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D E S T I N A T I O N S T . P E T E P I E R ST. PETE DESIGN GROUP
D e s t i n a t i o n S t . P e t e P i e rFunctional | Buildable | Affordable | Permittable | Sustainable | Attractable
02 THE NEW ST PETE PIERTHE INVERTED PYRAMIDTHE DESTINATIONPROGRAMMATIC ELEMENTS
SPA BEACHTHE PIER APPROACHTHE PIER HEADTHE WATERFALLTHE PYRAMIDANCHOR TENANT OPTIONS
SITE PLANSITE CIRCULATIONSITE TRANSPORTATIONSERVICE ROUTES
01 VISION 03 CONNECT
CONTENTS
WATERFALLSENVIRONMENTAL PERMITTINGLIFE SAFETY AND CODESSTRUCTURALHVAC AND ELECTRICALPLANT PALETTESBUDGET AND SCHEDULE
04 TECHNICALDESIGN TEAMPROFILESCOMPETITION BOARDS
06 APPENDIX05 OPPORTUNITIESINTEGRATION INTO PARK SYSTEMADDITIONAL PROGRAM ELEMENTS PHOTOVOLTAICS
VISIONTHE INVERTED PYRAMIDTHE DESTINATIONPROGRAMMATIC ELEMENTS
VISION
The inverted pyramid is sealed in the memories of many residents of this community, as they reflect back on wonderful times spent as a child, with a family member, or as a solitary explorer. It remains today as a powerful physical presence on our skyline. Pull away the multi-colored cubes, the jumbled mix of retail shops and upper level planar glass panels, and the inverted pyramid is a beautiful, pure form. Our design turns it into a crystal, a diamond, a gem, with a reflective surface that will glisten and sparkle.
It is more sustainable to re-use the structure rather than disposing of it. Construction time and related fossil fuels will be saved. Less new materials and resources will be required to provide a significant building via renovation than if we were building the structure new. We are able to provide the city more amenities and square footage for less money by keeping the existing structure.
Historical preservation is also a consideration. The structure is a unique representation of modern architecture. It was designed by one of the City’s preeminent architects, William Harvard, Sr. The building’s unique historical characteristic lies in its structural system and shape, both of which we intend to highlight. Stripping away all aspects of the building that were constructed in the 1980s or later will also help bring the building back to it’s original form.
Our Pier is a repurposed, reimagined, historic yet contemporary icon.
WHY RE-IMAGINE THE INVERTED PYRAMID?Pull away the multi-colored cubes, the jumbled mix of retail shops and upper level planar glass panels, and the inverted pyramid is a beautiful, pure form.
VISION
Our current downtown waterfront offers amazing opportunities for both passive and active experiences but lately, as people approach the Pier, the question most often in people’s minds is “what will I do out there?” We have answered that call with a multitude of active, fun, recreational activities to complement existing experiences. At the New St. Pete Pier, opportunities will be spaced all along the promenade, beginning with the Spa Beach Grill. As you walk toward the Pier Head, you will encounter a new, unique St. Petersburg experience, every 60 seconds.
Play on the beach, eat a hamburger, savor an ice cream cone, drink a beverage, enjoy an intimate dinner, take in the view, or relax beneath the shade. Rent a paddleboard, climb a bouldering wall, play volleyball, strike up a ping pong or chess game, lie above the water on the Grand Hammock, or catch a fish. The waterfront experience at the Pier will be unforgettable and one that you will want to enjoy over and over again.
Whether you are a native or a tourist, part of a family or an individual, all should enjoy our beautiful waterfront. It is our number one attraction and what defines our unique City.
THE DESTINATION
PIER APPROACH UPLANDSPIER HEAD
Mindful of the desire to attract both tourists and residents and to keep them coming back, our design strives to provide opportunities for each and every program element requested. Our design form derives its shape from the placement of these program elements and is a true reflection of form following function. Functional and efficient, our design provides safe, delineated routes for pedestrians, cyclists, and vehicles, expanding in areas for visitors to gather, mingle and meet.
PROGRAMMATIC ELEMENTS
VISION
VISION
OBSERVATION AND VIEWINGThe new dimensions of the Pier Approach and configuration of the Pier Head mean that impressive views of the water and downtown waterfront can be had from anywhere on the Pier. For the most spectacular views, the upper level of the pyramid offers a clear, unobstructed 360-degree observation platform. A new roof will shelter this “Sky Deck” and its outside seating from sun and rain. The outer 30-foot band of the roof will create dappled shade and will be capable of supporting translucent photovoltaic solar panels which if installed as part of a future project, could significantly reduce facility operating costs.
DINING OPTIONSChoices, choices, choices. The new Pier offers the Community opportunities for a variety of dining options and for Restaurateurs, the infrastructure to launch a variety of unique dining concepts.
At the Spa Beach Grill, we have designed the infrastructure for an open-air beachside grill to serve the beach and the Pier Approach. It will be similar in scale to the Paradise Grille on Pass a Grille beach. The design is low in profile and will integrate seamlessly into the park with the ground simply pulling upwards to provide shade and shelter. The roof will be grass and can serve as a walkable observation point. The Spa Beach Grill will be one of the only dining options in Tampa Bay located directly adjacent to the beach.
Positioned along the Approach, east of the north fishing pier, a small concession stand will provide refreshments and snacks. At the Pier Head, three dining options are provided. The Sunset Café and the Ice Cream Shop are
located on the Party Deck to take advantage of the shade provided by the Main Deck level. The third dining option at the Pier Head is located within the top level Sky Deck of the inverted pyramid. Space is provided for a new 3,500 square foot Sky Deck Restaurant that will offer air-conditioned dining inside and café style, shaded seating outside.
CYCLING, WALKING, AND JOGGING PATHS Bicycle lanes and sidewalks are provided along the Pier Approach to the Pier Head and circulate all around the Pyramid. These pathways are 12 feet wide at their narrowest point. They are dedicated to cyclists and pedestrians as are the pathways all along our current waterfront. We envision bicycle share stations at the Uplands ramp access and at the Pyramid Main Deck, automated like the Paris, New York, Montreal and Tampa Bike rental systems. Additional pathways extend to fishing docks and connect back to the Uplands Park. A new north-south sidewalk forms a new beach edge and leads to the north seawall at the entrance to the Vinoy Basin.
TRANSPORTATION OPTIONSThe new Pier will have plentiful sidewalks for pedestrians and bicycles, and two lanes dedicated for public trams, a trolley, emergency vehicles, service vehicles and limited automobile access. All vehicular traffic will be 15 mph speed controlled and safe, pedestrian crossings will be offered.
We envision that a free City provided public tram system of golf-cart-type open cars will run continuously between Bayshore Drive and the Pier Head. Shaded Tram Stops are provided at the Dolphin and Pelican
Functional | Buildable | Affordable Parking Lots, the Pier Head, Bayshore Drive, the Museum of History and at three intermediate stops along the Pier Approach. The Trams will move at up to 7 mph, be equipped with wheelchair lifts and a place at the back to transport coolers. No pedestrian on the pathway will be farther than a two minute walk to a Tram Stop.
Car, taxi and tour bus access to the Pier Head is provided on the two vehicular lanes. Drop-off and Pick-up will be available at the Pier Head, however, there will be no parking on the Bridge Approach or at the Pier Head. Vehicular circulation around the Pier Head will be allowed only for Emergency, Service and Delivery vehicles.
FISHINGA stable, wood decked fishing platform running parallel to the Pier Approach occurs on the north side. Accessed via an accessible sloping ramp on two sides, anglers can fish from a deck just four feet off the water’s surface. A bait shop with concessions, restrooms and drinking fountains, is located at the east end of the fishing platform. At the Pier Head, a lower level for recreational fishing will be placed on the southeast side of the Head, also near water level. It will be connected to the Party Deck level via two accessible ramps, which provide access to restrooms, drinking fountains and a souvenir stand.
COURTESY AND TRANSIENT DOCKSCalming the often turbulent waters around the Pier has always been a challenge. By design, our concept does not provide transient motorboat docks at the new Pier Approach or Pier Head. Instead, courtesy and transient boat dockage is shown at the Middle Basin
channel entry. These docks have been proposed by the City Marina, were discussed with City Council and are scheduled to be completed around the time of the new Pier.
Our design provides a kayak, canoe and paddleboard launch at the south end of Spa Beach. In this location, we have also provided a kayak condo storage area embedded within the new Approach ramp retaining wall. This is also close to the new Spa Beach Grill.
Dockage for the proposed St. Petersburg-Tampa high-speed ferry could occur at the south side of the Vinoy Basin.
ENVIRONMENTAL EDUCATIONThe lower three levels of the new pyramid are ideal to function as a home for an environmental education element/interactive marine discovery center, which is a prominent component of the City’s required program. A new 36-foot-high atrium unifies the lower three levels with a curved stair. Collaborating closely with members of the marine science community of St. Petersburg we have explored the programmatic potential of this portion of the design and have found that the floor plates allow for a creative, unique plan solution.
Another potential educational opportunity could be the story of glass, water and sand, all of which are found in great quantities here in St. Petersburg. Glass, a stable liquid, is made from sand. This sand works its way from the Gulf to create our beaches. One possibility could be a museum featuring the art and science of glass. This would be appropriately located within an inverted pyramid of glass.
Permittable | Sustainable | Attractable
VISION
FLEXIBLE EVENT SPACE AND PERFORMANCE AREAS Observation stair platforms are located along the Bridge Approach at the west end of the fishing platform. At the Pier Head on the Main Deck level, we have incorporated a sloping artificial turf lawn which seats approximately 150 people. Also at the Pier Head, but down one level on the Party Deck, a flexible performance space for bands and music is provided.
BIKE AND WATERCRAFT RENTAL Adjacent to the Spa Beach Grill is a watercraft and bicycle rental kiosk. Kayaks, Canoes and Paddleboards could also be rented at this location.
RETAIL OPPORTUNITIESBy design, retail options on the new Pier are limited but well positioned and relevant to the program offerings. Two Souvenir Shops, a Bike Share Kiosk, a Bait Shop, a Bicycle Rental kiosk and a Watercraft Rental Shop – which will also offer retail items useful to those using the beach. Rounding out the Retail opportunities are the Sky Deck Restaurant, the Spa Beach Grill, the Sunset Café and the Ice Cream Shop.
SHADE AT SPA BEACHExisting landscaping will remain and will offer shaded spots to rest. The new Spa Beach Grill also provides a sheltered area beneath a green roof.
SHADE AT THE PIER APPROACHLacey aluminum arbors, located at two separate Tram Stops on the North side of the Pier Approach, are covered with cape honeysuckle to provide shade to pedestrians waiting to catch a Tram or walking on their
way to the Pier Head. A third shaded Tram Stop on the south side of the Pier Approach provides one additional area to sit and rest.
SHADE AT THE PIER HEADThe Pier Head is multi-level so the Party Deck, which is below the Main Deck level, is almost entirely in shade and depending on the time of day and the angle of the sun, portions of the Main Deck will be shaded by the overhang of the inverted Pyramid. Shade is also provided at the Pyramid’s top level Sky Deck.
FULLY ACCESSIBLEThe New Pier will be fully accessible.
AIR-CONDITIONINGThe New Pier will have interior air-conditioned spaces.
SEA LEVEL RISE The existing Pier and entrance to the existing pyramid is below FEMA flood level. The new entrance to the pyramid and the Main Deck surrounding it will be 24.5 feet above the water. All pedestrians, bicycles, and vehicles, will arrive at this level. This new height has an advantage, in that it is well above current FEMA flooding level and accounts for predicted sea level rise and storm surges.
SPA BEACHTHE PIER APPROACHTHE PIER HEADTHE WATERFALL THE INVERTED PYRAMIDANCHOR TENANT OPTIONS
THE NEW ST. PETE PIER
THE NEW ST. PETE PIER
PIER HEAD
UPLANDS
GRAND HAMMOCK / FISHING DECK
SMALL EVENT LAWN
ICE CREAM SHOP
RESTAURANT
TRAM STOP
SUNSET CAFE
BAIT SHOP / SHADED TRAM STOP /CONCESSION
SPA BEACH GRILL
SPA BEACH
CHECKERS / PING PONG / CHESS
PICNIC / PLAYGROUND
FUTURE WATER TAXI STOP
VOLLEYBALL / BOCCE BALL
SHADED TRAM STOP
SHADED TRAM STOP / BAYVIEW STEPS
FISHING PIER
KAYAK CONDO / ROCK CLIMBING WALL
PIER APPROACH UPLANDSPIER HEAD
D e s t i n a t i o n s a t t h e N e w S t . P e t e P i e r
THE NEW ST. PETE PIER
As the historical living room for the City, Spa Beach served as a prime urban escape without having to leave downtown. The amenities once fostered a sense of community and helped to enrich the overall downtown waterfront experience.
A LINK TO THE PAST
S P A B E A C H
THE NEW ST. PETE PIER
Through the Pier’s history Spa Beach has been the most significant recreation feature on the uplands. It once spanned the entire north peninsula within the current sea walls. It was the quintessential vantage point for countless postcards and pictures. It once had volleyball courts, cabanas, and a playground. Our team wants to bring the beach back to prominence by providing a significant expansion of the current beach and give the recreational programs back to the community. We would return the sand above the current seawall and triple the existing beach size. This method is historically accurate and it eliminates permitting hurdles that would arise from filling additional sand in the bay itself due to significant areas of sea grass adjacent to the current beach.
We also believe there is another benefit to placing a large area of beach above the sea wall. Over time as the sea rises, this portion of the beach will be preserved. The beach will have kayak condos built into the side of the new approach berm. A bouldering climbing area will also be located on the side of the pier approach berm adjacent to the beach. The wall will extend over both sand and water to provide an additional play feature at a minimal cost. Volleyball courts will be provided and cater to the AVP which recently used this location for a beach volleyball tournament. We also envision a grove of palm trees shading outdoor ping pong tables and chess/checkers boards.
The reimagined Spa beach will allow older generations to reminisce while new generations rediscover our only downtown beach.
REVITALIZED EXPANDED SPA BEACH
THE NEW ST. PETE PIER
ROCK WALL
KAYAK CONDOS
SPA BEACH
SPA BEACH GRILL
PRIMARY PEDESTRIAN PATH / CYCLING PATH
OVERWATER DRIVE
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ACTIVITIES | SPA BEACH GRILL
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A beachside grill will serve the beach and the pier approach. The design would integrate seamlessly into the park by simply pulling the ground up to provide shade and shelter. The grass roof would be a walkable observation point providing optimal views of the Bay and activities. Concessions located directly on the beach make Spa Beach Grill a desirable destination for both locals and tourists.
SPA BEACH GRILL
A bicycle shop and watercraft rental shop will retail items useful to those using the beach and the water including paddle boards.
BICYCLE AND WATERCRAFT RENTAL SHOP
Courtesy and transient docks will accommodate motorized and non-motorized watercraft. Dockage will be available at the Middle Basin channel entry as proposed by the Marina and discussed in City Council.
COURTESY AND TRANSIENT DOCKS
A kayak/canoe launch will be located at the south end of Spa Beach. Kayak/canoe storage will be embedded in the new ramp retaining wall and close to the new Spa Beach Grill.
