DPR Case Study

Matthew Porreca, AIA LEED AP mporreca@bnim.com

DPR Construction San Diego Office

August 28, 2008 Programming Presentation DPR New Office Project

Front of House Front Desk 60 SF New Side Area 168 SF Lobby Storage 72 SF Operations Operations Waiting Area 441 SF w/ Aquarium Surf Boards 231 SF Sub & Mail Pick-up 120 SF Windnsea 2 168 SF Core 20 Person Conf R 500 SF Sub Room 300 SF Phone Booth 40 SF Copy Print Area 220 SF Phone Booth 40 SF Wine Cellar Innovation Room 175 SF Copy Area 544 SF Rumple 221 SF Virtual Cave 300 SF Delta 2 400 SF Birdrock 336 SF Training 1500 SF Wine Bar Library Cafe 192 SF Phone Booth 40 SF Delta 400 SF Windnsea 168 SF Windnsea 168 SF War Room 285 SF Rumple 221 SF Media/Game Room 300 SF Transitional Storage 375 SF IT Workshop 120 SF Kitchen 800 SF Archive Storage 375 SF Basic Storage 180 SF Gym 400 SF Marketing Storage 160 SF Back of House

Solatubes– Daylighting analysis Because Solatube photometric data is yet unavailable from the manufacturer, they are modeled as light fixtures with static output for average exterior conditions based on climate. Results showed that this scheme produced some of the most uniform and consistent daylight distribution on an annual basis. Relative advantages: ,[object Object]

Amount of daylight can be controlled through dampers connected to an operable switch on the wall.

Low first cost.24’ 0” x 40’ 0” 24’ 0” x 48’ 0”

Skylights – Daylighting analysis The Daylight Saturation Percentage (DSP) is in a very desirable range and very uniform, owing to the diffusing nature of the skylight. 99% of the space has a DSP of 70 or higher. Such uniformity on an annual basis would lead to high lighting energy savings. Most of the illuminances for all UDI sensors lie between 10 to 200 foot-candles range. Only a few sensors have a small percentage between 200 and 400 foot-candles, which was the objective. This scheme would qualify for the LEED EQ Credit 8.1 for daylighting

Continuous Roof Monitors – Daylightinganalysis 65% of the space has a DSP of 70 or higher but the distribution of is not as uniform as in other schemes. This may be because the roof monitors face southeast, an orientation towards which the sun movement is not symmetrical. UDI numbers are scattered between 10 to 200 fc and above 200 fc ranges. Further optimization is needed to bring a majority of sensors into the 10 to 200 fc range for a larger portion of the year. This scheme would not qualify for the LEED EQ Credit 8.1 for daylighting

Scheme 1: Courtyards – Daylighting analysis Introducing courtyards improves the daylight distribution at the core of the building away from periphery but interior space immediately south of the courtyard experiences glare. While the majority of the illuminances lie between 10 to 200 foot-candles range, there is a considerable amount of time when UDI for some sensors lies between 200 and 400 foot-candles, especially closer to the periphery. Courtyard sizes and visible transmittance of glazing can be further optimized to achieve maximum potential for this option. This scheme would qualify for the LEED EQ Credit 8.1 for daylighting

University of California, Los Angeles WIN-GEM BUILDINGandENGINEERING VI BUILDING

Layers of Design MARCH 30, 2011 WIN-GEM / ENGINEERING VI UCLA I HSSEAS moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk

"A great building must begin with the unmeasurable, must go through measurable means when it is being designed and in the end must be unmeasurable." Louis I. Kahn

APRIL 11, 2011 WIN-GEM: PERFORMANCE BASED DESIGN WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

LE CONTE MARCH 30, 2011 WIN-GEM / ENGINEERING VI UCLA I HSSEAS moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk

ENGINEERING V ENGINEERING IV ACKERMAN WESTWOOD PLAZA SITE INFLUENCES – WESTWOOD PLAZA / PORTOLA STEPS SITE CIRCULATION SITE VENTILATION SITE CONNECTIONS – INSIDE / OUTSIDE SITE DESIGN – CAMPUS CONTEXT AND INFLUENCES APRIL 20, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

MARCH 30, 2011 WIN-GEM / ENGINEERING VI UCLA I HSSEAS moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk

1 2 3 4 5 6 MARCH 12, 2011

Massing Scheme A Massing Scheme B N N Model Assumptions: Annual cooling plant load Massing A: 90 kBtu/sf Massing B: 84.4 kBtu/sf This is based on one system serving the entire building without any heat recovery. No major impact of the 2 massing on the annual cooling load with proper shading. Annual solar gain: Massing A: 10 kBtu/sf Massing B: 6.7 kBtu/sf ,[object Object]

LPD: 1.4 W/sf (lab) - 1.1 W/sf (offices)

lab ventilation rate: 5-15 ach,[object Object]

WIN-GEM ENGINEERING V ENGINEERING VI TYPICAL FLOOR PLAN FOR LEVELS 3-5 – CONNECTING TO ENGINEERING IV and V APRIL 20, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

TYPICAL FLOOR PLAN FOR LEVELS 3-5 - LABORATORIES APRIL 20, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

TYPICAL FLOOR PLAN FOR LEVELS 3-5 – SOCIAL SPACES APRIL 20, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

TYPICAL FLOOR PLAN FOR LEVELS 3-5 – FACULTY SUITE AND COLLABORATIVE AREAS APRIL 20, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

GROUND LEVEL FLOOR PLAN – LOBBY APRIL 20, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

GROUND LEVEL FLOOR PLAN - AUDITORIUM APRIL 20, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

