitting scheduling specification – this document details the technical and workflow requirements in relation to shared parameter scheduling.
These documents can be accessed through the BIM-MEPAUS website.
1.3 Objectives
Benefits sought through the development and implementation of this BIM-MEPAUS specification include:
A structured approach to the specification and modelling of Fan Coil Units;
Reliable and accurate Design to Commissioned As-built workflows; and
Industry standardization delivering improved supply chain efficiency and reduced project costs and risks to the client and project team.
1.4 BIM-MEPAUS Schema
Within BIM-MEPAUS the plant, equipment and fitting schema is used to determine the component life cycle modelling requirements, Fan Coil Units are classified as mechanical equipment, sub-category FCU (user definable).
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2 APPLICABLE STANDARDS
There are a number of requirements in the National Construction Code as well as relevant Australian and international standards that relate to Fan Coil Units design and selection.
Codes and standards referenced in this specification include:
General Requirements
NCC/ BCA : National Construction Code / Building Code of Australia
Air handling systems
AS 1668.1 -2015 : The use of ventilation and air conditioning in buildings – Part 1: Fire and Smoke Control in multi-compartment buildings
AS 1668.2 -2015 : The use of ventilation and air conditioning in buildings – Part 2: Mechanical Ventilation in buildings
AS/NZS 3666.1 : Air Handling and water systems of buildings – Microbial control – Design, installation and commissioning
Fan Coil Units
ISO 5801: 2007 : Industrial Fans - Performance testing using standardized airways
AS/NZS ISO 12759 : Fans - Efficiency classification for Fans
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3 MODELS 3.1 Model workflow
One of the principle aims of BIM-MEPAUS is to enable efficient BIM workflows that see the design model progressively refined through the design, virtual build and construction process to ultimately deliver a completed Commissioned As-Built Model.
A key step in this process is the virtual build during which the change-out of the generic design components with Manufacturer’s Certified Models (MCMs) occurs. These MCMs are able to support a range of construction and commissioning workflows as well as the asset’s life cycle management post-handover.
The completed construction model generated through the virtual build is then used to drive a range of activities including site layout, procurement and installation scheduling and tracking.
Once the installation is completed and the systems commissioned, as-built data and project completion information are used to finalise the Commissioned-As Built Model for handover to the client.
3.2 Generic design content
BIM-MEPAUS generic design families provide a catalogue of sizes (types) or one adjustable parametric object, that allow designers to spatially model to LOD 300 as well as specify the Fan Coil Unit performance and quality requirements.
The generic design model shared parameters have been developed through industry consultation and are considered those necessary to schedule the quality and performance requirements for tendering and procurement purposes.
Design firms with content libraries can pre-populate these Fan Coil Unit design families with their specific quality specifications in order to minimise repetitive data entry on each use in a project. This approach limits subsequent scheduling to only those instance based performance parameters that are typically scheduled in specification equipment schedules.
The generic design Fan Coil Unit is setup to be fully adjustable, no specific catalogue of sizes is provided due to the extensive variability of selections available.
3.3 Manufacturer certified content
The virtual build develops the design model into the LOD 400 construction model and typically involves changing out the design content with manufacturer certified content. Where the manufacturer’s model is BIM-MEPAUS compliant this should be readily achieved.
Manufacturer’s models are preferably generated from the BIM-MEPAUS Industry Foundation Models (IFM) and are a single type family that has the Fan Coil Unit geometry needed for the virtual build plus the manufacturer data for the specific Fan Coil Unit to be supplied to the project.
BIM-MEPAUS certified manufacturer models are fully interchangeable with the generic design models and provide:
Accurate geometry Performance data Full BIM-MEPAUS Revit operability.
Where the data is not able to be provided by the manufacturer in Revit shared parameter format, manufacturer data should be delivered in Excel format using the BIM-MEPAUS Product Data Templates to allow the data to be efficiently imported by the specialist trade contractor into their scheduling database or Revit virtual build model.
Microsoft Excel based product data templates are provided for this purpose on the BIM-MEPAUS website under the specification product templates section. Where required additional fields can be drawn from the shared parameter schedules in this specification to provide additional product data as required.