KAYAK CONDO
A variety of retail opportunities such as the Spa Beach Grill will support the new Piers recreational elements and enhance the visitor experience.
THE NEW ST. PETE PIER
VIEW FROM THE SPA BEACH GRILL TO THE KAYAK CONDOS AND CLIMBING WALL
THE NEW ST. PETE PIER
St. Petersburg is famous for its beautiful waterfront views that are enhanced by the Pier’s outreach into the Bay. The community traveled out to the Pier Head by foot, railroad, vehicles and trams to enjoy the breathtaking views.
A LINK TO THE PAST
T H E P I E R A P P R O A C H
THE NEW ST. PETE PIER
The Pier will feature a new bridge approach that offers its own special experiences of observation, movement, places to rest, facilities for fishing, and shaded amenities to enhance the pedestrian experience. It will have sidewalks for pedestrians, designated lanes for bicycles, and two lanes for trolley, public trams, emergency vehicles, service vehicles and limited automobile access. It will have areas of shade, rest, observation and public art to make the experience varied and enjoyable. Vehicular traffic will be 15 mph speed controlled and safe, pedestrian crossings will be offered. There will be no parking along the Bridge Approach or at the Pyramid.
A lower level for recreational fishing will be placed on the north side of the approach near water level. It will have accessible ramp access to a bait and tackle shop. It will be connected to the upper level for convenience, access to restrooms, drinking fountains and transportation.
THE PIER APPROACH
THE NEW ST. PETE PIER
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SHADED TRAM STOP
BAYVIEW STEPS
CYCLING PATH / SECONDARY PEDESTRIAN PATH
PRIMARY PEDESTRIAN PATH
OVERWATER DRIVE
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ACTIVITIES | BAYVIEW STEPS
Opportunities for shade, colorful planting and points of interest will engage pedestrians along the walk, making their journey to the pier a pleasurable experience.
Located a short walk away from Spa Beach on the north side of the Pier Approach, this terraced seating area provides a shaded place to stop and rest, read a book, and overlook the Bay and the Vinoy beyond. A Tram Stop is positioned at the top of the steps and a ramp to the fishing pier extends out below.
THE BAYVIEW STEPS
Lacey arbors covered with cape honeysuckle will provide shade to pedestrians on their way to the Pier head. We have also incorporated the use of artificial turf in selected areas to soften the hard surface experience of the Pier bridge and provide a continuation of the “park experience” out to the Pier head. Shade, colorful planting and points of interest will engage pedestrians along the walk, making their journey to the Pier a pleasurable experience.
SHADED PROMENADE
THE NEW ST. PETE PIER
THE BAYVIEW STEPS AND SHADED PROMENADE
THE NEW ST. PETE PIER
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TRAM STOP / OBSERVATION DECK
FISHING PIER
BAYVIEW STEPS
SHADED TRAM STOP
PRIMARY PEDESTRIAN PATH
CYCLING PATH / SECONDARY PEDESTRIAN PATH
OVERWATER DRIVE
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ACTIVITIES | FISHING PIER
A stable, wood decked fishing platform running parallel to the Pier Approach occurs on the north side. Accessed via an accessible sloping ramp on two sides, anglers can fish from a deck four feet off the water’s surface. A bait shop with concessions, restrooms and drinking fountains, is located at the east end of the fishing platform.
FISHING
Anglers can fish from a deck just four feet off the water’s surface.
THE NEW ST. PETE PIER
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BAIT SHOP / CONCESSION / RESTROOMS
PELICAN FEEDING
FISHING PIER
SHADED TRAM STOP
PRIMARY PEDESTRIAN PATH
CYCLING PATH / SECONDARY PEDESTRIAN PATH
OVERWATER DRIVE
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ACTIVITIES | BAIT SHOP
On the north side of the Approach, at the first vine covered arbor, you will encounter a Tram Stop, a terraced seating area overlooking the water, a marine discovery exhibit and a wooden boardwalk leading down to the fishing pier. Further along the path, at the second shaded arbor, a bait shop, concession stand, restrooms and another Tram Stop. From there, it is just a short way further to the main entrance of the Pyramid.
On the south side of the Approach, midway between Spa Beach and the Pyramid, is another shaded Tram Stop with benches.
BAIT SHOP / CONCESSION / RESTROOMS
As you walk toward the Pier Head, you will encounter a new, unique St. Petersburg experience every 60 seconds.
THE NEW ST. PETE PIER
Original model created by Harvard Jolly Architecture, 1968
The Pier Head has served for many years as the platform for over-water public gathering, "festival market" style retail space, and a tourist destination in downtown St. Petersburg.
A LINK TO THE PAST
T H E P I E R H E A D
THE NEW ST. PETE PIER
The Pier Head is a place for discovery, contemplation, entertainment, picnicking, and play. It is a destination that beckons patrons to explore further. If we want residents to frequent the New Pier then we must provide a design that can be experienced differently with each visit. Instead of one path provided around the current pyramid head we will have three levels, two stairs, and two ramps. Patrons will now have countless path combinations creating their own unique experience. Some may choose to stay on the Main Deck where it is partially shaded. Some may choose to be completely shaded at the lower Party Deck. Still others may select to get closer to the water at the Fishing Deck. As you continue your exploration new activities and spaces are revealed around every turn.
The New Pier Head will have a large circular opening around the base of the pyramid exposing the water below. This simplifies the new platform construction since pile driving under the pyramid overhang will be more challenging. There will now be an exciting view of the pyramid, emerging, as it were, from the Bay. This beneficially exposes the sea bed below to sunlight it has not experienced in over 80 years. The arrival platform will have three deck levels to provide views, activities and fishing from different heights. All deck levels are interconnected via stairs, accessible walkways and ramps and the existing Pyramid is connected to the Main Deck by two bridges which span across the large circular opening.
THE PIER HEAD
THE NEW ST. PETE PIER
PIER HEAD ARRIVAL AND THE SUNSET CAFÉ
THE NEW ST. PETE PIER
The Pier Head will be a place for observation, picnicking, rest and play.
The Main Deck will feature an information station, a souvenir concession, a bicycle-share area and a small event lawn.
MAIN DECK
The Party Deck will extend from below the main deck providing continuous shade around the pier head. Programming will include flexible performance space, an outdoor café, a kid zone and an open ice-cream parlor.
PARTY DECK
The Fishing Deck is the lowest level and closest to the water. To encourage fishing in this area we would like to explore an artificial reef utilizing some of the demolished concrete structure. Between the fishing deck and the Party Deck would be a Grand Hammock. The hammock is an opportunity to climb suspended over the water and a relaxing space to take in the view.
FISHING DECK
THE NEW ST. PETE PIER
Located on the Party Deck in the northwest corner, the Sunset Café provides a shaded, casual outdoor dining option. Enjoy a sandwich or a beverage and watch the sunset over the downtown skyline. Stairs lead up to the Main Deck and an information station. An accessible ramp can also be used to access the Main Deck.
THE SUNSET CAFÉ
Contemporary, casual, fun... "Let's meet at the Sunset Café."
Located on the Main Deck in the northwest corner, this info. booth will provide an important meeting spot and place for visitors to get information about daily events and special activities at the Pier.
THE INFORMATION STATION
PARTY DECK
MAIN DECK
THE NEW ST. PETE PIER
At the Pier Head, a lower level for recreational fishing will be placed on the southeast side of the Head, also near water level. It will be connected to the Party Deck level via two accessible ramps which provide access to restrooms, drinking fountains and a souvenir stand.
THE FISHING DECK
Relax, smile, take a photo, make a memory...
Suspended between the Fishing Deck and the Party Deck is the Grand Hammock, a heavy duty netting made of a stainless steel inner layer and a woven synthetic outer layer. The hammock is an opportunity to climb suspended over the water and a relaxing space to take in the view.
THE GRAND HAMMOCK
THE NEW ST. PETE PIER
THE PARTY DECK RAMP TO FISHING DECK
THE NEW ST. PETE PIER
THE GRAND HAMMOCK AND FISHING DECK
THE NEW ST. PETE PIER
Located on the Main Deck in the northeast corner, this 3,000 sf open air, synthetic turfed lawn provides a soft area for spontaneous play, private relaxation, or yoga classes at Sunrise. A stair or ramp leads down to the Ice Cream Shop on the Party Deck below.
SLOPED EVENT LAWN
Multiple levels connected by stairs and ramps provide event space, picnic areas and dining options.
Located on the Party Deck in the northeast corner, the ice cream shop recreates the special memories of yesteryear. A stair leads up to the Sloped Event Lawn above. Alternatively, you can stroll up an accessible ramp
ICE CREAM SHOP
THE NEW ST. PETE PIER
THE SLOPED EVENT LAWN AND STAIR DOWN TO ICE CREAM SHOP AND FISHING DECK
THE NEW ST. PETE PIER
ICE CREAM SHOP AND STAIR UP TO SLOPED EVENT LAWN
THE NEW ST. PETE PIER
VIEW FROM THE WATER SHOWING INVERTED PYRAMID, DECKS, AND ICE CREAM SHOP
THE NEW ST. PETE PIER
With the emphasis of the Pier design being around and on the water, it was natural to have a waterfall element inside the original Inverted Pyramid. A ring of water, creating a cylindrical waterfall at the center of the building, connected the first and second levels.
A LINK TO THE PAST T H E S T . P E T E P I E R W A T E R F A L L S
Original interior waterfall designed by Harvard Jolly Architecture, 1973
THE NEW ST. PETE PIER
PUBLIC ART
This large waterfall is just one of the rewards at the end of your stroll out to the Pier Head. It is the must see event. We envision that the waterfall system on the west side of the Pyramid would operate a minimum of once per day for example at noon or sunset. It could potentially be more frequently used on weekends, holidays, and special events. Like the glittering lights of the Eiffel Tower in Paris or the Belllagio fountain in Las Vegas, this special event will become a much anticipated occurrence that will beckon visitors of all ages to stay and enjoy the spectacle.
SKY DECK WATERFALL
A second waterfall feature will be positioned along the pedestrian bridge leading to the west side of the Pyramid’s Main Entrance. This system will run continuously during operating hours and give visitors the opportunity to stroll between two walls of water.
ENTRY BRIDGE WATERFALL
What force of nature captures the senses, ignites the imagination, and attracts your attention more than a large waterfall? At the new St. Pete Pier, you will feel the cool breeze created by falling water and hear the soothing sound of water falling into the Bay below. Now imagine a waterfall that can also be used as a canvas for video and light – which would be large enough to be visible from the entire waterfront. Artists can transform this water canvas into St. Petersburg’s largest interactive Public Art piece. The opportunities are endless: video mapping shows, light displays, movies, or temporary large scale image projections. We envision the waterfalls as an integral Public Art component that brings together St. Pete’s two greatest attractions: Art and Water.
THE ST. PETE PIER WATERFALLS
THE NEW ST. PETE PIER
ENTRY BRIDGE WATERFALL
THE NEW ST. PETE PIER
The innovative design of the inverted pyramid was born from practical and functional considerations. The goals were to provide expansive views to the water and the city beyond, as well as create a large observation deck at the highest level. The economic solution to minimize the building’s footprint at the lowest level was obtained by penetrating through the platform with four closely spaced caissons. The result was the now iconic building form.
A LINK TO THE PAST
T H E I N V E R T E D P Y R A M I D
THE NEW ST. PETE PIER
Prominent on our skyline, an exclamation point at the end of our Pier and extending out into the Bay, the Inverted Pyramid will continue to be a symbol for our community. Audiences of all ages will be drawn to explore and enjoy this destination. The re-imagined Inverted Pyramid will become a timeless centerpiece of the new Pier and Downtown waterfront experience, allowing once again for the most powerful views of our beautiful home.
The Pyramid is not just a symbol for our city – it is a representation of our people and a powerful physical presence on our waterfront. Many of us have fond memories of events at the end of the pier, of wonderful times spent as a child, with a family member, or as a solitary explorer, and it is our belief these fond memories will be enhanced with a revitalization.
THE INVERTED PYRAMID
The Pyramid will become, once more, a platform for our city’s continued growth and development.
THE NEW ST. PETE PIER
The existing first level of the inverted pyramid is below the new FEMA flood plane elevation, and will be abandoned and demolished. Therefore, what was the second floor will become the new first floor, or Main Deck level.
The new first floor will offer visitors a dramatic visual connection to the water below via a circular opening in the floor covered with structural glass. A beautiful winding stair will connect to the floors above. Access to new public restrooms, high speed elevators and fire egress stairs will also be provided.
FIRST LEVEL
FIRST LEVEL
THE NEW ST. PETE PIER
The new second level will offer flexible event space with expansive views to the downtown waterfront and Tampa Bay. Visitors will be able to gain access to this level via the winding stair or high speed elevators. The atrium space created by the opening for the winding stair will create a visual connection between all three levels, making for a grander experience.
SECOND LEVEL
SECOND LEVEL
THE NEW ST. PETE PIER
SECOND LEVEL VIEW TO THE DOWNTOWN WATERFRONT
THE NEW ST. PETE PIER
The new third level will offer even more flexible event space with expansive views all along the perimeter. Even from this level, visitors will still be able to visually connect with the water below via the atrium.
THIRD LEVEL
THIRD LEVEL
THE NEW ST. PETE PIER
The Sky Deck is the community’s observation level, open and free to all visitors. It will offer open-air panoramic views of the downtown waterfront and Tampa Bay. The new roof structure will provide much-needed relief from direct sun exposure and the occasional rain shower. Visitors will see and hear the flow of water from the Sky Deck Waterfall along the western edge. In addition to observation, visitors will have access to dining and refreshment options. An Event Oculus on the east side makes an ideal space for weddings or other significant occasions.
FOURTH LEVEL SKY DECK
FOURTH LEVEL SKY DECK
THE NEW ST. PETE PIER
FOURTH LEVEL SKY DECK VIEW TO SOUTHEAST
THE NEW ST. PETE PIER
EVENT OCULUS AT THE SKY DECK
THE NEW ST. PETE PIER
EVENT OCULUS AT THE SKY DECK
THE NEW ST. PETE PIER
The new roof is solid except for an open framework along the perimeter. The smaller, center portion of the roof will house the building's mechanical system equipment, screened from view.
FIFTH LEVEL
A geothermal pond loop design serves as the cooling medium for the building. Using the Bay seabed under the Main Deck and around the caissons as a heat sink, the system transfers the low temperature of the seabed to help cool the building which drastically reduces energy costs.
Measured Bay bottom temperatures at the 12-foot depth near the Pier ead location indicate a temperature delta sufficient to use this cooling source more efficiently than would either classic cooling towers or air exchange systems, posing no environmental problems while reducing electrical power use.
MECHANICAL SYSTEMS DIAGRAM
THE NEW ST. PETE PIER
VIEW FROM VINOY PARK
THE NEW ST. PETE PIER
The Inverted Pyramid design is a unique environment that can accommodate a variety of tenants. The space is flexible, open, and has beautiful panoramic views of the water and skyline. We envision the possibilities of a Marine Discovery Center or a Glass Museum or an Event Space. The Sky Deck is a perfect opportunity for not only observation, but also an indoor and outdoor restaurant.