LEVEL 2 FLOOR PLAN – GARDEN / COURTYARD AREA APRIL 20, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

TYPICAL FLOOR PLAN FOR LEVELS 3-5 – NATURAL LIGHT APRIL 20, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

TYPICAL FLOOR PLAN FOR LEVELS 3-5 – NATURAL VENTILATION / MIXED MODE APRIL 20, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

Phase I & Phase II: ENGINEERING VI BASEMENT LEVEL PLAN MAY 2, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

Phase I & Phase II: ENGINEERING VI SECOND LEVEL PLAN MAY 2, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

Phase I & Phase II: ENGINEERING VI TYPCIAL THIRD thru FIFTH LEVEL PLAN MAY 2, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

MASSING PARTI BRICK BRACKETS MAY 2, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

MASSING PARTI MAY 2, 2011 LIMESTONE AT WESTERN BASE WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

MASSING PARTI LIMESTONE/BRICK DATUM REINFORCES PARTI/PLAN RELATIONSHIPS BETWEEN OFFICE AND LAB MAY 2, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

MASSING PARTI LIMESTONE EXTENSION (LIMESTONE TRANSLATED INTO LIGHTER TERRA COTTA ABOVE 2ND FLOOR) MAY 2, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

MASSING PARTI MAY 2, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

MASSING PARTI MAY 2, 2011 LIMESTONE EXTENSION (LIMESTONE TRANSLATED INTO LIGHTER TERRA COTTA ABOVE 2ND FLOOR) WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

80° summer solstice 33° winter solstice APRIL 11, 2011 PHASE II: CONTINUATION OF PERFORMANCE BASED DESIGN WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

APRIL 11, 2011 WIN GEM NORTH FAÇADE: LAB PERFORMANCE & CAMPUS CONTEXT WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

80° summer solstice 33° winter solstice Indirect North daylight APRIL 11, 2011 SECTION THROUGH WIN-GEM: PERFORMANCE BASED DESIGN WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

Natural Ventilation Operable windows to capture prevailing west breeze APRIL 11, 2011 WIN-GEM WEST FAÇADE: OFFICE PERFORMANCE & FRONT DOOR WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

APRIL 11, 2011 WIN-GEM SOUTH FAÇADE: LIVING LABORATORY FOR SUSTAINAIBLITY RESEARCH WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

SUMMER SOLSTICE WINTER SOLSTICE MAY 2, 2011 SECTION @ DRY LABS WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

SHADING AND DAYLIGHTING MAY 2, 2011 WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

Phase I & Phase II: ENGINEERING VI A B C MAY 2, 2011 FAÇADE OPENING STUDIES WIN-GEM / ENGINEERING VI moore ruble yudellarchitects & plannersI BNIM IResearch Facilities Design I Buro Happold I OLIN I Englekirk UCLA I HSSEAS

Lighting & Daylighting Percentage glazing - 80%- Percentage glazing - 60%- Percentage glazing - 40%- Percentage glazing - 40%- Percentage glazing - 60%- Percentage glazing - 80%- Ceiling height – 12’ Ceiling height – 10’

Ceiling height – 10’ Ceiling height – 12’ Percentage glazing - 40%- 40% area with DF>2%UDI<100=16%UDI100-2000=14%UDI>2000=70% 46% area with DF>2%UDI<100=11%UDI100-2000=13%UDI>2000=76% 49% area with DF>2%UDI<100=11%UDI100-2000=10%UDI>2000=79% Percentage glazing - 60%- 63% area with DF>2%UDI<100=7%UDI100-2000=9%UDI>2000=84% Percentage glazing - 80%- 64% area with DF>2%UDI<100=7%UDI100-2000=7%UDI>2000=86% 81% area with DF>2%UDI<100=5%UDI100-2000=8%UDI>2000=88%

Ceiling height – 10’ Ceiling height – 12’ Percentage glazing - 80%- Percentage glazing - 40%- Percentage glazing - 60%- Percentage glazing - 80%- Percentage glazing - 60%- Percentage glazing - 40%- 200 lux 300 lux 400 lux N Illuminance – sunny sky – March 21st 2pm

UCLA - PRELIM. DAYLIGHT STUDYNORTH LAB 30ft 11ft 9.5ft 15ft 80% glazing 12ft 60% glazing N GLAZING ASSUMPTIONS: 0.71 Tvis 0.28 U 0.39 SHGC (SOLARBAN 60)

UCLA - PRELIM. DAYLIGHT STUDY NORTH LAB 60% glazing 80% glazing N Daylight Autonomy TARGET LIGHT LEVEL: 60FC

UCLA - PRELIM. DAYLIGHT STUDY NORTH LAB 60% glazing 80% glazing N N Daylight Factor

N Section Through Daylight Study

Illuminance Luminance Ackerman Bldg to the North: South Facing Façade (unobstructed) – March 21st, 2pm Sunny with Sun Sky

Sustainability Goals LEED Gold, possible Platinum Net Zero Energy Respecting Water as a Resource Carbon Footprint Expressive of the Work Within

High Performance Matrix Lighting Building Envelope Fenestration HVAC Systems Renewable Energy Water Systems Gen-2 elevator Chilled Beams Aircircuitry system Dynamic V8 filters Heat Recovery Raised Access floor Net Zero Energy

Energy Modeling 5 Different scenarios investigated: ,[object Object]

VAV with Heat Recovery with 50% glazing on all facades

VAV with Heat Recovery with 80% glazing on all facades

VAV with HR and D/I evaporative cooling with 50% glazing on all facades

VAV with HR and Chilled Beams for the Offices with 50% glazing on all facades,[object Object]

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