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As the MCM and supporting shared parameter schedule replaces the certified drawings and technical schedules that have traditionally been provided by manufacturers, the model accuracy should be no less than that provided by a manufacturer’s certified drawing.
Manufacturer’s certified models should preferably include a link to a pdf or web page providing pre-commissioning checklists for modellers and shop drawers to facilitate the proper incorporation of the component into the model as well as providing the pre-commissioning check sheet for the project site team.
3.4 Commissioned As-Built Model
The commissioned as-built model comprises the construction model updated to reflect any changes made during the field installation.
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4 SHARED PARAMETER SCHEDULING
The shared parameter schema has been developed to effectively support data requirements for design, procurement and commissioning as well as life cycle asset management.
All BIM-MEPAUS plant and equipment models have the same schedule structure shown below.
Identity BIM Classification System Analysis Green Building Properties Performance / Quality Manufacturer Commissioning Completion
System Analysis, Green Building Properties and Commissioning schedules are only included where applicable or where they have been defined by a relevant standard.
The schedules are progressively completed as the MEP services model progresses through design and virtual construction to a fully completed Commissioned As-built component within the final model.
Schedule Section Generic Design / MCM Schedule completion by Model schedule
Identity Generic design model Designer / Manufacturer / Installer
BIM Classification Generic design model Designer
System Analysis Generic design model Designer
Green Building Properties Generic design model / MCM model Designer / Installer / Manufacturer
Performance /Quality Generic design model / MCM model Designer / Installer
Manufacturer MCM model Manufacturer
Commissioning MCM model Installer
Completion Schedule MCM model Installer
The identity and completion schedules must be completed for all components and once the values are defined are fixed for the life of the component.
It is expected that not all data will be carried in the Revit design or virtual construction model with non-core data likely to be managed off model using scheduling databases and/or spreadsheets. This non-core data is commonly required for the finalization of procurement, commissioning and facility management purposes.
Manufacturer BIM data must be supplied in a format that can be imported into a data management system and/or Revit based Virtual Construction model with suitable formats including:
MCM model incorporating BIM-MEPAUS Product Data Template shared parameters MCM geometry model with supporting BIM-MEPAUS Product Data Template Excel file.
To allow efficient and reliable data exchanges, it is critical that the BIM-MEPAUS shared parameter names and respective GUIDs be used.
Parameters indicated in bold font are core Revit model data expected to reside in the model whilst those in italics are non-core data that can be managed either in the Revit MEP model or off model in a scheduling database. BIM-MEPAUS Page 5 December 2016 AUS BIM-MEP Specification Fan Coil Units
Parameters notated with the symbol have an industry defined set of allowable values or descriptions that are listed in the master BIM-MEPAUS shared parameter schedule.
It is noted that BIM-MEPAUS compliant manufacturer’s certified models can be used for the basis of design where deemed appropriate by the designer and/or where specific manufacturer plant and equipment is to be nominated.
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5 FAN COIL UNIT SPECIFICATION
The following guidance has been developed through the industry consultation process as particular areas requiring focus during the completion of the Fan Coil Unit quality/performance schedules. 5.1 Fan Coil Unit duty selection
Fan Coil Unit duty should make appropriate allowances for system leakage and/or system diversity to avoid issues with motor sizing, Fan Coil Unit fan efficiency and system commissioning. The duct leakage calculations should be based on ASHRAE or SMACNA ductwork surface area based methods. 5.2 Fan Coil Unit installation arrangements
Fan Coil Unit Installation arrangements are important in the Fan Coil Unit selection process, the schedule should nominate the required coil handing. Although Fan Coil Units are highly configurable, the casing arrangement typically has a return air connection at the rear and supply discharge at the front. Alternate fan arrangements are not available on an Fan Coil Unit .
Fan Coil Unit fan arrangements are coded as below, with this parameter selectable in the shared parameters list of the generic design family.
Handings are always nominated left or right looking in the direction of the airflow.
Coil connections are nominated in the shared parameters of the generic design family in accordance with the surface nomination diagram and Fan Coil Unit diagram below.