Anchor tenants in the Inverted Pyramid would provide their own interior fit-out, equipment, furnishings, sprinkler modifications, electrical and HVAC connecting to connect to the infrastructure already provided within the cores of the Inverted Pyramid for power, data, fresh air, return air and coolant/heating. Infrastructure will be provided for those outside the Inverted Pyramid.
LINK TO THE FUTURE ANCHOR TENANT OPPORTUNIT IESMarine Discovery Center |
Glass Museum |
Event Space |
Sky Deck Restaurant |
FIRST LEVEL
SECOND LEVEL
THIRD LEVEL
THE SKY DECK
THE NEW ST. PETE PIER
The Inverted Pyramid is ideal to function as a home for an environmental education element/interactive marine discovery center. This tenant option could occupy levels one, two and three and include aquaria and rotating interactive educational exhibits that build awareness for marine life and sustainability.
MARINE DISCOVERY CENTER
THE NEW ST. PETE PIER
LEVEL THREE
LEVEL TWO
LEVEL ONE
THE NEW ST. PETE PIER
"SCIENCE ON A SPHERE" INTERACTIVE MARINE SCIENCE EXHIBIT
THE NEW ST. PETE PIER
Another potential educational opportunity could be the story of glass, water and sand, all of which are found in great quantities here in St. Petersburg. Glass, a stable liquid, is made from sand. This sand works its way from the Gulf to create our beaches. One possibility could be a museum featuring the art and science of glass. This would be appropriately located within an inverted pyramid of glass.
GLASS MUSEUM
Elixir Amber Majestic Chandelier FIRST LEVEL
THE NEW ST. PETE PIER
Kiln Fired Glass Sculptures by Crispian Heath SECOND LEVEL VIEW TO THE DOWNTOWN WATERFRONT
THE NEW ST. PETE PIER
The Inverted Pyramid's design could serve as an event space for a variety of activities. The 360-degree views of the waterfront and downtown St. Pete could make this a premier destination. Events such as dancing, receptions, gallery exhibits, auctions and other fundraising events would fit ideally in this space.
EVENT SPACE
FIRST LEVEL
THE NEW ST. PETE PIER
EDUCATIONAL EVENT
THE NEW ST. PETE PIER
The air-conditioned Sky Deck Restaurant offers a unique dining experience. Tables, booths, indoor and outdoor bars and two private dining areas can accommodate 175 people. The curvlinear floorplan complements the geometric shape of the Inverted Pyramid. The floor-to-ceiling glass offers impressive views of the downtown skyline.
SKY DECK RESTAURANT
FOURTH LEVEL
THE NEW ST. PETE PIER
SKY DECK RESTAURANT
SITE PLANSITE CIRCULATIONSITE TRANSPORTATIONSERVICE ROUTES
CONNECT
CONNECT
The success of the new Pier project will lie in its ability to connect the downtown waterfront to the Uplands and Spa Beach, Spa Beach to the Pier and more importantly, the residents of St. Pete to the water. Our design provides multiple levels of connectivity through the use of existing Trolley services and a new City provided tram (similar to those at Disney World). It also provides the ability to safely access the end of the Pier using a personal vehicle, a bicycle, a segway, or by foot.
CONNECT
CONNECT
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MUSEUM OF HISTORY
MARINA PARKING
DOLPHIN PARKING LOT
TRANSIENT VISITOR DOCK
PELICAN PARKING LOT
SPA BEACH GRILL / BOARDWALK
PING PONG / CHECKERS/ CHESS
PLAYGROUND
EXTENDED BEACH / VOLLEYBALL / BOCCEE
ROCK WALL / KAYAK CONDOS
SHADED TRAM STOP / BAYVIEW STEPS
OBSERVATION REST STOP/SHADED TRAM STOP
FISHING PIER
BAIT SHOP / SHADED TRAM STOP
PYRAMID ARRIVAL
INFORMATION HUT / SUNSET CAFE
GRAND HAMMOCK / CHILDREN’S AREA
PYRAMID
FISHING DECK
SMALL EVENT LAWN
SITE PLAN
CONNECT
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FIRST AVENUE N
CENTRAL AVENUE
PEDESTRIAN CIRCULATION
CAR CIRCULATION
LOOPER CIRCULATION
BOAT CIRCULATION
TRAM CIRCULATION
BIKE CIRCULATION
SERVICE + EMERGENCY CIRCULATION
VERTICAL PEDESTRIAN CIRCULATION POINTS
PARKING LOTS + DROP OFF AREAS
LOOPER STOPS
BOAT DOCKS
TRAM STOPS
SERVICE + EMERGENCY PARKING
URBAN CONNECTION
CONNECT
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PRIMARY CIRCULATION PATH
SECONDARY CIRCULATION PATH
STAIRS TO SUNSET CAFE
SMALL EVENT LAWN STAIR
SW CORNER RAMP
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CONNECT PEDESTRIAN
CONNECT
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1090 ft radius
4 min 820 ft radius
3 min 550 ft radius
2 min 280 ft radius
1 min
5 min 1270 ft radius
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WALKING DISTANCE RADIUS @ 3 MPH [IN MINUTES AND FT]
BEACH VOLLEYBALL
BOCCE BALL
PICNIC
PLAYGROUND
PING PONG / CHESS / CHECKERS
SPA BEACH
SPA BEACH GRILL
TRAM STOP
CLIMBING WALL / KAYAK CONDOS
SHADED TRAM STOP / BAYVIEW STEPS / MARINE DISCOVERY EXHIBIT
SHADED TRAM STOP
FISHING PIER / PELICAN FEEDING
BAIT SHOP / SHADED TRAM STOP / TOILETS / CONCESSION
PIER HEAD ARRIVAL / TRAM STOP
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CIRCULATION PEDESTRIAN - 5 MINUTE ANALYSIS
CONNECT
3168 ft radius
1056 ft radius
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CENTRAL AVENUE
EXISTING CYCLING TRAILS
SECONDARY CYCLING LANE
PRIMARY CYCLING LANE
= 1 MIN RIDE @ 10 MPH
= 3 MIN RIDE @ 10 MPH
1056 ft
3168 ft
CONNECTION BIKE
CONNECT
440 ft radius440 ft
radius
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TRAM ROUTE
MUSEUM OF HISTORY STOP
BEACH DRIVE PARKING STOP / DOLPHIN PARKING LOT
PELICAN PARKING STOP
FISHING PIER STOP
OBSERVATION REST STOP
BAIT SHOP STOP
PIER HEAD ARRIVAL STOP
= 1 MIN RIDE @ 5 MPH
CONNECTION TRAM
CONNECT
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ROAD
HISTORY MUSEUM DROP OFF AREA
DOLPHIN PARKING LOT
MARINA PARKING
PELICAN PARKING LOT
PYRAMID DROP OFF AREA AND VALET
PARKING
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CONNECTION CAR
CONNECT
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LOOPER ROUTE
ST. PETE COLLEGE STATION
CHAMBER VISITOR CENTER / SUNDIAL STATION
HAMPTON INN & SUITES STATION
SUNDIAL STATION
MUSEUM OF FINE ARTS / PARKSHORE GRILLE
BEACH DRIVE PARKING STATION
DOLPHIN DRIVE PARKING STATION
PYRAMID STATION
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CONNECTION LOOPER
CONNECT
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EMERGENCY + SERVICE ROUTE
SERVICE TO SPA BEACH GRILL
SERVICE TO BAIT SHOP
SERVICE TO SUNSET CAFE
SERVICE TO PYRAMID AND PIER HEAD
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CONNECTION SERVICE EMERGENCY
CONNECT
CONNECTION BOAT
THE NEW ST. PETE PIER | TECHNICAL
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PROPOSED SCHEDULE
January February March April May June July August September October November December
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52Construction2017
January February March April May June July August September October November December
Close Out
Grand Opening
Public Input
Council Approval
Schematic Design
Pricing
Permitting
DD
Basis of Design
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Permit Agency - Final Approval & Issuance of Permit
Design Development cont’d.
Pricing
Construction Document Phase
January February March April May June July August September October November December
Final GMPCouncil GMP
Approval
Construction
2016
Negotiate AE Contract
2015
Council Approval and AE Contract
WATERFALLSENVIRONMENTAL PERMITTINGLIFE SAFETY AND CODESSTRUCTURALHVAC AND ELECTRICALBUDGET AND SCHEDULEPHASING
TECHNICAL
TECHNICAL
The pumps, piping, jet spray lighting and equipment for all waterfalls will be heavy duty and rated for salt water continuous use. The pumps and their fittings will be constructed of heavy duty, non-corrosive, non-eroding parts found in off-shore oil rigs. They will be protected by common suction debris screens to meet regulatory size requirements with a separate screen washing pump system to regularly keep screens clean. The pumps will be a submersible type and employ a heavy duty, vertical
rail system, integrated into the design of the structure, to allow for servicing from the pedestrian bridge. The pumps will be located in deep water to protect from storm surges, but high enough to minimize engagement with suspended particles. Water streams will be canted slightly outward to increase wind resistance. Spacing and nozzle size will be tested during the design stage.
WATERFALL EQUIPMENT
This large waterfall is just one of the rewards at the end of your stroll out to the Pier Head. It is the must see event. We envision that the waterfall system on the west side of the Pyramid will be programmed to operate only one time per hour, on the hour, for 10 minutes in duration. Like the glittering lights of the Eiffel Tower in Paris or the Bellagio fountain in Las Vegas, this special event will become a much anticipated occurrence that will beckon visitors of all ages to enjoy the spectacle.
• The waterfall system will consist of an overflow trough at guardrail height on the west side of the top level Sky Deck observation platform. The trough is approximately 164’ long and is set 65’ above sea level.• The overflow trough is fed from 3 separate pumps into a narrow trough that feeds a series of 1” streams of water spaced at perhaps 2” on center. The pumps will operate 3 separate sections of the trough, the 2 ends and the middle, allowing numerous opportunities for customization. • The pumps will be programmed to operate one time per hour, on the hour, for 10 minutes in duration. This will be repeated on a specific schedule as desired and could run for longer periods of time during special events or holidays. • Estimated pump flow is 9,000gpm = (3) x 90 hp pumps. Each pump requires a 14” supply pipe and the multiple pumps provide redundancy.• A wind sensing system will monitor wind speeds and direction and will be interfaced with each of the 3 pumps so that in high or problematic wind conditions, the pumps shut off. The estimated wind threshold before turning off is 15 mph. The pump that operates the middle section, located above the pedestrian bridge, will have an even lower wind threshold.
SKY DECK WATERFALL
A second waterfall feature will be positioned along the pedestrian bridge leading to the west side of the Pyramid’s Main Entrance. This system will run continuously during operating hours and give visitors the opportunity to stroll between two walls of water.
• The waterfall system will consist of an overflow trough at bridge deck level on either side of the guardrail. Each trough is approximately 100’ long, with water falling approximately 24’ to the sea level below.• The overflow troughs are fed from 3 separate pumps below into a narrow trough that feeds a series of 1” streams of water spaced at perhaps 2” on center.• Pumps will be programmed to operate perhaps up to 16 hours per day as desired.• Estimated pump flow is 6,000gpm = (3) x 30 hp pumps. Each pump requires a 12” supply pipe and the multiple pumps provide redundancy.• A wind sensing system will monitor wind speeds and direction and will be interfaced with the bridge pumps so that in high or problematic wind conditions, the pumps will shut off. The estimated wind threshold before turning off is 20mph for the Entry Bridge Waterfall.
ENTRY BRIDGE WATERFALL
TECHNICAL
Plants have been selected to fit perfectly with the geographical area and the specific micro climates afforded by exposure to the conditions of Tampa Bay. We have utilized native or adapted species of plant materials (preferred list attached) appropriate for their location, their aesthetic and growth characteristics, their utility, their maintenance requirements and their sustainability.
Specifically, the Plan’s landscape design maintains the allée of podocarpus street trees that line Second Avenue N.E. These trees are healthy and have been a part of the historic fabric of the Pier approach for decades, originally decorated by businesses during the Winter Holiday season over 70 years ago. We have also been sensitive to retaining as many oak trees on site as possible, designing around major trees and transplanting smaller ones. We have used retaining walls, tree wells, site configuration, and other methods to ensure these trees will remain healthy and provide shade for many years to come. Walkways are shaded with tree foliage on the upland. Clusters of native ornamental trees and palms have also been employed to visually link introduced elements to the park fabric.
ST. PETE’S WATERFRONT ECOLOGY
The design team understands that specific conditions of the environmental resource permit may require water quality monitoring during demolition of the existing pier and construction of the new pier which will be managed through temporary mixing zones and/or sediment/turbidity barriers that are safe for manatees and other wildlife. Turbidity monitoring may also be required at various sampling locations within pre specified construction zones during the pier demolition, new pier construction and airport shoreline stabilization as appropriate. Despite these temporary, construction related activities, the design team anticipates a net environmental benefit as a result of the new pier design and therefore does not anticipate any permitting obstacles that would inhibit construction of the proposed design by the St. Pete Design Group.
ENVIRONMENTAL PERMITTING
A Commercial Dock Permit from Pinellas County will be required for the replacement of the existing Pier. The Project will be reviewed for environmental impacts, navigational impacts, construction requirements, as well as consistency with the Water and Navigation Code. Our design has a smaller overall footprint, fewer piles, and less area square footage when viewed as a 2-dimensional elevation meaning that current navigational views are not negatively compromised.
PINELLAS COUNTY DOCK PERMIT
The free-standing glass entry canopy will protect visitors from the Sky Deck Waterfall, which will run intermittently. A freshwater rinse along the top leading edge of the canopy will operate immediately after each waterfall event, to clean the glass and seals of saltwater residue.
ENTRY CANOPY MAINTENANCE
8726520, St. Petersburg, FLNOAA’s Published Rate: 0.00774 feet/yr
All values are expressed in feet relative to LMSLYear USACE USACE USACE
Low Int High 2015 0.18 0.23 0.372020 0.22 0.29 0.512025 0.26 0.35 0.662030 0.29 0.42 0.832035 0.33 0.50 1.022040 0.37 0.58 1.232045 0.41 0.66 1.452050 0.45 0.75 1.702055 0.49 0.84 1.962060 0.53 0.94 2.242065 0.57 1.04 2.542070 0.60 1.14 2.862075 0.64 1.26 3.202080 0.68 1.37 3.552085 0.72 1.49 3.932090 0.76 1.61 4.32
TECHNICAL
Tampa Bay is a climate ready estuary. This designation by the United States Environmental Protection Agency means that the local scientific community is committed to studying the potential effects of climate change, including sea level rise, and adopting policies that include planning and adaptation for the potential that sea levels will continue to rise into the foreseeable future. The National Oceanic and Atmospheric Association (NOAA) and the United States Army Corp of Engineers (ACOE) have been developing computer models to predict sea level rise at various locations throughout the contiguous United States. One such tool developed by the ACOE uses local, empirical tide gauge information to predict local effects of sea level rise under various climate scenarios. This tool has been accepted by the FDOT and the Southwest Florida Water Management District.
