INNOVATION LAB“S.T.E.A.M. PUNK”
ACE 2016-2017 – Thursday Team 2
STRUCTURE & CIVIL ORIENTATION: Straw Towers
STRUCTURE & CIVIL ORIENTATION: Water Filters
MEP ORIENTATION: McKinstry Workshop & Evaporative Cooling
CASE STUDY VISIT: Starbucks Roastery
CASE STUDY VISIT: SAAS
INNOVATION LABDESIGN
ARCHITECTURE :
Audrey Hogan, Andrew Hyun, Wilson Rawlings, Ella Soderquist
SITE INFO : Henry Jackson High School
SITE INFO : Henry Jackson High School
SITE INFO : Existing Conditions
DESIGN CHARETTE: Process Session
DESIGN CHARETTE: Team Boards & Selection
DESIGN CHARETTE: Steam Punk Wins!
Science
Technology
Engineering
Art
Mathematics
Key Concepts :
Create collaboration spaces that combine creative
arts, technology, and sciences
Maker Space and Collaboration Space are flexible
Create indoor/outdoor maker space
Re-connects school circulation
DESIGN CONCEPT
DESIGN CONCEPT: Organizational PrinciplesCLASSROOM DESIGN CONCEPTS
FLOOR PLAN ADJACENCY AND BLOCKING DIAGRAM
SITE DESIGN SKETCH
DESIGN CONCEPT: Exterior Material Character
DESIGN CONCEPT: Exterior & Massing Sketches
FINAL DESIGN PERSPECTIVE
SITE PLAN & DESIGN
STEEL YARD
GROUND FLOOR PLAN
SECOND FLOOR PLAN
MAKER SPACE
FLEXIBLE WORKSPACE
SEATING &
CONFERENCE
CNC/LASER
CRANE
WORK AREA
STORAGE
LAB/SHOP
LEVEL 1 LEVEL 2
PRINT SHOPLOUNGE/
STUDY
OPEN TO
BELOW
MAKER SPACE
FLEXIBLE SEATING OPTIONS
MAKER SPACE
CLASSROOMS & LABS
CLASSROOMS & LABS
CLASSROOMS & LABS
CLASSROOMS & LABS
FINISH MATERIALS PALETTE
INNOVATION LABCIVIL ENGINEERING
Kyla P. & Justin
FAIRWAYFOUNTAINS
VILLAGE
FAIRWAY
ST.MORITZ
ESTATE
CO
UNTR
Y CLU
B
MCCA
CENTERTOWN
APTSMONTERRA
RIVENDALECONDOS
AUTOZONE
PLACECOLSON
HUCKLEBERRY
PARK
WOODFERN
APTS.PARKWOOD
MAGNOLIAFALLS
LAKEWOOD
BELVEDERE
SCHOOL
CH
ER
RY
LA
NE
WOODSIDE WALK
THE HAWTHORNE
CENTERSHOPPINGGATEWAY
PENNY
CREE
K
PENNY
CREE
K
NO
RTH
CREEK
NO
RTH
CREEK
NO
RTH
CR
EEK
MIL
L C
REEK
SITKA C
REE
K
SIT
KA C
REEK
NO
RTH
CREEK
NO
RTH
CREEK
COUNTY PARK
DUMAS LANE
BURK PLACE
MILL CREEK
SWEET WATER
DOUGLAS FIR
APTS.
LIBRARY
CHELSEA
CYPRESS
RANCH
VILLAGE
McCOLLUM
PARKSIDE
PEMBROOK
GOLF COURSE
MILL CREEK
VINE MAPLE
NA
TU
RE
PR
ES
ER
VE
SURREY PK
(PR
IVA
TE
)
HOLLY
EVERGREEN
(PRIVATE)
WILLOWS
SCHOOLHIGH
JACKSON
SUNROSE
TRILLIUM
MIDDLEHEATHERWOOD
PARKHERON
FAIRWAY
SWORDFERN
MAGNOLIA
VINEYARDS
THE RESERVE
LOWES
NATURE'S
HEATHERWOODAPTS.