5.3 Smoke spill applications
Although not typically used for smoke spill applications, it is possible for Fan Coil Units to be incorporated into smoke management systems. If Fan Coil Units are included in the smoke spill arrangements they may contain several components that are covered under AS 1688.1, designers should familiarize themselves with these requirements and ensure their design complies with the requirements. Plenums and casings particularly relating to the construction of Fan Coil Units, shall be constructed to comply with the requirements of AS 1668.1. AS 1668 1998 Part 1 requires
The exposed face of any insulation in equipment plenums, built-up air-handling and proprietary air-handling plant casings shall have indices not greater than the following as determined in accordance with AS/NZS 1530.3:
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a. A spread of flame index 0. b. A smoke-developed index 3.
Masonry, concrete, metal or metal-faced sandwich construction shall be deemed-to-comply materials for the purpose of this requirement. Where casings are of metal-faced sandwich construction, all raw edges shall be covered effectively to ensure that the insulation core is not exposed, inside or outside the casing. Where necessary, raw edges shall be fitted with edge strips. When located on the airstream side of the casing, edge strips or gaskets between panels shall comply with the early fire hazard indices nominated above for exposed insulation.
Where not exposed to the airstream, but otherwise exposed within the building, materials used for edge strips or gaskets between panels shall have fire hazard properties in accordance with the requirements of the relevant building regulations.
All gaskets thicker than 3mm between metal faces and all non-metallic edge strips that project over the metal face of the sandwich panel on the airstream side of the casing shall be completely covered with metal strips.
Note: Metal-faced sandwich constructions is not intended to include foil-faced insulation. 5.4 Fan Coil Unit motor selection
Motor IP ratings: Typically IP54 is considered adequate for most applications – higher IP ratings may be warranted for specialized applications.
Thermistor protection is normally provided for all motors 75kW and over as standard, however for motors under this size thermistor protection must be specified if required to be fitted.
Motors are generally based on 400V 3 Phase 50Hz 4 pole motor selections due to their lower noise and vibration levels with the following standard range of motors sizes available:
0.37 2.2 11 37 0.55 4.0 15 45 0.75 5.5 18.5 55 1.1 7.5 22 75 1.5 9.5 30 90 Motor speeds are determined by the number of poles as follows:
2 Pole = 48 rev/s 6 Pole = 16 rev/s 4 Pole = 24 rev/s 8 Pole = 12 rev/s
Alternative single phase motors are also typically available up to 1.5kW. Electronically controlled (EC) motors are also a common option in Fan Coil Units and should be specified if required. 5.5 Fan Coil Unit coil selection
Coils are a highly configurable component of Fan Coil Units and will be selected by the manufacturer to suit the design duty. There are several important parameters to note for coil selection that influence the geometry of the Fan Coil Unit, connections required and manufacturers selection inputs.
Parameter name Range of Values
Number of rows 2, 4, 6, 8, 10, 12
Fin spacing 236, 316, 394, 472
Tube material Copper
Fin material Aluminum or stainless steel
Maximum single coil height 1270 mm (40 tubes)
Maximum single coil width 3150 mm
Tube diameter 9.5 / 12.7 / 15.8
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6 REVIT FUNCTIONALITY 6.1 Category classification
All Fan Coil Unit families are designated in Revit MEP as mechanical equipment.
6.2 Functional type and sub-type
The design and manufacture models functional type and sub-type are:
Functional Type : Mechanical Equipment Sub Type : FCU
6.3 Family naming syntax
The Fan Coil Unit family naming convention is as follows
Format:
Generic Design :
MCM :
Example family names:
Generic Design Model
MechanicalEquipment_FCU_Generic_BMA
Manufacturer Certified Model
MechanicalEquipment_FCU_ManufacturerName_FCU10
The manufacturers certified model would include specific manufactured configuration and dimensions.
6.4 Family/type version control
Family Identification parameters are used for source and version control and are embedded in the Family Parameters. They do not appear in the BIM-MEPAUS shared parameter schedules for the family as they are not intended to be modified by designers or constructors.