Using a start date of 2015 and an expected life until 2090 for the outputs below, one can see that the expected sea level rise at the St. Petersburg Pier by 2050 would be approximately 0.75 feet but may be as high as 1.7 feet if using the higher estimates. By 2090, sea levels may be as high as 4.32 feet above current levels. The choice of estimate used depends on the risk tolerance the user is willing to accept for planning purposes but using even the highest estimates, our proposed design elevations are well above the projected sea level rise estimates under the worst case scenario and further include a margin of error for additional storm surge.
SEA LEVEL RISE
TECHNICAL
team will work in collaboration with the local Building and Fire authorities in St Petersburg to develop a design which meets the needs of all those interested parties.
ADDITIONAL CODE COMMENTARYBecause of its variable programming, there will be special events at which more than 300 congregate in a single area, however, the Pier will be closed when wind speeds reach Tropical Storm Force levels (39 to 73mph). The Pier is not an essential facility and has no emergency, defense or strategic function, however, the 2014 Florida Building Code uses the Risk Category for determining the seismic design category, which will be a requirement in Florida with the new code. Seismic events cannot be planned for or evacuated prior to. Our team believes it is safe and prudent to opt for a higher occupancy and risk category classification for the new Pier. For these reasons, our design adheres to the requirements of a Risk Category III structure.
• The bottom of the lowest horizontal structural member (pile cap) of an occupied level will be 1-foot or more above flood level.
• Wind loads will correspond to an ultimate basic wind speed of 155 mph (3 sec peak gust). ASCE 7-10 wind pressures will be calculated using Exposure D.
• A Performance based Life Safety evaluation will utilize the Stranded Crowd Model. Performance data obtained will be evacuation flow rates, total evacuation time, etc.
• Number of occupants will be calculated based on “performance based” evaluation.
• Computer Model Input Data: Occupant Load, total egress width, travel distance to exit, demographics, occupant with attributes based upon US Census Data, etc.
• The entire project will meet or exceed all Americans with Disabilites Act Guidelines.
• All pedestrian circulation areas are accessible and
utilize a maximum slope of 1:20. The fishing pier on the north side of the Pier Approach is also accessible via ramps which utilize a 1:12 slope.
• 20-foot minimum clear width for vehicles is provided along the Approach and all around the Pier Head.
• A minimum of 13’-6” clear height is provided along all points of the Pier for Fire Truck access.
• The portions of the pier open to limited vehicular access are designed for a single 36 ton vehicle.
• All minimum required turning diameters are provided.• There will be no docking space provided for motorized
boats along the Pier Approach or at the Pier Head. • All parts of the Pier will be within 150 ft of a fire hydrant
or a standpipe.• All internal buildings and enclosed areas will be
provide with an automatic fire suppression system. • Fire Suppression Hoods will be provided at the
Restaurant, the Sunset Café and the Spa Beach Grill.• All structural components at the Pier Head, in the
Pyramid and structural elements that support vehicular use, are noncombustible.
• No permanent or “removable” barriers will separate Fire Dept. vehicles and those evacuating which would constrain egress and slow evacuation.
• Break-Out areas along the Approach will provide “areas of refuge” where persons can get out of the way of moving pedestrians and moving vehicles.
• The Pier will be provided with a Public Address System which will give both prerecorded and emergency messages as well as “live directives”.
• The Pier Building is classified as Assembly. The Pier Head and Pier Approach are classified as Outdoor Assembly – other uses such as Retail, Toilet Rooms and Storage are Accessory Uses.
• Handrail loads will be rated for pedestrians and for vehicles where appropriate.
As a large scale public assembly facility, maintaining the highest levels of occupant safety and comfort will be a crucial aspect of the designs philosophy. The key focus of this strategy will be the ability for all occupants of the pier to evacuate in a safe and timely manner should any emergency condition occur – be this a fire, adverse weather or any other ‘extreme’ event.
The projects fire & life strategy will be based upon the ability of occupants to egress any enclosed spaces/buildings on the pier, out onto the exterior pier walkways which will be classified as an ‘area of relative safety’, while allowing emergency responders sufficient space and facilities to quickly and efficiently access the pier and its buildings to conduct any necessary rescue or fire-fighting activities. Such an evacuation will be initiated by a pier wide Public Address System which will have the ability to provide both pre-recorded messages as well as ‘live directives’ from the agency leading any emergency response.
The new pier will comply with all necessary local Building and Fire related codes for assembly buildings as well as adopting best international practice and performance based design where considered necessary in order to enhance the level of safety for the pier’s occupants. Such performance based strategies may include the use of people flow and evacuation modelling of the pier’s population (particularly in high visitor conditions such as July 4th or New Year’s Eve for example) and computational Fluid dynamic (CFD) smoke modelling of realistic fire conditions. The use of people flow modelling will enable, via the use of a ‘performance based evaluation’ the team to establish a ‘reasonable’ time period within which the pier structure should be entirely evacuated which will inform egress widths and travel distances for the project.
As the key element of the scheme, the inverted pyramid, will be the most densely occupied area of the pier and therefore a central focal point of the projects fire
strategy. Designed as a sprinkler protected assembly building, the inverted pyramid will be provided with a series of separated, and fire protected, egress routes that will enable occupant discharge onto the pier in a number of locations thereby providing redundancy and diversification of the building’s egress provisions. With the inverted pyramid containing open stairs creating connections between adjacent floors, which could provide a route for smoke spread within the building, it will be essential to demonstrate that this will not hinder an occupant’s ability to utilize the building’s protected means of egress. In order to achieve this, a CFD analysis of the space will be conducted to reinforce the Building Code’s atrium design requirements and to demonstrate that a high standard of occupant safety has been fully integrated into the design.
Efficient access to the pier, and hence to the inverted pyramid, for emergency vehicles and First Responders is considered an essential element of the projects emergency strategy. Roads and access routes on the pier will be of sufficient width (min. 20’-0” clear width and 13’-6” clear height) and capacity (32 tons) to accommodate those emergency vehicles expected on site and roadways will be located such that the most direct access to building’s can be made. Where turning facilities are required, the appropriate turning radius for vehicles required to access the pier will be provided in addition to a series of ‘break-out’ areas along the piers approach road will can be used as areas where pedestrians can move to one-side to allow the passage of emergency vehicles. Once on the pier, First Responders will have access to a network of fire-fighting water supplies with all parts of the pier being within 150ft of a fire hydrant or a standpipe to allow rapid deployment of resources.
The development of a fully cohesive and coordinated fire & life safety strategy for a project of this nature is complex and requires input from many stakeholders. The design
LIFE SAFETY FIRE STRATEGY NARRATIVE
TECHNICAL
The wind speeds currently specified for design of new buildings by the 2010 Florida Building Code, and the upcoming 5th edition of the FBC, are higher than those used for building design when the original Pier structure was designed circa 1969-70. Based on our preliminary analysis, the existing base columns and foundations have sufficient capacity to resist today’s code wind loads. With the unique geometry of the building frame, there are many more framing members, such as the perimeter angled columns and floor struts, that transfer lateral wind forces from the upper floors into the foundation. All of the framing members will be checked for all current code wind, as well as dead and live load forces, using the finite element analysis software SAP 2000.
As this building has a unique geometry with sloped rather than vertical walls collecting wind load, and the wind pressures calculated by the equations in the building codes are historically conservative as they are intended to apply to many different building geometries, we will recommend obtaining a wind tunnel study to determine more accurate design wind pressures for this building. Wind tunnel studies, which consist of placing a scale model of the proposed building inside a wind tunnel and measuring the actual pressures at numerous places on the building surface, are widely recognized as the most accurate method for determining wind pressures on a building. This study will prevent an overly conservative analysis of the existing building frame (which may show existing members need to be strengthened when they don’t), and optimize the design of the perimeter glazing allowing as thin a system as possible.
STRUCTURAL CODE COMPLIANCE
Our preliminary structural analysis has shown that there is reserve capacity in many of the existing column and angled strut steel framing members. The structure has the capacity to support the proposed added roof level. A detailed structural model will be created to thoroughly analyze the existing and new framing using SAP 2000, a State-of-the-Art analytical computer software program, to confirm that all framing members can support the new loads. Any isolated members or connections that do need to be strengthened due to new stresses will be done so locally in the areas identified by our analysis.
STRUCTURAL DESIGN STRATEGY
Structural engineering codes governing the project include:
• Florida Building Code (2010) – Chapter 16 (Structural Design)
• FDOT Standard Specifications for Road and Bridge Construction
• AASHTO LRFD Bridge Design Specifications, 6th Edition (2012)
• AASHTO LRFD Guide Specifications for Design of Pedestrian Bridges, 2nd Edition (2009)
• City of St. Petersburg Engineering Design Standards• City of St. Petersburg Codes and Ordinances• FAA Height Regulations for Albert Whitted
Municipal Airport• OSHA Regulations• ACI – Design of Concrete Structures• Precast Concrete Institute Bridge Design Manual
STRUCTURAL CRITERIA
TECHNICAL
Our structural design approach involves reusing the existing framing, and introducing several features that will modify the structure, including adding a roof over the level four observation deck and inserting a new central spiral stair connecting the first three levels.
Our preliminary structural analysis has shown that there is reserve capacity in many of the existing column and angled strut steel framing members. The structure has the capacity to support the proposed added roof level. A detailed structural model will be created to thoroughly analyze the existing and new framing using SAP 2000, a State-of-the-Art analytical computer software program, to confirm that all framing members can support the new loads. Any isolated members or connections that do need to be strengthened due to new stresses will be done so locally in the areas identified by our analysis.
INVERTED PYRAMID STRUCTURE
TECHNICAL
1.c.a. Occupancy Group A-3. Types of uses: Event Space, Museum and Restaurant. Retail is accessory to Museum use. Assembly use indicated in Project Narrative under “Life Safety Fire Strategy Narrative” and “Additional Code Commentary”.
1.c.b. Proposed Finished Floor Elevation (NAVD 88): The existing first floor is below the FEMA flood elevation and will be demolished. Our new first floor is the existing second floor which is considerably above the FEMA flood elevation. A survey will need to be performed to document the exact elevation. Compliance with Chapter 16 FBC and ASCE 24-05 included in Project Narrative under “Structural Code Compliance” and “Additional Code Commentary”.
1.c.c. Occupant Load: Maximum occupant load of 510 occupants per floor based on prescriptive requirements for number of exits and egress capacity of stairs/doors. The Project Narrative indicates that number of occupants will be calculated based on performance based evaluation under “Additional Code Commentary”.
1.c.d. Vehicle Parking and delivery vehicle access is shown on diagrams.
1.c.e. Fire Department access is shown on diagrams.Environmental and Operating Impacts - Area Tabulations
1.d.e. Roof area of structures above pier deck level: 16,960 SF (excludes trellis)
1.d.f. Projected area of buildings/structures above pier deck level: 6,540 SF
1.e.a. Total area of air conditioned space proposed: 40,050 SF
1.e.b. Total area of proposed leasable space: 41,345 SF - Conditioned: 35,235 SF- Unconditioned (restaurant outdoor seating): 6,110 SF Total common area: 19,100 SF Total public area: - Conditioned (restrooms 1st & 4th floor & circulation to them only): 1,260 SF - Unconditioned (roof deck): 9,145 SF
1.e.e. Type and number of proposed elevators: 1 new elevator; 4 to be refurbishedNew elevator: Otis Gen2, 5510 LB capacity, 315 fpm speed
BUILDING AND FIRE OFFICIAL’S REQUESTED INFORMATION:
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TECHNICAL
The pier approach and pier head are located in a Coastal High Hazard Area and designated a Velocity Zone (VE). The based flood elevation is at 8 ft. The pier is located in a VE-8 flood zone.
June through November is hurricane season in the Atlantic Ocean and Caribbean Sea with the majority of hurricane activity occurring between August and October. Tampa Bay experiences effects of passing storms although it is uncommon for the area to receive a direct hit. The effect of these passing storms typically result with high winds, increased wave heights, flooding due to storm surge, and increased cross-shore sediment transportation rates. The 25 October 1921 “Tarpon Springs” storm was the last major hurricane to directly hit the St. Petersburg areas with wind speeds on approximately 115 mph at landfall.
Hurricanes and tropical storms consist of large wind fields driven by pressure gradients from a central low pressure and temperature gradients in the atmosphere. The winds from these events create storm surges by blowing the ocean water up against the coastline. Flooding results with a combination of a storm or tidal surge and high river stages from heavy rain. The severity of flooding is dependent upon the intensity of the storm event and its duration.
Forces due to wind, waves, and storm surge will directly impact the pier as it is located within the near-shore and surf zone areas. Longshore and cross-shore sediment transports are natural processes that occur at the project location. During storm events, cross-shore sediment transport rates are dominant, resulting in erosion as sand is deposited to offshore sandbars. The effects of this on the pier takes the form of scouring around the piles, with piles within the surf and swash zones being the most effected.
The Federal Emergency Management Administration (FEMA) P-55, Coastal Construction Manual, gives guidance on construction of residences in coastal areas. Though information pertaining directly to the design requirements of fishing piers is not provided, the content of the manual focusing on pile foundation design and the effects of and debris impact during storm events can be used in the design of the pile substructure. In general, the methods used to determine base flood elevations, wave heights and wave crest elevation, wave run-up, localized storm erosion, and impact loads can be used to determine conservative values for schematic design. These are found in Chapter 3 “Identifying Hazards” and Chapter 8 “Determining Site-Specific Loads”. Determination of the site-specific wave loads will be determined for the final design.
STORM LOAD CRITERIAWind load for the new pier shall be calculated based on the ASCE 7-10 standard utilizing Risk Category III and Exposure D. Dominant wind-generated wave heights and directions will be considered for design of the pier. Moffat and Nichol provided an Extreme Value Analysis of historical wind speeds from MacDill Air Force Base from 1941 through 2011, in their report entitled ‘St. Petersburg Pier Design competition Metocean and Structural Concept Level Design Basis’. It was reported the majority of wind comes from the East-North East with winds in excess of 30 mph occurring in some instance in all directions. This is attributable to the passing of hurricane or tropical storm events. Return periods for the 25, 50, and 100-year events found 10-minute winds speeds of 74, 83, and 92 mph, respectively. However, these values did not take into account wind direction and therefore the recurrence of directional extreme winds will be analyzed for the final design.
Waves found in Tampa Bay are either locally generated wind waves or offshore swells that enter the Bay from the inlets between Mullet, Egmont, Passage, and School Keys. Locally generated wind waves are the dominant waves that are expected to be found at the proposed pier location. Design wave heights will be calculated to include storm surge as this will occur during significant storm events.
WIND AND WAVE LOAD CRITERIA
Ardaman & Associates prepared a report, “Pier Development St. Petersburg, FL”, which assessed the geotechnical conditions and pier substructure in 1969. From conducting standard penetration borings, a general soil profile was interpreted and found to be uniform in texture and stratification. Terracon prepared a more recent report, “Geotechnical Engineering Report, The Lens, St. Petersburg, FL”, dated April 4, 2013 which assesses geotechnical conditions for design and construction of foundations for a new pier. These two site-specific geotechnical reports will be used for design of the proposed pier’s foundations.
