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Utilizing BIM for Successful Cleanroom Design
Presented by: Vince MillerVince MillerBIM CoordinatorAbbie Gregg, Inc. +1 [email protected]
www.abbiegregg.com
AGI Abbie Gregg, Inc.1130 East University Drive Ste 105, Tempe, Arizona 85281 USA
Overview and Learning Objectives
Space Management: Using examples of recent projects that incorporated BIM into the design of advanced research environmentsdesign of advanced research environments, AGI will examine three ways to avoid wasted or unusable lab space.
Discipline Coordination: AGI will pdemonstrate the need for accurate coordination of multiple disciplines for the successful design of clean spaces. We will give multiple examples of ways this isgive multiple examples of ways this is accomplished in an efficient cost effective manner.
Building Integration Constraints: Provide g gan understanding how building and fire codes, constructability, and vendor requirements can impact not only the clean space but also the entire building and share methods used to
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entire building and share methods used to avoid costly mistakes and RFIs.
Copyright Abbie Gregg, Inc. 2012 | Q:\Marketing\Presentations\Tradeshow & Conf\Labs 21 2012\ Slide 2 of 18
AGI’s Nanotechnology Cleanroom Projects
All of these cleanrooms fit into larger overall buildings with multiple purposes to facilitate interdisciplinary worky UMass Lowell ETIC
(Currently under Construction) University of Chicago
Harvard University LISE Duke University CIEMAS University of Louisville Micro/Nano
(Currently in Design) King Abdullah University of Science
and Technology
University of Louisville Micro/NanoTechnology Center
Lawrence Berkeley National Labs UC Berkeley CITRIS II, MNF
CIC nanoGUNEy
UC Riverside CNSE
www.abbiegregg.comCopyright Abbie Gregg, Inc. 2012 | Q:\Marketing\Presentations\Tradeshow & Conf\Labs 21 2012\ Slide 3 of 18
Space Management: 3 Key Uses of BIM in Cleanroom Environmentsy Cleanroom spaces, especially those for
nanofabrication, are a critical and expensive part of advanced research facilities that requireof advanced research facilities that require complex equipment to fit into very tight spaces.
Using BIM to create plans, sections, and 3D isometric views to ensure proper accommodation p pof equipment and user accessibility will avoid wasted or unusable space, saving time and money. H ?
AGI designed sub-grade cleanroom as part of larger LISE building schema at Harvard.
Image courtesy of Wilson Architects.
How?1. Identification of cleanroom space requirements
and constraints. 2 Optimization of space while designing accurate2. Optimization of space while designing accurate
MEP services to support the cleanroom.3. Visualization of key features such as viewing
aisles, structural columns, and interstitial
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aisles, structural columns, and interstitial access to understand how they will interface with the cleanroom environment.
Copyright Abbie Gregg, Inc. 2012 | Q:\Marketing\Presentations\Tradeshow & Conf\Labs 21 2012\ Slide 4 of 18
AGI Revit Rendering of UMass Lowell ETIC Cleanroom as seen from viewing aisle.
Space Management: 3 Key Uses of BIM in Cleanroom Environmentsy1. Identification Of Cleanroom Space
Requirements and Constraints Carefully consider space required for tools,
support equipment, and clearance for the users. Cleanroom space is expensive and every inch must be well utilized Process tools are largemust be well utilized. Process tools are large, and must be considered early to avoid catastrophic space constraints.
Designs often evolve as more information
UC Riverside CNSEVery limited space and tightly packed tools.
es g s o te e o e as o e o at obecomes available. The use of BIM for a real time analysis of “what if scenarios” allows for an accurate view of the impact on equipment size, MEP space requirements and workflow for theMEP space requirements, and workflow for the space. • Example: One AGI project required custom
pedestals for support under a very dense
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pedestals for support under a very dense raised floor. 3D visualization was critical.
Copyright Abbie Gregg, Inc. 2012 | Q:\Marketing\Presentations\Tradeshow & Conf\Labs 21 2012\ Slide 5 of 18
Complex OLED Cluster ToolIntensive MEP Coordination within limited space.
Space Management: 3 Key Uses of BIM in Cleanroom Environmentsy1. Identification Of Cleanroom Space Requirements and Constraints Cleanroom and imaging tools can be very sensitive to EMI, vibration and acoustics. Failing to
take these sensitivities into account can result in poor tool performancetake these sensitivities into account can result in poor tool performance.