Design Family – Multiple Type
Family Identification Unit /Type Sample Value MechanicalEquipment_FCU_ FamilyName Text Generic_BMA
Version Text 2016
CreatedOn Text 201607
CreatedBy Text BMA
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Manufacturer’s Certified Model – single type
Family Identification Unit /Type Sample Value MechanicalEquipment_FCU_ FamilyName Text ManufacturerName_FCU10 TypeName Text AH 100
Version Text 2016-01
CreatedOn Text 20160831
CreatedBy Text Modelling Company Name
6.5 Omniclass
The BIM Classification Code is a Revit System Parameter with the Fan Coil Unit Classification.
System Parameter Unit /Type Value
OmniClassNumber Text 21-04 30 60 10
6.6 Connector settings
The following Revit connectors are applied to the Fan Coil Unit model:
ID Connector System Placement Direction Calculation System Type Load Classification Method Classification
1 CHW In Hydronic Face In Pre-set N/a N/a supply
2 CHW Out Hydronic Face Out Pre-set N/a N/a return
3 Drain Out Other Face Out Pre-set N/a N/a
4 HHW In Hydronic Face In Pre-set N/a N/a supply
5 HHW Out Hydronic Face Out Pre-set N/a N/a return
6 Supply air Supply air Face Out Calculated N/a N/a
7 Return air Return air Face In Calculated N/a N/a
8 Power-Balanced N/a Face N/a N/a Power balanced Power
9 Communications N/a Face N/a N/a Communications N/a
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6.7 Family geometry
Family geometry is controlled by type based parameters with the intention that the modeller should not need to modify the geometry of generic design models or Manufacturer’s Certified Models.
It is noted that the Family Dimension Parameters are used to schedule those parameters that define the type (size or capacity), with all detailed geometry dimensions listed separately under the Geometry Grouping.
Critical dimensions in relation to the model geometry are:
Ductwork Connections; Piping Connections Cabinet Dimensions Access Doors Panels
6.8 Clearance and access zones
Clearance zones for maintenance and access are provided for plant and equipment.
These requirements can be turned on or off for the purpose of clash coordination exercises.
Fine Level of Detail Plan with clearance and access Fine Level Detail / Shaded 3D with clearance and access zones zones
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7 PARAMETER SCHEDULES
The schedule structure and parameters have been developed to meet the needs of the BIM-MEPAUS integrated project delivery workflows as well as support future asset life cycle management requirements. The Product Data Templates form a subset of the overall shared parameter scheme.
Refer to Section 4 - Shared Parameter Scheduling for a detailed overview of the intended use and application of the schedules.
Parameter fields indicated in black bold text are included in the Product Data Template with the Design Model Schedule being provided with a sub-set of these parameters detailed in Section 7.9 Generic Design Model Schedule.
7.1 Identity schedule
Figure 7.1 Identity schedule Design parameters Unit / Type Sample Value
ComponentName Text M-FCU-32-2
SystemServed Text SA
ZoneServed Text West FCUs
Location Text Level 32 FCU Plant room
PowerSource Text M-MSSB-32-1
EnergyMeterGrouping Text Air Conditioning FCU Energy
ComponentStatus Text CAB
MCM parameters Unit /Type Sample Value
Manufacturer Text Manufacturer Name
Model Text Model Name
ProductCode Text Product Code
SerialNumber Text Serial Number
ManufacturerURL Text Link to product page
AM/FM parameters Unit /Type Sample Value
AssetIdentifier Text M-FCU-32-2
Barcode Text Barcode Number
RFID Text RFID Tag Number
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7.2 BIM classification schedule
The BIM classification codes are based on the OmniClass Construction Classification System (known as OmniClass™ or OCCS) for the construction industry and Natspec.
Fig 7.2.1 BIM classification schedule
Parameters Unit /Type Value Text OmniClassNumber 23-75.35.14.17
OmniClass_ElementNumber Text 21-51.51.18.11
OmniClass_ElementName Text HVAC Air Distribution
NATspecWorkSection Text 0721 - 0727
Detailed definition of Elements can be found at http://www.omniclass.org/tables.asp with the following relevant codes noted:
Element Numbers
Supply Air: 21-04 30 60 10 Return Air: 21-04 30 60 20 Exhaust Air: 21-04 30 60 30 Outside Air: 21-04 30 60 40 Air-to-Air Heat Recovery: 21-04 30 60 60
NATspec’s Work Section classification system can be found at www.natspec.com.au/Products_Services/listallworksection.asp .