GEOTECHNICAL CRITERIA
TECHNICAL
• FDOT Standard Specifications for Road and Bridge Construction
• AASHTO LRFD Bridge Design Specifications, 6th Edition (2012)
• City of St. Petersburg Engineering Design Standards• City of St. Petersburg Codes and Ordinances• OSHA Regulations• United Facilities Criteria (UFC) – Design of Pier and
Wharf Structures• Standard for the Construction and Fire Protection of
Marine Terminals, Piers, and Wharves – NFPA 307
The Florida Building Code stipulates that structures seaward of a coastal construction line (CCCL) need to respond to requirements for erosion, scour, and loads of a 100 year storm event including wind, wave, hydrostatic, and hydrodynamic forces acting simultaneously with dead and live loads. These requirements also indicate that all habitable major structures be elevated and anchored to an adequate pile foundation.
Although fishing piers are not considered to be a habitable major structure, their function is for human use. Chapter 62B-33, Florida Administrative Code (Rules and Procedures for Coastal Construction and Excavation) has specifically identified the minimum design storm event for pier construction. Rule 62B-33.007 (4) (k), Florida Administrative Codes states “Fishing or ocean piers or the extension of existing fishing or ocean piers shall be designed to withstand at a minimum the erosion, scour, and loads accompanying a 20 year storm event. Pier decking and rails may be designed to be an expendable
structure. Major structures constructed on the pier shall be design for the wind loads as set forth in the Florida Building Code. Pile foundations shall not obstruct the longshore sediment transport and shall be designed to minimize any impact to the shoreline or coastal processes.”
The Florida Department of Environmental Protection (FDEP) requires permits for construction seaward of the coastal construction control line and 50 foot setback. The general criteria for a coastal construction control line is described in the Florida State DEP 2012 Rules and Procedures for Coastal Construction and Excavation. “The beach and dune system is an integral part of the coastal system and represents one of the most valuable natural resources in Florida, providing protection to adjacent upland properties, recreational areas, and habitat for wildlife. A coastal construction control line is intended to define that portion of the beach and dune system which is subject to severe fluctuations caused by a 100 year storm surge, storm waves, or other forces such as wind, wave, or water level changes. These fluctuations are a necessary part of the natural functioning of the coastal system and are essential to post-storm recovery, long term stability, and the preservation of the beach and dune system. However, imprudent human activities can adversely interfere with these natural processes and alter the integrity and functioning of the beach and dune system. The control line and 50 foot setback call attention to the special hazards and impacts associated with the use of such property, but do not preclude all development or alteration of coastal property seaward of such lines.”
The proposed pier will be a pile supported structure designed to support loads similar to those of the existing pier. In the proposed design the pier approach and pier head are intended to be supported by circular 500 mm (19.7”) prestressed concrete spun-cast piles arranged in groups called bents. Pile bents for the pier approach are to be spaced at 60 feet on center and pile bents at the pier head are to be spaced at 30 feet on center. Select piles in each bent will be battered at approximately 15° to resist lateral forces. Further analysis will verify pile selection and pile layout for the pier.
The piles that will support the proposed pier must be engineered to withstand not only the dead and live loads of the pier but also the loads from hurricane winds, breaking waves, and lateral currents. Existing piles for current pier will not be used and new piles will be driven instead.
There are several pile type options that could be used to form the foundation of the pier, but circular prestressed concrete spun-cast piles have been chosen for the concept design. Concrete piles are reinforced to resist the bending moment developed during pickup and transportation, vertical load, and bending moment caused by lateral load. They can be subject to hard driving, can be easily combined with a concrete superstructure, and are corrosion resistant.
Pile caps will evenly distribute the concentrated loads from the superstructure of the pier to the supporting pile group. Orienting the caps transverse to the length of the
pier provides improved lateral stiffness for environmental forces experienced during hurricane and tropical storm events. Precast concrete pile caps expedite construction, but some conditions may dictate the use of formed and poured pile caps or that portions of precast pile caps be formed and poured. Formed and poured construction will be used for pile caps where alignment issues are a concern.
The deck of the pier approach and the sub-level of the pier head are to be constructed from a formed and poured concrete slab over concrete Florida I-Beams. The concrete Florida I-Beams are to bear on the concrete pile caps at each bent. The upper level of the pier head is to be constructed from a formed and poured concrete slab sitting directly on concrete piles and concrete columns. Consideration is being given to using precast plank with a topping slab in place of formed and poured slabs to expedite construction and to decrease construction costs.
GENERAL TECHNICAL SPECIFICATIONSThe project will be governed by many codes and standards as outlined below. The project shall have a design life of 75 years. The new pier shall be categorized as a Risk Category III structure.
Marine Engineering CriteriaMarine engineering codes governing the project include:
• Florida Building Code (2010) – Chapter 18 (Soils and Foundations) and Chapter 31 (Marine Structures)
MARINE PIER CONSTRUCTION
TECHNICAL
HVAC SYSTEM NARRATIVE
GENERAL CRITERIA
Air handling unit and coil selection criteria:• Maximum 500 FPM coil face velocity.• Maximum 1500 RPM fan speed.
DUCTWORK DESIGN CRITERIA:All ductwork shall be low-pressure ductwork and shall be constructed in compliance with SMACNA two-inch W.G. pressure class construction.Design maximum static pressure drop = 0.08” per 100 feet.• Maximum supply air velocity = 800 FPM • to diffusers shall be 350-400 FPM
RETURN AIR DUCTWORK AND OPENINGS:Design maximum static pressure drop = 0.08” per 100 feet (1000 TPM Max).Inside design conditions at the Pyramid: • 75°F DB summer • 50% RH • 72 °F DB winter
BUILDING CONSTRUCTIONS: • Wall R Value - 13• Roof R Value - 20• Glass Value - U value – 0.5/ SHGC = .25
VENTILATION REQUIREMENTS PER ASHRAE STD 62:• 17 cfm/person (combined rate) offices (Quantity
maybe reduced to a lower average CFM/person if ASHRAE std 62 guidelines are achieved).
• 9 cfm/person (combined rate) Assembly spaces (Quantity maybe reduced to a lower average CFM/person if ASHRAE std 62 guidelines are achieved).
• 5 cfm/person (combined rate) lobby (Quantity maybe reduced to a lower average CFM/person if ASHRAE std 62 guidelines are achieved).
• 0.06 cfm/square foot storage area.• 0.12 cfm/square foot shipping and receiving.
HEATING, VENTILATING, AND AIR CONDITIONING (HVAC)• The system will utilize a geothermal pond loop design
as the cooling medium for the building.• First Floor (Main Deck Level): HVAC System shall consist
of five draw-through, constant volume air handling units with variable flow direct expansion cooling coils capable of heating via heat recovery heat pump mode. One per AHU per exposure and one for handling outside air. Exhaust air energy recovery will be utilized based on the requirements of and/or exceeding ASHRAE Standard 90.1-2007. This will use the 75 degree exhaust air being taken from the building to pre-treat the incoming outside air to the multiple air handling units.
• Second Floor: HVAC System shall consist of six draw-through, constant volume air handling units with variable flow direct expansion cooling coils capable of heating via heat recovery heat pump mode. One per AHU per exposure, one for core area and one for handling outside air. Exhaust air energy recovery will be utilized based on the requirements of and/or exceeding ASHRAE Standard 90.1-2007. This will use the 75 degree exhaust air being taken from the building to pre-treat the incoming outside air to the multiple air handling units.
• Third Floor: HVAC System shall consist of eight draw-through, constant volume air handling units with variable flow direct expansion cooling coils capable of heating via heat recovery heat pump mode. One per AHU per exposure, two for core area and two for handling outside air. Exhaust air energy recovery will be utilized based on the requirements of and/or exceeding ASHRAE Standard 90.1-2007. This will use the 75 degree exhaust air being taken from the building to pre-treat the incoming outside air to the multiple air handling units.
• Fourth Floor: HVAC System shall consist of ten draw-through, constant volume air handling units with variable flow direct expansion cooling coils capable of heating via heat recovery heat pump mode. One per AHU per exposure, four for core area and two for handling outside air. Exhaust air energy recovery will be utilized based on the requirements of and/or exceeding ASHRAE Standard 90.1-2007. This will use the 75 degree exhaust air being taken from the building to pre-treat the incoming outside air to the multiple air handling units.
• Elevator equipment and Telecom Rooms will be provided with ductless air handling units utilizing variable flow direct expansion cooling.
• The HVAC system will be designed to keep the building under positive pressure. This minimizes the risk of infiltration of heat and moisture from the outdoors.
• Basis of Design: Samsung DVM S series water cooled AM condensing units and HSP AM series air handling units.
• Proposed tonnage: (note: all tonnage is nominal capacity. There is a possibility that the overall tonnage can be lowered with this option due to shifting of loads, but did not take that diversity at this time.):
o First Floor (Main Deck Level): Approximately 32 tons including outside airo Second floor: Approximately 50 tons including outside airo Third floor: Approximately 75 tons including outside airo Fourth floor: Approximately 100 tons including outside air
AIR HANDLING• Air handling systems will be separated into zones
according to their exposures and space layouts to provide comfort and the most efficient energy consumption.
• The system controls will provide for constant dehumidification.
• The air-handling units will be double-wall construction with 2-inch insulation, IAQ-type stainless steel insulated and slope drain pans, and 30% pre-filters.
CONDENSING UNITS• All the condensing units are water cooled.
OUTSIDE AIR• Ventilation for the building will be provided in
accordance with the recommendations prescribed in ASHRAE 62.1-2010 Standard.
• Ventilation for outside air in the building will be preconditioned air utilizing exhaust air energy recovery based on the requirements of and/or exceeding ASHRAE Standard 90.1-2007. This will use the 75 degree exhaust air being taken from the building to pre-treat the incoming outside air to the multiple outside air handling units. This design will be further defined during the design phase.
• The building ventilation will extend from wall mounted louvers in penthouse mechanical rooms.
• The outside air will be ducted to the floor 100% outside air. Constant outside airflow will be provided by using outside air measuring stations, return, and outside air dampers.
EXHAUST SYSTEMS• All toilets will be exhausted at a minimum rate of 2 CFM
per square foot. Spaces, which produce undesirable odors, will be exhausted from the building. Exhaust locations will be separated from outside air intakes by a minimum of ten feet.
• Exhaust system will utilize inline fans and louvers.• Fans will be protected by an architectural enclosure
in order to meet design wind criteria.
TECHNICAL
DUCTWORK• Ducting and air distribution shall be provided in the
future tenant portion of project.• The exhaust and outside air ductwork risers with
motorized dampers, smoke dampers and air monitor stations on a per floor basis from the ERV located in penthouse mechanical room the only required ductwork.
INSULATION• Per Florida Energy Code.• Ductwork will be wrapped, not lined.• Piping will be insulated with elastomeric insulation.
TEMPERATURE CONTROLS• The temperature controls for the system will be a
stand-alone control system utilizing a combination of BACNET and LonWorks open protocol systems.
• Humidity shall be monitored by a humidity sensor in each air handling unit return air duct to a maximum space humidity of 55% RH (adjustable). The control shall reset and override the air-handling unit cooling coil discharge air temperature to maximum cooling thereby, lowering the space humidity. The outside air dampers shall close during humidity override.
TEST AND BALANCE• Supply air, return air, exhaust air, and outside air will
be tested and balanced by a certified AABC or NEBB balancing agency.
SPECIAL SYSTEMS - ATRIUM: The Atrium will require two dedicated smoke exhaust fans. Approximately 120,000 CFM is anticipated, however, the size of this system will be determined as the design progresses by the life safety consultant.
PLUMBING SYSTEMSNote: it is assumed street water pressure is adequate to serve building.
DOMESTIC WATER• Isolation valves shall be provided to each plumbing
fixture, water heater, and kitchen/food preparation area.
• All domestic water piping shall be sized to deliver water to all plumbing fixtures utilizing a velocity of 4 FPS or less.
• Domestic hot water shall utilize solar collectors (three-four 4x8 collectors are estimated) with electric back up heat, and a hot water recirculation system.
• Piping shall be copper type L.
SANITARY WASTE• Above grade piping shall be no hub cast iron for
sanitary/vent and grease waste.• Below grade piping shall be Schedule 40 DWV PVC for
sanitary/vent and grease waste.• A 750 gallon concrete grease interceptor shall be
located on site.
HVAC SYSTEM NARRATIVE CONTINUED
PLUMBING FIXTURES• Water closets shall utilize low flow (1.28 GPF) automatic
(sensor operated) flush valves.• Urinals shall utilize low flow 1 pint type, automatic
sensor operated flush valves.• All lavatories shall utilize 0.5 GPM aerators with sensor
operated faucets.• ADA accessible fixtures shall be provided where
required.• All sinks shall be stainless steel with 2.0 GPM aerator,
single handle, and 8 inch swing spout faucets.
STORM WATER• Above grade piping shall be no hub cast iron for storm
piping system.• Below grade piping shall be Schedule 40 DWV PVC for
storm piping system if Rainwater Harvesting system is not anticipated.
• Primary and secondary roof drains shall be utilized to provide drainage for the roof system.
FIRE PROTECTION SYSTEMSThis facility will be protected throughout by a combination wet/pre-action sprinkler system in accordance to NFPA 1, NFPA 13, & NFPA 25, and all state and local codes. The sprinkler system will utilize the public water service.
SPRINKLER SYSTEM DESIGN CRITERIAAll enclosed spaces shall be 100% sprinklered in accordance with all current NFPA codes. The scope of work for this project shall include providing a complete and operable wet pipe / pre-action sprinkler system. The
entire building shall be provided with concealed sprinklers in areas with ceilings and upright sprinklers in areas without ceilings. Sprinklers within special areas shall be laid out in accordance with the spacing criteria as set forth by NFPA 13 for each occupancy classification.
Occupancy Classification: Light HazardDensity: .10 GPM/Sq. Ft.Hydraulic Remote Area: 1,500 sq. ft.Outside Hose Stream Allowance: 100 GPMDuration of Supply: 30 minutesMaximum Coverage per Sprinkler: 225 sq. ft.
Occupancy Classification: Ordinary Hazard Group I/IIDensity: .15 GPM/Sq. Ft. / .2 GPM/Sq. Ft.Hydraulic Remote Area: 1,500 sq. ft.Outside Hose Stream Allowance: 250 GPMDuration of Supply: 60 – 90 minutesMaximum Coverage per Sprinkler: 130 sq. ft.
All public spaces, galleries, and administration offices shall be designed as Light Hazard occupancy. All mechanical, electrical, and telecom rooms shall be designed as Ordinary Hazard Group I. Concealed sprinklers in all areas that have ceilings and upright sprinklers in all areas without ceilings.
Fire pump is required by NFPA 1-13.2.2.2 and will be capable of delivering 100 psi (residual) at the most remote roof manifold discharge. Flow shall be a minimum of 1000 GPM for combined sprinkler/standpipe system. Fire pump room located with one exterior wall shall be 12’x12’ minimum.