BIM allows us to smartly design areas that can exchange tool data with rest of the model. This allows us to see interference sources and ensure sensitive equipment is located accordingly.
www.abbiegregg.comCopyright Abbie Gregg, Inc. 2012 | Q:\Marketing\Presentations\Tradeshow & Conf\Labs 21 2012\ Slide 6 of 18
Example of Correctly Placed Tools in Relation to EMI Zones
Space Management: 3 Key Uses of BIM in Cleanroom Environmentsy2. Accurate MEP Design Space management is critical due to the density of piping, HVAC, and electrical
services. BIM has made it much easier to design MEP systems with 3D models that
accurately represent the size and precise location of each pipe, duct, or fitting and ll i i f th t f lallow viewing of these systems from any angle.
Using clash detections to identify and resolve conflicts before installation will result in fewer RFIs, while saving time and materials.
www.abbiegregg.comCopyright Abbie Gregg, Inc. 2012 | Q:\Marketing\Presentations\Tradeshow & Conf\Labs 21 2012\ Slide 7 of 18
Example of Physical Conflict Process Piping in Chase, Rendering Actual Installed Process Piping in Chase, Detail
Space Management: 3 Key Uses of BIM in Cleanroom Environmentsy3. Visualization Using BIM to visualize key features of
the design allows us to understand how these areas will interface with the lab.BIM th t i t titi l i BIM ensures that interstitial access is provided at the correct level and location, structural columns are wrapped or painted if needed, and that pp p ,the viewing aisle glass will interface correctly with the cleanroom wall.
Using 3D visualization you can identify
Above Left: Imaging Suite Rendering
Ab Ri htareas of concern and avoid costly mistakes.
Above Right:Imaging Suite, Actual
Below: Interstitial Access with Ducting and RHAUs
www.abbiegregg.comCopyright Abbie Gregg, Inc. 2012 | Q:\Marketing\Presentations\Tradeshow & Conf\Labs 21 2012\ Slide 8 of 18
Ducting and RHAUs
Discipline Coordination: BIM Enables Multi-Discipline Communication Successful cleanroom design requires accurate coordination across multiple
disciplines, including the cleanroom designer, building architect, building MEP, and structural engineerstructural engineer.
The use of BIM brings all of these disciplines together, creates a clear picture of the design, and provides users online collaboration tools that allow for the speedy review of designs by all team members. This is critical due to the density of piping, g y y p p g,HVAC, and electrical services in these spaces. Successful installation and operation of expensive cleanroom equipment depends on the availability of these services.
How?1. Online collaboration and model sharing. This is done using electronic
workspaces such as FTP sites or onsite servers.2. Effective coordination requires the MEP team to share BIM models and be
aware each others services. This information must be up to date and available to all team members. It is important to communicate changes and to review the updated model on a weekly or bi-weekly schedule
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updated model on a weekly or bi-weekly schedule.
Copyright Abbie Gregg, Inc. 2012 | Q:\Marketing\Presentations\Tradeshow & Conf\Labs 21 2012\ Slide 9 of 18
Discipline Coordination: BIM Enables Multi-Discipline Communication1. Online Collaboration and
Model Sharing In order to effectively coordinate a BIM
model all disciplines must be able upload and share models electronically. It is important to have a standard scheduleimportant to have a standard schedule for uploading, reviewing, and MEP teem meetings.
Online collaboration reduces the need for travel, printing, and shipping resulting in a greener more cost effective design while maintaining open lines of communicationcommunication.
Tools such as Navisworks and Design Review have the ability comment and mark up the model file in 3D making it
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p geasier to communicate design issues and resolutions.
Copyright Abbie Gregg, Inc. 2012 | Q:\Marketing\Presentations\Tradeshow & Conf\Labs 21 2012\ Slide 10 of 18
Coordination no longer exclusively requires in-person meetings
Discipline Coordination: BIM Enables Multi-Discipline Communication2. Model Coordination To design spaces where there are
dense services you must coordinate 3D isometric views, sections, and plans in a model with all MEP disciplines visible and up to date.disciplines visible and up to date.
Model coordination is essential for locating holes, pop-outs, and route services through raised floor panels,
Process Piping in Interstitial with Routing through Ground Level Slabg p ,
waffle slabs, or walls prior to construction. A failure to properly locate these items can be costly.
Process Piping in Interstitial with Routing through Ground Level Slab
In a design build project pre-ordering materials with the use of an accurate model can save valuable time.
www.abbiegregg.comCopyright Abbie Gregg, Inc. 2012 | Q:\Marketing\Presentations\Tradeshow & Conf\Labs 21 2012\ Slide 11 of 18
Process Piping Details
Building Integration Constraints:Fire Codes, Constructability, Vendor Requirements
Careful attention must be paid to the integration of building and fire codes, constructability, and vendor requirements. These requirements impact not only clean space but the entire building Parameters constraints and templates in theclean space, but the entire building. Parameters, constraints, and templates in the model can be used to avoid costly mistakes and RFIs.