7.3 System analysis schedule
Figure 7.3.1 System analysis Schedule
Parameter Unit/Type Value
FCU_AirFlowCalc L/s 2500
SA_StaticPressCalc Pa 310
RA_StaticPressCalc Pa 250
The two calculated figures in the family are returned by the Fan Coil Unit family when placed into the system – refer to Autodesk documentation for details of the calculation algorithm.
7.4 Green building properties schedule
No green building property parameters are currently defined for Fan Coil Units.
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7.5 Performance/Quality schedule
The performance and quality schedule details the performance and quality requirements for the Fan Coil Unit.
The schedule brings together a number of typical specification requirements including those related to Fan Coil Unit design and performance, mechanical-electrical system integration and vibration and noise isolation.
The Manufacturer’s certified model may overwrite some sections of this schedule replacing the design performance requirements with submitted performance data.
Design Note : The Fan Pressure Difference displayed in the tables in intended to be the resistance external to the Fan Coil Unit casing, including filters. For clarity, coils and internal Fan Coil Unit losses are not included in this figure.
Figure 7.5.1 Performance / Quality Schedule
FCU Details Parameter Unit/Type Sample Value
FCU_Type Text 2 pipe
FCU_Width mm 1200
FCU_Depth mm 600
FCU_Length mm 600
FCU_AirFlow L/s 1200
FCU_PressureDifference Pa 500
FCU_Arrangement Text Draw through
FCU_Model Text DCS-0105
ConnectorC1 Text TDF-35
ConnectorC2 Text TDF-35
CasingMaterial Text 1.2mm Sheetmetal
CasingR_Value Text 1.2
TestStandard Text ISO7235 : 2003
Coil Details Parameter Unit/Type Sample Value
CoolingCapacityTotal kW 95
CoolingCapacitySensible kW 78
HeatingCapacity kW 65
CHW_TemperatureIn °C 6
CHW_TemperatureOut °C 13
CHW_Flow l/s 3.23
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CoolingCoilAirPD Pa 50
CoolingCoilAirON_DB °C 26
CoolingCoilAirON_WB °C 22
CoolingCoilAirOFF_DB °C 10
CoolingCoilAirOFF_WB °C 10
CoolingCoilAirON_Specificmoisture g/Kg 14
CoolingCoilAirOFF_Specificmoisture g/Kg 8
CoolingCoilTubeMaterial Text Copper
CoolingCoilFinMaterial Text Aluminium
HHW_TemperatureIn °C 80
HHW_TemperatureOut °C 60
HHW_Flow l/s 0.77
HeatingCoilAirPD Pa 25
HeatingCoilAirON_DB °C 18
HeatingCoilAirOFF_DB °C 32
HeatingCoilTubeMaterial Text Copper
HeatingCoilFinMaterial Text Aluminium
ConnectorC4 Text Pipe – Screw
ConnectorC5 Text Pipe – Screw
ConnectorC6 Text Pipe – Screw
ConnectorC7 Text Pipe – Screw
Fan Details Parameter Unit/Type Sample Value
FanType Text Centrifugal
NumberOfFans Number 1
FanSpeed RPM 510
FanMounting Text Seismic
FanMountDeflection mm 50
Motor Details Parameter Unit/Type Sample Value
MotorSize kW 0.75
MotorType Text EC
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MotorPoles Integer 0
MotorSynchronousSpeed RPM N/a
RLA Amps 10
FLA Amps 14
PowerFactorState Text Lagging
PowerFactor Number 0.8
MotorEfficiencyClass Text AS/NZS 1359.5 -2004 B1 HE
MotorIP_Rating Number 55
MotorTropicProofing Yes/No Yes
MotorThermistorFitted Yes/No Yes
Power Supply Details Parameter Unit/Type Sample Value
SupplyVoltage V 240
SupplyPhase Ph 1
SupplyFrequency Hz 50
StarterSpeedControl Text VSD
Noise Details Parameter Unit/Type Sample Value
InDuctSWL63Hz dB 3
InDuctSWL125Hz dB 5
InDuctSWL250Hz dB 8
InDuctSWL500Hz dB 15
InDuctSWL1000Hz dB 18
InDuctSWL2000Hz dB 15
InDuctSWL4000Hz dB 11
InDuctSWL8000Hz dB 8
CaseRadiatedSWL63Hz dB 3
CaseRadiatedSWL125Hz dB 5
CaseRadiatedSWL250Hz dB 8
CaseRadiatedSWL500Hz dB 15
CaseRadiatedSWL1000Hz dB 18
CaseRadiatedWL2000Hz dB 15
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CaseRadiatedSWL4000Hz dB 11
CaseRadiatedWL8000Hz dB 8
Basis of Design Parameter Unit/Type Sample Value
BasisOfDesign Text Manufacturer Name / Model
7.6 Manufacturer schedule
Manufacturer schedules are completed by suppliers to confirm the detailed performance, quality and configuration selections.