TECHNICAL
ELECTRICAL SYSTEMS NARRATIVE
POWER DISTRIBUTIONElectrical service to the building will be provided by Duke Energy transformer, fed from an extension of primary loop system. • Duke Energy transformers and switches, located on Pier
Structure as close to the Main Building as permitted by the architecture. Incoming service rated 480Y/277 volts, 3-phase, 4-wire. Coordinate all Utility Company casts associated with relocation and demolition of existing primary conduit and feeders serving the current structure
• Estimated 1600 Amp Main switchboard with feeder breakers in distribution sections. Ground fault detection on main. Electrical room to be located on the second level. Room Size to be 8’ X 12’ for Normal Power and 6’ X 6’ for Emergency Distribution.
• A separate 100 ampere service for the electric fire pump will be located adjacent to the fire pump room
• Cooling equipment, air handling units and large motor loads served directly from main switchboard.
• Equipment loads, motor loads and majority of lighting served from 480/277 volt panelboards, located on each floor. Electrical rooms on the third and fourth floors shall be 8’ X 8’.
• Receptacles, minor equipment and small motor loads served from 208Y/120 volt panelboards, via step-down transformers, located on each floor.
• Dry type step-down transformers to serve equipment loads throughout facility. Typically 480 volt delta primary to 208Y/120 volt secondary.
Branch circuit wiring: Separate neutrals provided for all circuits, no common neutrals in multi-circuit homeruns.
LIGHTING SYSTEMSLighting levels will be designed utilizing IES Standards and the Florida Building Code. Lighting systems will be provided
with appropriate types of fixtures, lamps and associated controls, specific to the functions of each space in the facility.• Typical interior lighting systems utilize LED technology
with some energy efficient fluorescent. All decorative lighting to be selected by the architect.
• Lighting control system in training for various types and levels of lighting during multi-media presentations and for preferred task lighting. All fluorescent dimming system ballasts and controls to be by Lutron only, or equal.
• General lighting in corridors and common areas to be LED down lighting or 2 x 2 recessed fixtures with LED technology.
• Provide interior and exterior lighting control systems, including ambient light dimmers and multiple switching for low ambient light levels and energy conservation.
• Exterior lighting to utilize LED technology, typical for area security lighting around building perimeter and open area parking on site. Area site lighting poles to be spun concrete, color-impregnated, direct buried for wind load rating of 200 MPH.
• Day-lighting and day-light controls will be utilized where day light can be harvested to replace artificial lighting.
WIRING DEVICESFor estimating purposes duplex receptacles are provided as follows:• One 20-ampere duplex receptacle for every 100 square
feet of leasable space.• Minimum of three 20-ampere duplex receptacles in
enclosed offices.• One ground fault interrupter type receptacle for each
toilet room.• One duplex 20-ampere receptacle for every 50 linear
feet of corridor.
• One ground fault interrupter type receptacle for every 200’ linear feet of exterior perimeter.
• Minimum of one 20-ampere duplex receptacle for every electrical, mechanical and janitor’s closet.
EMERGENCY POWERNatural gas engine driven generator will provide standby emergency power to the entire facility, in the event of loss of utility power. The generator will be located in a hurricane rated exterior enclosure.• Estimated 200 KW, 250 KVA, 277/480V, 3 phase, 4-wire
emergency generator set, natural gas-fueled, sized to serve fire pump service, building life safety and smoke evacuation fans. Start controls for the generator will originate from the fire pump controller and main building transfer switches
• Exhaust piping and muffler to include critical exhaust silencer.
• Liquid cooling system, radiator integrally mounted to generator set skid.
• Automatic transfer switching.
LIGHTNING PROTECTION, SURGE SUPPRESSION & GROUNDINGComplete systems for protection against lightning, transients, internal spikes, and surge transients.• Lightning protection system, complete per NFPA 780,
Class I materials.• Complete transient voltage surge suppression system,
consisting of multiple levels of surge suppression devices in power distribution system: main electrical service entrance, standby power source feeder entrance, secondary side of all dry type 208/120 volt transformers, circuits entering the building from the outside such as site lighting, at sensitive electronic
equipment loads using surge suppressor receptacles. • Ground in accordance with the National Electrical
Code. Additional bonds from counterpoise ring to all made electrodes, to lightning protection system, to all surge suppression devices, and to all communication ground bus.
• All grounding cable connections to be cadweld type.
FIRE ALARM SYSTEMComplete system for fire detection and alarm notification throughout the building.• Multiplex, fully addressable system• Alarm notification by voice evacuation: pre-
recorded message or commands made via hand-held microphone station.
• Smoke and heat detection devices.• Alarm indication speakers and strobes to be
ADA compliant. Strobes in common areas to be synchronized.
• Remote annunciators with dynamic LCD display matching main control panel, for full “address” of alarm or trouble condition.
• Heat detectors are hard-wired to the fire alarm system and activate the alarm throughout.
TESTING AND PERFORMANCE VERIFICATION• Perform system and equipment testing during
construction: main switchboard, transformers, feeder cable, generator, UPS system, grounding system, motor controls.
• Provide contract options for long term maintenance and testing agreement, directly with owner.
•
TECHNICAL
PIER PLANT PALETTES
TECHNICAL
UPLAND PARK & STREETSCAPE PLANT PALETTE
TECHNICAL
UPLAND PARK & STREETSCAPE PLANT PALETTE CONTINUED
TECHNICAL
1
PROJECT: St. Petersburg Pier Re-imaginationEST. TYPE: Conceptual
DATE: TEAM: St. Pete Design Group
A B C D E F G I J K M PTotal GSF/ Component
GSF
UplandsPier Approach& Foundations
Fishing Pier & Foundations
Base Design Cost
Quantity* Unit Cost ($/unit or %) * Base Design Cost Building/Feature Roadway/Walkway
DIVISION DESCRIPTION COMMENTS D x E
2A Site Demolition * * $15,000 $15,000 $02A Selective Demolition * * $189,048 $189,048 $02B Landscape & Irrigation, hardscape
* * $40,000 $40,000 $0 $0
2C Earthwork & Pavement * * $141,370 $141,3703A Structural Concrete/ * * $711,599 $245,000 $466,599 $03B Exterior Concrete * * $12,910,888 $56,083 $7,285,030 $0 $5,569,775 $04 Masonry * * $66,434 $66,434 $0
5A Structural Steel * * $1,594,557 $341,997 $832,815 $344,625 $75,120 $06A Wood & Plastics * * $2,932,800 $2,262,700 $670,1007A Roofing & Waterproofing * * $779,640 $779,640 $0
8 through 10 Doors, Frames, Hardware and Finishes * * $134,805 $134,805 $08B Glass & Glazing * * $5,947,320 $5,947,320 $011A Appliances & Equipment * * $71,464 $71,464 $012A Furniture * * $10,000 $10,000 $014A Elevators * * $128,000 $128,000 $021 Fire Protection, incl. underground * * $135,360 $135,360 $022 Plumbing, incl. underground * * $145,626 $145,626 $023 HVAC, incl. underground * * $480,120 $480,120 $026 Electrical, Comm. & Security, incl. u/g
* * $845,000 $845,000 $0
99 Construction Contingency $900,000 $900,000P TOTALL ALL DIVISIONS $28,179,030 $507,453 $7,627,027 $10,150,767 $8,248,564 $745,220 $900,000Q
Gen. Conditions/Insurances/Bonds/CM Fees $4,800,000 $0 $0 $0 $0 $0 $4,800,000
C Builders Risk Insurance D General Liability Insurance E Payment & Performance BondF TOTAL COST OF WORK
(A+B+C+D+E) $0 $0 $0 $0 $0
G Construction Management FEEL CM CONTINGENCY $0 $0 $0R CONSTRUCTION COST
(P+Q) $32,979,030 $507,453 $7,627,027 $10,150,767 $745,220 $5,700,000
COST PER SQ-FT TOTALS #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0!COMPONENT COST PER SQ-FT TOALS
#DIV/0! #DIV/0! #DIV/0! #DIV/0!
U TOTAL CONSTRUCTION COST (R+S+T+Demo) $32,979,030
SCHEDULE OF VALUES COMPONENT VALUES
Pier Head
1
PROJECT: St. Petersburg Pier Re-imaginationEST. TYPE: Conceptual
DATE: TEAM: St. Pete Design Group
A B C D E F G I J K M PTotal GSF/ Component
GSF
UplandsPier Approach& Foundations
Fishing Pier & Foundations
Base Design Cost
Quantity* Unit Cost ($/unit or %) * Base Design Cost Building/Feature Roadway/Walkway
DIVISION DESCRIPTION COMMENTS D x E
2A Site Demolition * * $15,000 $15,000 $02A Selective Demolition * * $189,048 $189,048 $02B Landscape & Irrigation, hardscape
* * $40,000 $40,000 $0 $0
2C Earthwork & Pavement * * $141,370 $141,3703A Structural Concrete/ * * $711,599 $245,000 $466,599 $03B Exterior Concrete * * $12,910,888 $56,083 $7,285,030 $0 $5,569,775 $04 Masonry * * $66,434 $66,434 $0
5A Structural Steel * * $1,594,557 $341,997 $832,815 $344,625 $75,120 $06A Wood & Plastics * * $2,932,800 $2,262,700 $670,1007A Roofing & Waterproofing * * $779,640 $779,640 $0
8 through 10 Doors, Frames, Hardware and Finishes * * $134,805 $134,805 $08B Glass & Glazing * * $5,947,320 $5,947,320 $011A Appliances & Equipment * * $71,464 $71,464 $012A Furniture * * $10,000 $10,000 $014A Elevators * * $128,000 $128,000 $021 Fire Protection, incl. underground * * $135,360 $135,360 $022 Plumbing, incl. underground * * $145,626 $145,626 $023 HVAC, incl. underground * * $480,120 $480,120 $026 Electrical, Comm. & Security, incl. u/g
* * $845,000 $845,000 $0
99 Construction Contingency $900,000 $900,000P TOTALL ALL DIVISIONS $28,179,030 $507,453 $7,627,027 $10,150,767 $8,248,564 $745,220 $900,000Q
Gen. Conditions/Insurances/Bonds/CM Fees $4,800,000 $0 $0 $0 $0 $0 $4,800,000
C Builders Risk Insurance D General Liability Insurance E Payment & Performance BondF TOTAL COST OF WORK
(A+B+C+D+E) $0 $0 $0 $0 $0
G Construction Management FEEL CM CONTINGENCY $0 $0 $0R CONSTRUCTION COST
(P+Q) $32,979,030 $507,453 $7,627,027 $10,150,767 $745,220 $5,700,000
COST PER SQ-FT TOTALS #DIV/0! #DIV/0! #DIV/0! #DIV/0! #DIV/0!COMPONENT COST PER SQ-FT TOALS
#DIV/0! #DIV/0! #DIV/0! #DIV/0!
U TOTAL CONSTRUCTION COST (R+S+T+Demo) $32,979,030
SCHEDULE OF VALUES COMPONENT VALUES
Pier Head
BUDGET
TECHNICAL
3
TAMPA, FLORIDA 10 December 2014
BID PACKAGE TOTAL
1 LANDSIDE 507,453$2 MARINE 16,620,810$3 SITE DEMOLITION -$4 SELECTIVE BLDG DEMOLITION 189,048$5 CONCRETE 466,599$6 MASONRY 66,434$7 METALS 832,815$8 GENERAL TRADES -$9 MILLWORK -$
10 WATERPROOFING 200,040$11 ROOFING 579,600$12 DOORS-FRAMES-HARDWARE 20,285$13 WINDOWS 5,947,320$14 FINISHES 111,520$15 SIGNS -$16 SPECIALTIES 3,000$17 EQUIPMENT -$18 VERTICAL TRANSPORTATION 128,000$19 FIRE PROTECTION 135,360$20 PLUMBING 145,626$21 HVAC 480,120$22 ELECTRICAL 845,000$
TOTAL 27,279,030$
ST PETE PIERCONCEPTUAL ESTIMATE
SUMMARY
5
CODE Reimbursable Expenses QTY UNIT UNIT TOTAL REMARKSCOST COST
TOTAL REIMBURSABLE EXPENSES -$
ST PETE PIERCONCEPTUAL ESTIMATE
Assumption - all subcontractors have included all equipment, hoisting, tools, scaffolding necessary to perform their scope of work cost.