LANDING
LAUREL
FAIRWOODGREENS
ASPEN
TOWN
COURT
CONDOS
JUNIPER
CENTER
APTS.
CRESTPARK
SILVER
SILVER CREST
ADDITION
AGENA'S
WEST
HEATHERWOOD
COURT
WEXFORD
HE
AT
HE
RW
OO
D L
AN
E 2
FERNWOOD
CEDARCRESTLANE
HEATHERWOODLANE
BROOKSIDE
PARKLIBRARY
APTS
LOCKWOODVILLAGE
HEATHERLAND
HILLSIDEPARK
SPORTS
MADISON
FREDMEYER
PENNY CREEK
MILL CREEK
CRESTVIEWVILLAGE
CEDARVISTA
CREEKSPORTS
MILL
City of Mill CreekMill Creek Drainage Basin Map
2/9/16
LID (Low-impact development)
■ Low Impact Development
– Systems that mimic
the surrounding
environment
– Using predominantly
soil and rainwater, LID
manages storm water
Water Quality■ What is it? water treatment in order to reduce the amount of
contaminants (ie heavy metals, nutrients, chemicals) released
by the building/its use.
■ Summer salmonoid habitat in Mill Creek downstream of the site
of the innovation lab will require enhanced water quality
treatment.
– 3 options:
■ Bioretention
■ Two facility treament train
■ Proprietary treatment system
■ We chose bioretention as our method of improving water quality
from the new development. It was the least invasive to the
current school ground layout/structure and matched the
landscape visions of the landscape architects.
Yellow: project area
Gray: roof
White: non roof hard surface
Green: bioretention area
Utility routing & storm drains
Bio-Retention■ To determine bio retention, calculations of the buildings footprint must be done
■ Permeable pavement in outside public spaces
INNOVATION LABSTRUCTURAL ENGINEERING
Kyla P. & Justin
Load Paths, Types of Loads
■ Gravity Load Path: Slabbeamsgirderscolumnsfoundation
■ Lateral Load Path: Braced framesfoundation
■ Types of Loads (measured in psf, pounds per square foot)
– Live Load: Anything that is variable or changing. (ie snow, rain, people,
supplies)
– Examples of live loads: residential spaces, corridors, common use
decks, lobbies, offices.
– Live loads for different kinds of structures are outlined in the ASCE 7-
10: Minimum Design Loads for Buildings and Other Structures
■ There is a minimum range of 40-100psf live load requirement for schools
depending on how the space will be used.
– Dead Load: Any materials that remain stationary. (ie walls, floors,
columns, ceilings, framings
Building Materials, Seismic Design
■ Building Materials: Two of the most commonly used building
materials in modern structures are concrete and steel. Concrete
is good in compression and steel is good in tension.
Acombination of these two materials allows for a seismically
strong building.
■ Older buildings are made out of brittle materials such as
brick/stone. It is difficult to update buildings like this without
demolishing the entire structure because new construction
needs to comply with modern seismic design standards and
thresholds.
■ Different geographical locations have different seismic ground
mation values, importance factor/risk categories and seismic
design categories
– These determine the type of structural system that would
best fit the structure
Frames and Joints■ We placed steel brace frames throughout the building
– Designed so that they are visible
– Placed to prevent twisting or swaying
■ We decided to use seismic joints to:
– Protect against earthquakes
– Separate the school from the Lab
Column Placement, Lateral System
Vertical white lines are columns which were placed frequently enough to support the building
sufficiently and in strategic locations (mostly within walls) to avoid being in the center of a classroom.
The pink x’s are brace frames that will support the lateral forces (ie wind) against the building.