Figure 7.6.1 Manufacturer’s Schedule
FCU Details Parameter Unit/Type Sample Value
FCU_ShippingWeight Kg 2500
FCU_OperatingWeight Kg 2600
Coil Details Parameter Unit/Type Sample Value
CondensateDrainConnectionDN mm 32
Power Supply Details Parameter Unit/Type Sample Value
AbsorbedPower kW 6.25
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7.7 Commissioning schedule
Commissioning schedules are based on NEBB and relevant Australian Standards and are to be completed by the installers commissioning team and/or manufacturer’s representative.
Figure 7.7.1 Commissioning Schedule
Parameter Unit/Type Value
SerialNumber Text 326-452-987 SupplyAirFlowActual L/s 2500 ReturnAirFlowActual L/s 1500 InletStaticPressure Pa -100 DischargeStaticPressure Pa 200 ExternalPressureDifferentialActual Pa 300 MixingPlenumStaticPressure Pa -15 MotorVoltageActual V 230 MotorAmpsActual Amps 4.1 SpeedControllerSettingActual Hz High CommissioningDate Text 2015-09-15 CommissioningTechName Text Commissioning Tech Name
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7.8 Completion schedule
The completion schedule provides key information needed for asset and facility maintenance and is consistent across all the BIM-MEPAUS plant and equipment families.
Figure 7.8.1 – Completion Schedule
Parameter Unit/Type Sample Value
Designer Text Designer Name
Installer Text Installer Member
Client Text Client Name
InstallationDate Text Date (YY-MM-DD)
MaintenanceType Text Statutory - Safety Measure
OperatingMaintenanceManual URL URL to O&M
WarrantyDurationMonths Integer 12
ExpectedServiceLifeYears Integer 20
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7.9 Generic design model schedule The following schedule defines the shared parameters provided within the BIM-MEPAUS generic design model. It is a subset of the Product Data Template and is generally considered to form the minimum requirements for an LOD 300 deliverable.