10 December 2014
TECHNICAL
6
CODE GENERAL CONDITIONS QTY UNIT UNIT TOTAL REMARKSCOST COST
General Conditions cost is by others
TOTAL GENERAL CONDITIONS -$
ST PETE PIERCONCEPTUAL ESTIMATE
10 December 2014
7
TAMPA, FLORIDA 10 December 2014
CODE Uplands QTY UNIT UNIT TOTAL REMARKSCOST COST
Civil Demo @ uplands 1 LS 15,000.00$ 15,000$
Extend beach 7,200 SF 15.00$ 108,000$ Sand, 8"deep
Boardwalk 0 SF 35.00$ -$
Spa Beach Café 3,500 SF 70.00$ 245,000$ Conc + Astro-Turf
Sidewalks 7,334 SF 4.50$ 33,003$
Concrete Slabs at Tables 0 SF 5.00$ -$
Retaining Walls at Bridge Approach 1,154 SF 20.00$ 23,080$
Stairs 0 RSR 550.00$ -$ Existing to Remain
Bus Stop Pavement, etc 0 SY 30.00$ -$ Existing to Remain
Import Fill at Approach 1,963 SY 14.00$ 27,481$
Approach Roadway - Elevated 196 SF 30.00$ 5,889$
Landscape, Irrigation (minor) 1 LS 20,000.00$ 20,000$
Outdoor Furniture 1 LS 10,000.00$ 10,000$
Flagpoles 1 LS 20,000.00$ 20,000$
TOTAL UPLANDS 507,453$
ST PETE PIERCONCEPTUAL ESTIMATE
DETAIL
TECHNICAL
8
TAMPA, FLORIDA 10 December 2014
CODE MARINE QTY UNIT UNIT TOTAL REMARKSCOST COST
ApproachRoad 28,480 SF 175.00$ 4,984,000$ Concrete
Sidewalk - north 10,823 SF 175.00$ 1,894,025$
Composite Wood 6,744 SF 20.00$ 134,880$ 5' wide length of approach
Sidewalk - south 1,555 SF 175.00$ 272,125$
Handrail 1,950 LF 75.00$ 146,250$ Rail and Cable
Shading Device 1,060 LFStructural members 60' oc. 35 EA 5,000.00$ 176,667$ Wire 8,480 LF 2.25$ 19,080$
Pier HeadLevel 1Surface 19,251 SF 225.00$ 4,331,475$ Soft Seating - structure 3,021 SF 300.00$ 906,300$ Soft Seating 3,021 SF 13.50$ 40,784$ Artificial grass
Handrail 1,851 LF 75.00$ 138,825$ Rail and Cable
Level 2 - IntermediateSurface 22,627 SF 100.00$ 2,262,700$ Wood
Handrail 2,454 LF 75.00$ 184,050$ Rail and Cable
Level 3Cargo Net 3,068 SF 10.00$ 30,680$ Netting
BridgesPedestrian Bridge 1 1,250 SF 200.00$ 250,000$ 113 ft x 11t
Pedestrian Bridge Handrail 143 LF 75$ 10,725$
Pedestrian Bridge 2 410 SF 200$ 82,000$ 30ft x 10ft
Pedestrian Bridge Handrail 147 LF 75$ 11,025$
Fishing PierFishing Pier 3,780 SF 45.00$ 170,100$ Wood
Handrail on Fishing Pier 819 LF 55.00$ 45,045$ Two Rails
Level 3Fishing Pier 5,000 SF 100.00$ 500,000$ Wood
Handrail 401 LF 75.00$ 30,075$ Rail and Cable
ST PETE PIERCONCEPTUAL ESTIMATE
DETAIL
9
TAMPA, FLORIDA 10 December 2014ST PETE PIER
CONCEPTUAL ESTIMATEDETAIL
TOTAL MARINE 16,620,810$ 10
TAMPA, FLORIDA 10 December 2014
CODE SITE QTY UNIT UNIT TOTAL REMARKS
DEMOLITION COST COST
Mass demolition of Pier by others
SITE DEMOLITION -$
ST PETE PIERCONCEPTUAL ESTIMATE
DETAIL
TECHNICAL
11
TAMPA, FLORIDA 10 December 2014
CODE SELECT DEMOLITION QTY UNIT UNIT TOTAL REMARKSCOST COST
Selective Demolition of Building
Structural Deck Demolition 633 SF 10.00$ 6,330$
Stair Demolition 10 FLR 1,500.00$ 15,000$
Chip & Remove Conc on Struts 432 EA 150.00$ 64,800$
Demo & Dispose of Interiors 54,744 SF 3.25$ 177,918$
Demo & Dispose of "cubes" 0.00 Ea -$ -$ Included
Demo Credit from City 1 LS (75,000.00)$ (75,000)$
TOTAL SELECT DEMOLITION 189,048$
CONCEPTUAL ESTIMATEDETAIL
ST PETE PIER
12
TAMPA, FLORIDA 10 December 2014
CODE QTY UNIT UNIT TOTAL REMARKSCOST COST
Deck New at Perimeter 3,820 SF 7.50$ 28,650$
Patch Floors - Concrete 1 LS 20,000.00$ 20,000$
Patch Concrete on Struts 432 EA 500.00$ 216,000$ 108 ea elevation
Strut Concrete - 4th level extensions
27 CY 4,000.00$ 108,889$ W16x8816 3/4" x 10 3/8"
Concrete Deck at 3rd Level 5,640 SF 6.50$ 36,660$10" foam 5,640 SF 10.00$ 56,400$
TOTAL CONCRETE 466,599$
ST PETE PIERCONCEPTUAL ESTIMATE
DETAIL
CONCRETE
TECHNICAL
13
TAMPA, FLORIDA 10 December 2014
CODE MASONRY QTY UNIT UNIT TOTAL REMARKS
COST COST
CMU - Ext Walls 724 BLK 9.50$ 6,878$
CMU Int Walls 1,473 BLK 9.50$ 13,994$
CMU Infill 3,797 BLK 12.00$ 45,563$
TOTAL MASONRY 66,434$
CONCEPTUAL ESTIMATEDETAIL
ST PETE PIER
14
TAMPA, FLORIDA 10 December 2014
CODE METALS QTY UNIT UNIT TOTAL REMARKSCOST COST
Stairs 67 RSR 425.00$ 28,475$ one stair to roof
Grand StairsStructure 110 LF 500.00$ 55,000$
Rails 305 LF 150.00$ 45,750$
New Deck at Perimeter 3,820 SF 50.00$ 191,000$
Roof Structure w/ Mtl Deck 24,080 SF 10.00$ 240,800$
"Trellis" @ Roof Perimeter 8,015 SF 5.00$ 40,075$
Strut Extensions 16 TN 4,500.00$ 71,280$ W16x88
Added Framing at Flr Opngs 1 LS 50,000.00$ 50,000$
Window Sub-Frame 0 TON 4,500.00$ -$ by Glass Sub
Window Sun-Frame Clips, Misc 0 TON 4,500.00$ -$ by Glass Sub
Rails at 4th Level - perimeter 640 LF 75.00$ 48,000$
Rail at 4th Level - interior - LF 150.00$ -$
Frame for Glass Floor 568.00 SF 20.00$ 11,360
Railing at Perimeters 1,135 LF 45.00$ 51,075$ Two Rail
TOTAL METALS 832,815$
CONCEPTUAL ESTIMATEDETAIL
ST PETE PIER
TECHNICAL
15
TAMPA, FLORIDA 10 December 2014
CODE GENERAL QTY UNIT UNIT TOTAL REMARKS
TRADES COST COST
None
TOTAL GENERAL TRADES -$
CONCEPTUAL ESTIMATEDETAIL
ST PETE PIER
16
TAMPA, FLORIDA 10 December 2014
CODE MILLWORK QTY UNIT UNIT TOTAL REMARKS
TOTAL COST COST
None
TOTAL MILLWORK -$
CONCEPTUAL ESTIMATEDETAIL
ST PETE PIER
TECHNICAL
17
TAMPA, FLORIDA 10 December 2014
DETAIL
CODE WATERPROOFING QTY UNIT UNIT TOTAL REMARKSCOST COST
Caulking 1 LS 50,000.00$ 50,000$
Hot Applied Waterproofing at 4th Level
19,360 SF 7.75$ 150,040$
TOTAL WATERPROOFING 200,040$
ST PETE PIERCONCEPTUAL ESTIMATE
18
TAMPA, FLORIDA 10 December 2014
DETAIL
CODE ROOFING QTY UNIT UNIT TOTAL REMARKSCOST COST
Roof 24,100 SF 12.00$ 289,200$
Deck Pavers4th Level 19,360 SF 15.00$ 290,400$
TOTAL ROOFING 579,600$
ST PETE PIERCONCEPTUAL ESTIMATE
TECHNICAL
19
TAMPA, FLORIDA 10 December 2014
DETAIL
CODE QTY UNIT UNIT TOTAL REMARKS
COST COST
Hollow Metal Doors 14 EA 415.00$ 5,810$
Panics & Closures 9 EA $ 1,375 12,375$
Door & Hardware Install 14 EA $ 150 2,100$
20,285$
ST PETE PIER
DOORS, FRAMES, HARDWARE
TOTAL DOORS, FRAMES, HRDWRE
CONCEPTUAL ESTIMATE
20
TAMPA, FLORIDA 10 December 2014
DETAIL
CODE WINDOWS QTY UNIT UNIT TOTAL REMARKSCOST COST
Sloped Window System 26,440 SF 203.00$ $ 5,367,320
Storefront at 4th Level 3,540 SF 50.00$ $ 177,000
Stair 1 LS 53,000.00$ $ 53,000
Glass Floor 500 SF 500.00$ $ 250,000
Glass Canopy 1 LS 100,000.00$ $ 100,000
SUBTOTAL WINDOWS 5,947,320$
ST PETE PIERCONCEPTUAL ESTIMATE
TECHNICAL
21
TAMPA, FLORIDA 10 December 2014
DETAIL
CODE FINISHES QTY UNIT UNIT TOTAL REMARKSCOST COST
Lobby Ceilings 1,675 SF $ 7.50 12,563$
Restroom Ceilings 150 SF $ 5.00 750$
Restroom Floors 150 SF 8.00$ 1,200$
Restroom Walls 1,400 SF 8.00$ 11,200$
Stucco 410 SY 75.00$ 30,742$
Paint - stucco & block 9,683 SF 2.00$ 19,366$
Paint on Struts 8,925 SF 4.00$ 35,700$
Paint on Window Steel Sub Framing
0 LF 5.00$ -$by Glass Sub
TOTAL FINISHES 111,520$
ST PETE PIERCONCEPTUAL ESTIMATE
22
TAMPA, FLORIDA 10 December 2014
DETAIL
CODE SIGNS QTY UNIT UNIT TOTAL REMARKSCOST COST
None
TOTAL SIGNS -$
ST PETE PIERCONCEPTUAL ESTIMATE
TECHNICAL
23
TAMPA, FLORIDA 10 December 2014
DETAIL
CODE SPECIALTIES QTY UNIT UNIT TOTAL REMARKSCOST COST
Toilet Accessories 6 EA 500.00$ 3,000$
TOTAL SPECIALTIES 3,000$
ST PETE PIERCONCEPTUAL ESTIMATE
24
TAMPA, FLORIDA 10 December 2014
DETAIL
CODE QTY UNIT UNIT TOTAL REMARKS
COST COST
Food Service Equipment is not included
-$
ST PETE PIERCONCEPTUAL ESTIMATE
EQUIPMENT
TOTAL EQUIPMENT
TECHNICAL
25
TAMPA, FLORIDA 10 December 2014
DETAIL
CODE QTY UNIT UNIT TOTAL REMARKS
COST COST
ElevatorsPassenger elevators 4 STP 22,000.00$ 88,000$
Refurbish Existing elevators 4 EA 10,000.00$ 40,000$
128,000$
VERTICAL TRANSPORTATION
TOTAL VERTICAL TRANSPORTATION
ST PETE PIERCONCEPTUAL ESTIMATE
26
TAMPA, FLORIDA 10 December 2014
DETAIL
CODE FIRE SPRINKLERS QTY UNIT UNIT TOTAL REMARKSCOST COST
Fire Sprinklers 52,600 SF 1.60$ 84,160$
Fire line, 6" 1,300.00 LF 24.00 31,200.00
Hydrants 4.00 EA 5,000.00 20,000.00
assume tie into existing DDCV
TOTAL FIRE SPRINKLERS 135,360$
ST PETE PIERCONCEPTUAL ESTIMATE
TECHNICAL
27
TAMPA, FLORIDA 10 December 2014
DETAIL
CODE PLUMBING QTY UNIT UNIT TOTAL REMARKSCOST COST
Plumbing (inc fixtures for 6 restrms) 32,008 GSF 3.25$ 104,026$
Water Supply, 3" 1,300 12.00$ 15,600$
Sanitary 1,300 20.00$ 26,000$gravity sanitary , 6"
TOTAL PLUMBING 145,626$
ST PETE PIERCONCEPTUAL ESTIMATE
28
TAMPA, FLORIDA 10 December 2014
DETAIL
CODE HVAC QTY UNIT UNIT TOTAL REMARKSCOST COST
HVAC 32,008 GSF 15.00$ 480,120$
chillerchilled water piping
vertical ductwork
main trunk ductwork
Branch ductwork, VAV's are by tenant
TOTAL HVAC 480,120$
ST PETE PIERCONCEPTUAL ESTIMATE
TECHNICAL
29
TAMPA, FLORIDA 10 December 2014
DETAIL
CODE ELECTRIC QTY UNIT UNIT TOTAL REMARKSCOST COST
Electric 52,600 GSF 10.00$ 526,000$
Exterior Building Lighting 1 LS 75,000.00$ 75,000$
Aviation Anti-Colision Lights 1 LS 5,000.00$ 5,000$
electrical service is by othersstumble lighting includedcommon area lighting includedfinal lighting and power distribution by tenants
Comm/Data Conduit 2600 LF 15$ 39,000$
Lighting - approach and head 1 LS 200,000$ 200,000$
TOTAL ELECTRIC 845,000$
ST PETE PIERCONCEPTUAL ESTIMATE
TECHNICAL THE NEW ST. PETE PIER | TECHNICAL
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52
PROPOSED SCHEDULE
January February March April May June July August September October November December
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52Construction2017
January February March April May June July August September October November December
Close Out
Grand Opening
Public Input
Council Approval
Schematic Design
Pricing
Permitting
DD
Basis of Design
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52
Permit Agency - Final Approval & Issuance of Permit
Design Development cont’d.
Pricing
Construction Document Phase
January February March April May June July August September October November December
Final GMPCouncil GMP
Approval
Construction
2016
Negotiate AE Contract
2015
Council Approval and AE Contract
THE NEW ST. PETE PIER | TECHNICAL
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52
PROPOSED SCHEDULE
January February March April May June July August September October November December
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52Construction2017
January February March April May June July August September October November December
Close Out
Grand Opening
Public Input
Council Approval
Schematic Design
Pricing
Permitting
DD
Basis of Design
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52
Permit Agency - Final Approval & Issuance of Permit
Design Development cont’d.
Pricing
Construction Document Phase
January February March April May June July August September October November December
Final GMPCouncil GMP
Approval
Construction
2016
Negotiate AE Contract
2015
Council Approval and AE Contract
TECHNICAL THE NEW ST. PETE PIER | TECHNICAL
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52
PROPOSED SCHEDULE
January February March April May June July August September October November December
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52Construction2017
January February March April May June July August September October November December
Close Out
Grand Opening
Public Input
Council Approval
Schematic Design
Pricing
Permitting
DD
Basis of Design
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52
Permit Agency - Final Approval & Issuance of Permit
Design Development cont’d.
Pricing
Construction Document Phase
January February March April May June July August September October November December
Final GMPCouncil GMP
Approval
Construction
2016
Negotiate AE Contract
2015
Council Approval and AE Contract
TECHNICAL
PHASING
INTEGRATION INTO PARK SYSTEMADDITIONAL PROGRAM ELEMENTS PHOTOVOLTAICS
OPPORTUNITIES
OPPORTUNITIES
The Pier experience begins at Beach Drive and Bayshore Drive. We suggest an outline for the future Uplands Park that integrates seamlessly with the Spa Beach improvements, Spa Beach Grill, Ramp, and Pier Approach. The implementation of this part of the concept cannot be included in the current $33 million budget, but will need to come later using other funding sources.
Nonetheless, even if not accomplished immediately, the New Pier and Spa Beach design connects with the existing roadway, parking and sidewalks. However, we understand the new Downtown Waterfront Master Plan will be completed in the summer of 2015. Should our design be selected for development by the City, our team would be glad to work with the City to ensure the integration of Unity Pier and Spa Beach into the Downtown Waterfront Park System.