Column info:
5x5x1/4” tube
columns, 4” flange
for beam
Gantry Crane■ We calculated the sizes of the steel beams and
columns needed for the gantry crane to support
the weight of the average car (3,000 pounds)
A standard gantry crane design
• 4” by 4”
columns
• 8” by 4” Flange
I-Beams
INNOVATION LABMEP
MECHANICAL/ELECTRICAL/PLUMBING :
Nick Dragovich, Marcel Ramirez, Julius Wichert, Michael Yang
GENERAL MECHANICAL DIRECTION
- Multi-use Building – Labs and Classrooms- Labs – VAV- Classroom – Chilled Beam
- Existing building vs new construction
- Collaboration/coordination with other disciplines Typical Equipment Layout
AIRSIDE EQUIPMENT
- Dedicated Outside Air System (DOAS)Ventilation air only (slightly) smaller ductsNo Economizer
- Active Chilled beamNo fan energy to heat or cool space
- Outside air from DOAS connected to beam- Radiant Wave
“Passive System” heating onlyAt perimeter only (cooling done by Chilled Beam)
- Variable Air Volume- Regulate outside air to beam
Active Chilled Beam DOAS
Radiant Wave
GREEN TECHNOLOGY - MECHANICAL
- Condensing KN boilersHigh efficiency – 95%Water Temperature Out of the Boiler – 120 FWater Temperature Into the Boiler – 90 F
- High efficiency Smardt chillerMagnetic Bearing ChillerLow energy useHigh Part Load Efficiency
- Low flow fixtures – plumbing16 oz per flush “The Pint”
- Solar powered water faucets
Solar FaucetsLow Flow Toilets
Condensing KN Boilers
Magnetic Bearing Chiller
WETSIDE EQUIPMENT
- Pumps + one redundant pump- Magnetic Bearing Chillers
Mechanical Room Layout
Primary-Secondary Pumping Strategy
Magnetic Bearing Chillers
PLUMBING
- Fixture CountToilets : 18 Men’s and 24 Women’s
Zurn EcoVantage Flush Valve toilet with antimicrobial glaze9 Urinals
Omni-Flow Top Spud Urinal, range from 0.125 gpf to 1.0 gpfSinks : 8 Men’s and 12 Women’sFloor drains located in Janitor closets and restrooms
- Lab SystemsCompressed air for cleanup at lab spacesEmergency eyewash stations located in labsChemical showers located in labs
Chemical Shower and Eye Wash StationChilled Water, Hot water, and
waste to restrooms
ELECTRICAL
- Lighting- Using indirect lighting- Reduces the amount of lighting required- Keeps students productive and safe (because some students
are afraid of the dark)
- Layout- Coordinated with Mechanical equipment
- Main panel room on second floor
Typical Classroom Lighting Layout
Typical Classroom Power Layout
GREEN TECHNOLOGY - ELECTRICAL
- Variable Frequency Drive (VFD)sVary the speed of pumps and fans to save energy
- Light Emitting Diode (LED)s light fixtures- Occupancy Sensors- Automatic Dimming light fixture- PV array- 27,000 Sq Ft puts whole building ‘Off Grid’
PV Array
LED Lights
INNOVATION LABCONSTRUCTION
Siaire Washington & Jean Kim
Schedule
• 10 Month Construction Schedule
• Utilization of Summer Break for Construction of Super Structure and Building Envelope.
• Accelerated Schedule – Multiple Shifts per Day & Saturdays during Summer Months.
• Least impacting construction activities to commence during the school year. IE: Interior Build-out
• Site concrete and finishes other than landscaping to occur during Holiday/ New Years Break.
Schedule
Construction Site Tour! – Charter Hotel, Seattle
Site Logistics – Project Approach
• Site Constraints
• Delivery of materials and movement around the site
• Storage of Materials and Equipment
• Personnel Facilities
• Safety of Surrounding Community and Pedestrians
Site Logistics - Plan
Estimate
THANK YOU MENTORS