Code compliance is vital part of design and a large amount of time is spent reviewing plans for compliance. Smart devices can report information such as g p p pmounting height to make code checking faster and more accurate.
How?1. Code data can be stored within the BIM model. If the code requires changes, the1. Code data can be stored within the BIM model. If the code requires changes, the
model can help visualize the impact of these changes.2. Constructability issues can be caught early and a solution can be identified prior
to construction resulting in fewer RFIs. Plenums and cleanroom walls are custom designs. Using BIM we can anticipate how these items will need to interface with other elements of the building prior to construction.
3. BIM allows for equipment to be designed using parameters that will display d d l i t d id t d bl U i
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vendor and clearance requirements and avoid wasted or unusable space. Using 3D tool clearances will make it clear if adequate space has been provided.
Copyright Abbie Gregg, Inc. 2012 | Q:\Marketing\Presentations\Tradeshow & Conf\Labs 21 2012\ Slide 12 of 18
Building Integration Constraints:Fire Codes, Constructability, Vendor Requirements
Fire Codes Using 3D elements with smart parameters
to add code requirements such as mounting height, coverage radius, and clearances ensure that the code is met as well as reporting the quantity, location,well as reporting the quantity, location, and height of these devices.
In order to accommodate the fire code in a recent project, AGI was required to p j , qdesign a vertical lift to allow for chemicals and gases to pass from the HPM rooms to the cleanroom. Using 3D geometry allowed us to design the interface to haveallowed us to design the interface to have proper access.
www.abbiegregg.comCopyright Abbie Gregg, Inc. 2012 | Q:\Marketing\Presentations\Tradeshow & Conf\Labs 21 2012\ Slide 13 of 18
Building Integration Constraints:Fire Codes, Constructability, Vendor Requirements
Constructability Often the interstitial level of a cleanroom is not located at the same height as the
hit t ld lik t l t th t l l f th b ildi I th i t th d iarchitect would like to locate the next level of the building. In these instances the design may need to include stairs or ramps to provide access.
In building renovation projects, the interface between the existing building and the new space is vital. The use of BIM to locate existing structure, architecture and MEP servicesspace is vital. The use of BIM to locate existing structure, architecture and MEP services can save considerable time. One of AGI”S designs required two plenums to be hollowed out to accommodate the tool height while still supporting the AHU above.
www.abbiegregg.comCopyright Abbie Gregg, Inc. 2012 | Q:\Marketing\Presentations\Tradeshow & Conf\Labs 21 2012\ Slide 14 of 18
Ramp in Interstitial Space to Plenums, RenderingSelective Plenum Coverage to Accommodate Tool Height
Building Integration Constraints:Fire Codes, Constructability, Vendor Requirements
Vendor Requirements Vendor requirements for sensitive tools will determine the acceptable location for
th t l i th b ildi U i BIM t t th i t f ththe tool in the building. Using BIM parameters to see the impact of these requirements will prevent the design of unusable lab space.
JEOL JSM 3010 TEMPhoto Courtesy of JEOL
JEOL JSM 7000F SEM Photo Courtesy of JEOL
Advanced Imaging Tools
www.abbiegregg.comCopyright Abbie Gregg, Inc. 2012 | Q:\Marketing\Presentations\Tradeshow & Conf\Labs 21 2012\ Slide 15 of 18
E-Beam Lithography
Building Integration Constraints:Fire Codes, Constructability, Vendor Requirements
Vendor Requirements Modeling tool clearances in 3D allow you
t if th t h d i tto verify that overhead services, support equipment, and users have the space needed for the tool to function. If the tool does not fit this is catastrophic.
Smart tools have awareness of the services they require, the points of connection for services, and their location within the model This helpslocation within the model. This helps ensure vendor requirements are met as well as adequate services have been provided.
www.abbiegregg.comCopyright Abbie Gregg, Inc. 2012 | Q:\Marketing\Presentations\Tradeshow & Conf\Labs 21 2012\ Slide 16 of 18
Conclusion
When designing a clean space, there is a vast amount of data that must be gathered to ensure that the room meets US Federal and ISO standards, meets building code requirements, and functions exactly as it is designed.
Using BIM in this process is an essential way to gather all of this information into one central location and communicate design requirements and issues across multiple disciplines.
www.abbiegregg.comCopyright Abbie Gregg, Inc. 2012 | Q:\Marketing\Presentations\Tradeshow & Conf\Labs 21 2012\ Slide 17 of 18
The Most Important Element: Happy Cleanroom Users
Thank you!! Questions?Utilizing BIM for Successful Cleanroom Design
Presented by: Vince Miller, BIM Coordinator+1 [email protected]@ g gg
www.abbiegregg.com
AGI Abbie Gregg, Inc.1130 East University Drive Ste 105, Tempe, Arizona 85281 USA