ELEMENTS INTEGRATED INTO OUR DESIGNStewardship of the Waterfront EnvironmentEnhancing the Experience of the WaterAn Active Waterfront Parks SystemVibrant Downtown Places along the WaterA Connected, Accessible Downtown and Waterfront
INTEGRATION INTO DOWNTOWN WATERFRONT PARK SYSTEM
OPPORTUNITIES
OPPORTUNITIES
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MUSEUM OF HISTORY
BRIDGE TO BAYSHORE DRIVE
YACHT DOCKING
MARINA PARKING
DOLPHIN PARKING LOT
HIGH SPEED WATER TAXI
MODEL BOAT BASIN
JANNUS MONUMENT
EVENT LAWN
SPA BEACH GRILL / BOARDWALK
PING PONG / CHECKERS/ CHESS
SPLASH PAD / PICNIC AREA
PLAYGROUND / KING OF THE HILL MOUND
DOG REST STOP
CONCESSION / TOILET RMS / ACCESS TO VINOY BRIDGE
EXTENDED BEACH / VOLLEYBALL / BOCCEE
BRIDGE TO VINOY PARK
TRANSIENT VISITOR DOCK
PELICAN PARKING LOT
ROCK WALL / KAYAK CONDOS
PELICAN POINT
STAIR ACCESS TO PIER APPROACH
SHADED TRAM STOP / BAYVIEW STEPS
OBSERVATION REST STOP
FISHING PIER
BAIT SHOP / SHADED TRAM STOP
PYRAMID ARRIVAL
INFORMATION HUT / SUNSET CAFE
GRAND HAMMOCK / CHILDREN’S AREA
PYRAMID
FISHING DECK
SMALL EVENT LAWN
MASTERPLAN
OPPORTUNITIES
WATER DISTANCE RADIUS @ 3 MPH [ IN FEET AND MINUTES] MUSEUM OF HISTORY
BRIDGE TO BAYSHORE DRIVE
YACHT DOCKING
MARINA PARKING
DOLPHIN PARKING LOT
HIGH SPEED WATER TAXI
MODEL BOAT BASIN
JANNUS MONUMENT
EVENT LAWN
SPA BEACH GRILL / BOARDWALK
PING PONG / CHECKERS/ CHESS
SPLASH PAD / PICNIC AREA
PLAYGROUND / KING OF THE HILL MOUND
DOG REST STOP
CONCESSION / TOILET RMS / ACCESS TO VINOY BRIDGE
EXTENDED BEACH / VOLLEYBALL / BOCCEE
BRIDGE TO VINOY PARK
TRANSIENT VISITOR DOCK
PELICAN PARKING LOT
ROCK WALL / KAYAK CONDOS
PELICAN POINT
STAIR ACCESS TO PIER APPROACH
SHADED TRAM STOP / BAYVIEW STEPS
OBSERVATION REST STOP / SHADED TRAM STOP
FISHING PIER
BAIT SHOP / SHADED TRAM STOP
PYRAMID ARRIVAL
INFORMATION HUT / SUNSET CAFE
GRAND HAMMOCK / KIDS ZONE
PYRAMID
FISHING DECK
SMALL EVENT LAWN
MASTERPLAN | WALKING DISTANCE BETWEEN PROGRAMMATIC ELEMENTS
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WALKING DISTANCE BETWEEN PROGRAMMATIC ELEMENTS
3
1090 ft radius
4 min 820 ft radius
3 min 550 ft radius
2 min 280 ft radius
1 min
5 min 1270 ft radius
3
10
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OPPORTUNITIES
CYCLING DISTANCE RADIUS @ 10 MPH [ IN FEET AND MINUTES] MUSEUM OF HISTORY
BRIDGE TO BAYSHORE DRIVE
YACHT DOCKING
MARINA PARKING
DOLPHIN PARKING LOT
HIGH SPEED WATER TAXI
MODEL BOAT BASIN
JANNUS MONUMENT
EVENT LAWN
SPA BEACH GRILL / BOARDWALK
PING PONG / CHECKERS/ CHESS
SPLASH PAD / PICNIC AREA
PLAYGROUND / KING OF THE HILL MOUND
DOG REST STOP /
CONCESSION / TOILET RMS / ACCESS TO VINOY BRIDGE
EXTENDED BEACH / VOLLEYBALL / BOCCEE
BRIDGE TO VINOY PARK
TRANSIENT VISITOR DOCK
PELICAN PARKING LOT
ROCK WALL / KAYAK CONDOS
PELICAN POINT
STAIR ACCESS TO PIER APPROACH
SHADED TRAM STOP / BAYVIEW STEPS
OBSERVATION REST STOP
FISHING PIER
BAIT SHOP / SHADED TRAM STOP
PYRAMID ARRIVAL
INFORMATION HUT / SUNSET CAFE
GRAND HAMMOCK / CHILDREN’S AREA
PYRAMID
FISHING DECK
SMALL EVENT LAWN
MASTERPLAN | WALKING DISTANCE BETWEEN PROGRAMMATIC ELEMENTS
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CYCLING DISTANCE BETWEEN PROGRAMMATIC ELEMENTS
3168 ft radius
1056 ft radius
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OPPORTUNITIES
CYCLING DISTANCE RADIUS @ 10 MPH [ IN FEET AND MINUTES] MUSEUM OF HISTORY
BRIDGE TO BAYSHORE DRIVE
YACHT DOCKING
MARINA PARKING
DOLPHIN PARKING LOT
HIGH SPEED WATER TAXI
MODEL BOAT BASIN
JANNUS MONUMENT
EVENT LAWN
SPA BEACH GRILL / BOARDWALK
PING PONG / CHECKERS/ CHESS
SPLASH PAD / PICNIC AREA
PLAYGROUND / KING OF THE HILL MOUND
DOG REST STOP /
CONCESSION / TOILET RMS / ACCESS TO VINOY BRIDGE
EXTENDED BEACH / VOLLEYBALL / BOCCEE
BRIDGE TO VINOY PARK
TRANSIENT VISITOR DOCK
PELICAN PARKING LOT
ROCK WALL / KAYAK CONDOS
PELICAN POINT
STAIR ACCESS TO PIER APPROACH
SHADED TRAM STOP / BAYVIEW STEPS
OBSERVATION REST STOP / SHADED TRAM STOP
FISHING PIER
BAIT SHOP / SHADED TRAM STOP
PYRAMID ARRIVAL
INFORMATION HUT / SUNSET CAFE
GRAND HAMMOCK / KIDS ZONE
PYRAMID
FISHING DECK
SMALL EVENT LAWN
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PUBLIC TRAM RIDING DISTANCE BETWEEN PROGRAMMATIC ELEMENTS
440 ft radius1 min440 ft r
adius
440 ft radius
1 min
1 min
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1
An existing precedent to illustrate programmatic intent.
An existing precedent to illustrate programmatic intent.
OPPORTUNITIES
A large, oval, flexible Great Lawn could be created by redirecting vehicular traffic on 2nd Avenue North. This design provides an expanded, contiguous green space while also increasing safety for pedestrians and cyclists.
The Great Lawn is purposely unprogrammed to allow for spontaneous play. This exciting performance space is sloped at its southern end to expand Bay views, similar to Vinoy Park. It could be twice as large as the Demens Landing Event Lawn and provide another venue for downtown events. The design may be sized to accommodate events for up to 4,000 persons.
GREAT LAWN
An existing precedent to illustrate programmatic intent.
An existing precedent to illustrate programmatic intent.
OPPORTUNITIES
A large, modern, landscaped children’s playground north of the Great Lawn, featuring bermed “king-of-the-hill” mounds, slides, jungle gyms, a spray-grounds water feature, a “starter” rollerpark for young skateboarders and a variety of other children’s play equipment. This area could also, quite possibly, house . . . a permanent children’s merry-go-round or a temporary ferris wheel during special events.
PLAYGROUND
Located within the playground, a zero-depth, splash pad could provide a safe recreation area for water play. This splash pad could also provide an area to cool off on a hot day after a run or jog.
SPLASH PAD
An existing precedent to illustrate programmatic intent.
An existing precedent to illustrate programmatic intent.
OPPORTUNITIES
A small, floating, circular deck, located in the southeast corner of the Vinoy Basin, could provide a safe zone for children to launch model boats.
MODEL BOAT BASIN
An existing precedent to illustrate programmatic intent.
An existing precedent to illustrate programmatic intent.
OPPORTUNITIES
A space set aside for the proposed Tony Jannus Monument at the proposed round-a-bout south of the Great Lawn, near the original location of the Benoist Airplane Hangar and the Benoist School of Aviation.
JANNUS MONUMENT
An existing precedent to illustrate programmatic intent.
An existing precedent to illustrate programmatic intent.
OPPORTUNITIES
A modern pedestrian and bicycle bridge could connect Spa Beach and the Uplands Park to Vinoy Park. It could swing open for larger vessels needing clearance to enter the Vinoy basin. In its closed position it will provide vertical clearance for the majority of boats in Tampa Bay.
VINOY BRIDGE
St. Pete Design Group sketches for a swing-type bridge.
An existing precedent to illustrate programmatic intent.
St. Pete Design Group sketches for a swing-type bridge.
OPPORTUNITIES
An expanded boardwalk edging the beach and continuing around the perimeter of the South Vinoy Basin could provide a pathway for joggers, cyclists and pedestrians.
Dockage for luxury yachts and the proposed St. Petersburg - Tampa high-speed ferry could be provided at the Vinoy Basin along the south seawall.
BOARDWALK AND DOCKS
An existing precedent to illustrate programmatic intent.
An existing precedent to illustrate programmatic intent.
OPPORTUNITIES
The City provided open-air tram system could travel east-west along 2nd Avenue North from 2nd Street North at Sundial, through the Uplands Park to the Pier Head, with at the Museum of Fine Arts, the History Museum, the Activity Center, the Event Lawn, Spa Beach, midway along the bridge Approach and at the Pier Head.
A short bridge crossing the canal at the SW corner of the Vinoy Basin could facilitate stronger pedestrian connections to Bayshore Drive. At the Dolphin and Pelican parking lots, new reconfigured layouts could return existing asphalt paving to green space and landscaping. The lots would continue to service the History and Fine Arts Museums, Beach Drive, Spa Beach, and the Pier.
Expanded Cycling, walking and jogging paths throughout the new Uplands Park and continue westward back to Bayshore Drive could provide additional opportunities for residents and visitors to truly connect with downtown and the water.
TRANSPORTATION AND PATHWAYSAn existing precedent to illustrate programmatic intent.
An existing precedent to illustrate programmatic intent.
OPPORTUNITIES
The new roof over the Inverted Pyramid Sky Deck could feature photovoltaic panels that convert the sun’s energy into electricity. This would significantly reduce facility operating cost. The 640 translucent photovoltaic panels shown in the upper left hand corner plan would each generate 195 watts to produce a total of 124,800 watts DC with a 125 KW DC rating. The power factor is 125 x 0.85 derate factor to equal 106.25 KW. The Power Factor = 1 so the 106.25 KW = 106.25 KVA. Power production annually would be 106 KW x 1.5 KW = 160,000 Kwh. This type of panel is more efficient than a typical installation as it takes advantage of both direct and reflected sunlight.
PHOTOVOLTAIC SYSTEM
Roof plan featuring 30-foot bands of PV panels along perimeter.
An existing precedent to illustrate programmatic intent.
OPPORTUNITIES
DESIGN TEAMPROFILES COMPETITION BOARDS
APPENDIX
“We live in St. Pete. We love St. Pete. We will be in St. Pete for years to come.”
APPENDIX
The St. Pete Design Group is an Architectural Design Team formed by two prominent St. Petersburg based architecture firms, Harvard Jolly and Wannemacher Jensen, with internationally known architect Yann Weymouth as Design Director. This joint venture was created with the mission to bring to St. Petersburg a strong and optimistic vision for a new Pier and Park experience that will best unify the City of St. Petersburg and symbolize it to the widest possible audiences.
The St. Pete Design Group represents an unparalleled depth and breadth of experience. This multidisciplinaryteam was carefully selected for the specific skills, experience and credentials each brings to this important design project.
ST. PETE DESIGN GROUP
APPENDIX
ST. PETE DESIGN GROUP TEAM PROFILES
YANN WEYMOUTH St. Pete Design Group’s Design DirectorInternationally known architect
BILL HARVARDPyramid Design PrincipalWorked on original Inverted Pyramid design
JASON JENSENApproach and Uplands Design PrincipalAIA Tampa Bay Young Architect of the Year, 2008
LISA WANNEMACHERApproach and Uplands Design PrincipalMore than 30 years of experience
WARD FRISZOLOWSKIProject ManagerRecipient of AIA Bob Levison Award
PHIL TREZZAProject ArchitectMore than 15 years of experience
APPENDIX
PHIL GRAHAMPhil Graham, Jr. | Phil Graham, IVLandscape Architecture
DEWDan EuserWater Feature Designer
TLCAl LaPera | Gerald Crnkovich | Jeffrey Stash | David SouthwickMechanical, Electrical, Plumbing, Fire Protection, AV/IT
WALTER P. MOORERichard Temple | Scott MartinStructural - Pyramid Engineering
BURO HAPPOLDCarl KeoghLife Safety Engineering
MCLARENAndrew HabelStructural - Marine Engineering
JANICKI ENVIRONMENTALTony Janicki | Mike WesselEnvironmental Assessment
GEORGE F. YOUNGJonathan Gotwald | Jared Phillips | Nicolas CircelloCivil Engineering, Surveying and Mapping, Hydrographic Surveying and Mapping
BATSON COOKDonald FarrisCost Estimating [added after Phase I submission]
TEAM CONSULTANTS
APPENDIX
PRESENTATION BOARDS
The St. Pete Design Group’s concept provides the perfect marriage of historic icon and modernized, functional pier; a pure, crystalline pyramid is surrounded by fun, contemporary elements and activities within multi-leveled layers of shade. Varied attractions that will keep residents and tourists coming back include a larger Spa Beach, multiple dining options, a children’s zone and a spectacular waterfall. Come fish, play, relax and remember. Discover the New St. Pete Pier.
DESTINATION ST. PETE PIER
PIER APPROACH UPLANDSPIER HEAD
AERIAL PLAN SHOWING PROJECT SCOPE AERIAL PLAN SHOWING PROPOSED INTEGRATION OF PROJECT SCOPE INTO THE DOWNTOWN WATERFRONT MASTERPLAN EVENING VIEW FROM VINOY PARK
PROJECT SCOPE
APPENDIX
31
2
6
4
5
2
1
45
6
37
1
2
364
57
1 24
3
6
SPA BEACH
THE BAYVIEW STEPS
FISHING PIER
BAIT SHOP / CONCESSION / RESTROOMS / PELICAN FEEDING
VIEW FROM THE SPA BEACH GRILL TO THE KAYAK CONDOS AND CLIMBING WALL
THE BAYVIEW STEPS AND PROMENADE SHADED WITH A CAPE HONEYSUCKLE COVERED TRELLIS
PRESENTATION BOARDS
APPENDIX
VIEW OF THE INVERTED PYRAMID AND SURROUNDING MULTI-LEVEL DECKS FROM THE SOUTHEAST
THE PARTY DECK RAMP TO FISHING DECK
THE GRAND HAMMOCK AND FISHING DECK
PIER HEAD ARRIVAL, INFORMATION STATION, THE SUNSET CAFÉ, AND SKY DECK WATERFALL
NIGHT TIME VIEW OF ENTRY BRIDGE WATERFALL
THE SLOPED EVENT LAWN AND STAIR DOWN TO ICE CREAM SHOP AND FISHING DECK
ICE CREAM SHOP AND STAIR UP TO SLOPED EVENT LAWN
VIEW FROM THE WATER SHOWING INVERTED PYRAMID, MULTI-LEVEL DECKS, AND ICE CREAM SHOP
PRESENTATION BOARDS
APPENDIX
FOURTH LEVEL
THIRD LEVEL
SECOND LEVEL
FIRST LEVEL
INTERIOR VIEW OF THE INVERTED PYRAMID FROM THE SECOND LEVEL
INTERIOR VIEW FROM THE SECOND LEVEL OF THE INVERTED PYRAMID TO THE DOWNTOWN WATERFRONT
SKY DECK EVENT OCULUS
VIEW TO THE SOUTHEAST FROM THE SKY DECK
PRESENTATION BOARDS
VISION