Parameter Unit / Type Value
ComponentName Text M _FCU _32-2
SystemServed Text SA
AreaServed Text Mid-Rise Perim
Location Text Level 32 Main Plant room
PowerSource Text M_MSSB_32-1
EnergyMeterGrouping Text Air Conditioning FCU Energy
ComponentStatus Text CAB
Manufacturer Text Carrier
Model Text Galaxy
ProductCode Text 39G PD 1015
SerialNumber Text 25328600145
URL Text http://www.carrier.com.au/ Catalogue.pdf
OmniClassNumber Text 23-75.35.14.17
NCC_Classification Text Essential Safety Measure
HazardClassification Text NA
FCU_Application Text Supply Air
FCU_Type Text 2 pipe
FCU_Width mm 1200
FCU_Depth mm 600
FCU_Length mm 600
FCU_AirFlow L/s 1200
FCU_PressureDifference Pa 500
FCU_Arrangement Text Draw through
FCU_Model Text DCS-0105
ConnectorC1 Text TDF-35
ConnectorC2 Text TDF-35
CasingMaterial Text 1.2mm Sheetmetal
CasingR_Value Text 1.2
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TestStandard Text ISO7235 : 2003
WireGuardsFitted Yes/No No
CoolingCapacityTotal kW 95
CoolingCapacitySensible kW 78
HeatingCapacity kW 65
CHW_TemperatureIn °C 6
CHW_TemperatureOut °C 13
CHW_Flow l/s 3.23
CoolingCoilAirPD Pa 50
CoolingCoilAirON_DB °C 26
CoolingCoilAirON_WB °C 22
CoolingCoilAirOFF_DB °C 10
CoolingCoilAirOFF_WB °C 10
CoolingCoilAirON_Specificmoisture g/Kg 14
CoolingCoilAirOFF_Specificmoisture g/Kg 8
CoolingCoilTubeMaterial Text Copper
CoolingCoilFinMaterial Text Aluminium
HHW_TemperatureIn °C 80
HHW_TemperatureOut °C 60
HHW_Flow l/s 0.77
HeatingCoilAirPD Pa 25
HeatingCoilAirON_DB °C 18
HeatingCoilAirOFF_DB °C 32
HeatingCoilTubeMaterial Text Copper
HeatingCoilFinMaterial Text Aluminium
ConnectorC4 Text Pipe – Screw
ConnectorC5 Text Pipe – Screw
ConnectorC6 Text Pipe – Screw
ConnectorC7 Text Pipe – Screw
FanType Text Centrifugal
NumberOfFans Number 1
FanSpeed RPM 510
BIM-MEPAUS Page 21 December 2016 AUS BIM-MEP Specification Fan Coil Units
FanMounting Text Seismic
FanMountDeflection mm 50
MotorSize kW 7.5
MotorType Text EC
MotorPoles Integer 4
MotorSynchronousSpeed RPM 1440
RLA Amps 10
FLA Amps 14
PowerFactorState Text Lagging
PowerFactor Number 0.8
MotorEfficiencyClass Text AS/NZS 1359.5 -2004 B1 HE
MotorIP_Rating Number 55
MotorTropicProofing Yes/No Yes
MotorThermistorFitted Yes/No Yes
SupplyVoltage V 400
SupplyPhase Ph 3
SupplyFrequency Hz 50
StarterSpeedControl Text VSD
InDuctSWL63Hz dB 3
InDuctSWL125Hz dB 5
InDuctSWL250Hz dB 8
InDuctSWL500Hz dB 15
InDuctSWL1000Hz dB 18
InDuctSWL2000Hz dB 15
InDuctSWL4000Hz dB 11
InDuctSWL8000Hz dB 8
CaseRadiatedSWL63Hz dB 3
CaseRadiatedSWL125Hz dB 5
CaseRadiatedSWL250Hz dB 8
CaseRadiatedSWL500Hz dB 15
CaseRadiatedSWL1000Hz dB 18
CaseRadiatedWL2000Hz dB 15
BIM-MEPAUS Page 22 December 2016 AUS BIM-MEP Specification Fan Coil Units
CaseRadiatedSWL4000Hz dB 11
CaseRadiatedWL8000Hz dB 8
BasisOfDesign Text Manufacturer Name / Model
BIM-MEPAUS Page 23 December 2016 AUS BIM-MEP Specification Fan Coil Units
7.10 MCM schedule
The following schedule is based on the Product Data Template. This also forms the basis of the manufacturer’s certified model shared parameter schedule and/or Excel based product data file to be provided by the manufacturer. Additional parameters from the preceding shared parameter schedules may be included as required.
Parameter Unit / Type Value
ComponentName Text M _FCU _32-2
SystemServed Text SA
AreaServed Text Mid-Rise Perim
Location Text Level 32 Main Plant room
PowerSource Text M_MSSB_32-1
EnergyMeterGrouping Text Air Conditioning FCU Energy
ComponentStatus Text CAB
Manufacturer Text Carrier
Model Text Galaxy
ProductCode Text 39G PD 1015
SerialNumber Text 25328600145
URL Text http://www.carrier.com.au/ Catalogue.pdf
OmniClassNumber Text 23-75.35.14.17
NCC_Classification Text Essential Safety Measure
HazardClassification Text NA
FCU_Application Text Supply Air
FCU_Type Text 2 pipe
FCU_Width mm 1200
FCU_Depth mm 600
FCU_Length mm 600
FCU_AirFlow L/s 1200
FCU_PressureDifference Pa 500
FCU_Arrangement Text Draw through
FCU_Model Text DCS-0105
ConnectorC1 Text TDF-35
ConnectorC2 Text TDF-35
CasingMaterial Text 1.2mm Sheetmetal
BIM-MEPAUS Page 24 December 2016 AUS BIM-MEP Specification Fan Coil Units
CasingR_Value Text 1.2
TestStandard Text ISO7235 : 2003
WireGuardsFitted Yes/No No
FCU_ShippingWeight Kg 2500
FCU_OperatingWeight Kg 2600
CoolingCapacityTotal kW 95
CoolingCapacitySensible kW 78
HeatingCapacity kW 65
CHW_TemperatureIn °C 6
CHW_TemperatureOut °C 13
CHW_Flow l/s 3.23
CoolingCoilAirPD Pa 50
CoolingCoilAirON_DB °C 26
CoolingCoilAirON_WB °C 22
CoolingCoilAirOFF_DB °C 10
CoolingCoilAirOFF_WB °C 10
CoolingCoilAirON_Specificmoisture g/Kg 14
CoolingCoilAirOFF_Specificmoisture g/Kg 8
CoolingCoilTubeMaterial Text Copper
CoolingCoilFinMaterial Text Aluminium
HHW_TemperatureIn °C 80
HHW_TemperatureOut °C 60
HHW_Flow l/s 0.77
HeatingCoilAirPD Pa 25
HeatingCoilAirON_DB °C 18
HeatingCoilAirOFF_DB °C 32
HeatingCoilTubeMaterial Text Copper
HeatingCoilFinMaterial Text Aluminium
ConnectorC4 Text Pipe – Screw
ConnectorC5 Text Pipe – Screw
ConnectorC6 Text Pipe – Screw
ConnectorC7 Text Pipe – Screw
BIM-MEPAUS Page 25 December 2016 AUS BIM-MEP Specification Fan Coil Units
CondensateDrainConnectionDN mm 32
FanType Text Centrifugal
NumberOfFans Number 1
FanSpeed RPM 510
FanMounting Text Seismic
FanMountDeflection mm 50
MotorSize kW 7.5
MotorType Text EC
MotorPoles Integer 4
MotorSynchronousSpeed RPM 1440
RLA Amps 10
FLA Amps 14
PowerFactorState Text Lagging
PowerFactor Number 0.8
MotorEfficiencyClass Text AS/NZS 1359.5 -2004 B1 HE
MotorIP_Rating Number 55
MotorTropicProofing Yes/No Yes
MotorThermistorFitted Yes/No Yes
MotorManufacturer Text CMG
SupplyVoltage V 400
SupplyPhase Ph 3
SupplyFrequency Hz 50
StarterSpeedControl Text VSD
AbsorbedPower kW 6.25
InDuctSWL63Hz dB 3
InDuctSWL125Hz dB 5
InDuctSWL250Hz dB 8
InDuctSWL500Hz dB 15
InDuctSWL1000Hz dB 18
InDuctSWL2000Hz dB 15
InDuctSWL4000Hz dB 11
InDuctSWL8000Hz dB 8
BIM-MEPAUS Page 26 December 2016 AUS BIM-MEP Specification Fan Coil Units
CaseRadiatedSWL63Hz dB 3
CaseRadiatedSWL125Hz dB 5
CaseRadiatedSWL250Hz dB 8
CaseRadiatedSWL500Hz dB 15
CaseRadiatedSWL1000Hz dB 18
CaseRadiatedWL2000Hz dB 15
CaseRadiatedSWL4000Hz dB 11
CaseRadiatedWL8000Hz dB 8
BasisOfDesign Text Manufacturer Name / Model
END
BIM-MEPAUS Page 27 December 2016