PIERS 57/58 MAINTENANCE PLAN UPDATE:
WATERFRONT PARK CONDITION ASSESSMENT
(WC2429)

 

 

July 2011
Structural

1420 Fifth Avenue. Suite 425. Seattle. WA 
206-343-3000 phone 206-343-3013 fax


Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

PIERS 57N/58 MAINTENANCE PLAN UPDATE:
WATERFRONT PARK CONDITION ASSESSMENT
(WC2429)
July 2011

Prepared For:
City of Seattle
Department of Parks and Recreation
Planning and Development Division
800 Maynard Avenue S, 3rd Floor
Seattle, WA 98134-1336
David Graves
Project Manager
(206) 684-7048
david.graves@seattle.gov

Prepared By:
Seattle Structural PS Inc.
1420 Fifth Avenue, Suite 425
Seattle WA 98101-4019
Howard Burton, P.E., S.E., President
(206)343-3000
HBurton@SeattleStructural.com
Mike Braun, P.E., S.E., Project Manager
(206) 343-3000
MBraun@SeattleStructural.com

This condition assessment of Pier 58 summarized within this report was authorized on April 28, 2011
under Seattle Parks & Recreation Department, Planning & Development Division, Consultant Roster
Program Agreement No. PR11-005: “Piers 57/58 Maintenance Plan Update: Waterfront Park Condition
Assessment – (WC2429)”.

July 2011

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

TABLE OF CONTENTS

EXECUTIVE SUMMARY ............................................................................................................................ 1
PIER 58 WATERFRONT PARK CONDITION ASSESSMENT PLAN ........................................................ 5
PHOTOGRAPHS ......................................................................................................................................... 7
INTRODUCTION ....................................................................................................................................... 17
OBSERVATION METHODS....................................................................................................................... 17
SCOPE OF OBSERVATIONS.................................................................................................................... 18
OBSERVATIONS ....................................................................................................................................... 18
Pier 58 ........................................................................................................................................... 18
Pier 57 and 57N ............................................................................................................................. 20
ANALYSIS AND COMMENTARY .............................................................................................................. 21
Overview ........................................................................................................................................ 21
Pier 58 ........................................................................................................................................... 23
Pier 57 and 57N ............................................................................................................................. 23
CONCLUSIONS AND RECOMMENDATIONS .......................................................................................... 24
APPENDICES
A. Pier 58 Timber Pile Ratings .................................................................................................. A-1
B. Pier 58 Steel Pile Ratings ..................................................................................................... B-1
C. Pier 57N Timber Pile Ratings for Piles Supporting the South Observatory and Bridge ....... C-1
D. Global Diving Wood Pile Inspection Log ............................................................................... D-1
E. Piers 57, 58, and 60 Corrosion & Condition Investigation Report,
Executive Summary by Tinnea & Associates, July 2006 ...................................................... E-1

July 2011

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

EXECUTIVE SUMMARY
This 2011 report reviews piles that support the concrete and timber portions of Pier 58 and those piles
within Pier 57 that directly support the South Observatory Tower.
Seattle’s Department of Planning and Development (DPD) requires an ongoing maintenance program of
all piers in the Central Waterfront Fire District in accordance with Director’s Rule 7-90. This rule requires
that an updated statement of the pier’s structural condition be completed every five years. The last report
was completed in 2006 by Tinnea & Associates, LLC.
The 2006 Tinnea Report outlined recommendations that, if followed, would have returned the structure to
a “near-design” level of safety. The 2006 report also allowed for the alternate imposition of load limits
(without repairs) that provided “reasonably safe” conditions. Due to changes in the Central Waterfront
area and seawall upgrades, as well as financial considerations, the city opted to forego repairs and
imposed load restrictions, with the recognition that there was an increased risk of partial collapse in the
event of an earthquake or large wind event.
We understand that the city intends to continue with the policy of maintenance deferral if possible. With
that in mind, this executive summary focuses on the structural implications of no upgrades.

What Continues to Work at Pier 58
Many of the structural components continue to perform well despite deferred maintenance:
•

The timber deck and framed sub-structure condition has not appreciably degraded since 2006.

•

Concrete-constructed elements (North Terrace/Fountain and associated aprons, the Promenade
and South Terrace) continue to need repairs outlined in the 2006 Tinnea report, although their
vertical load carrying capacity has not significantly diminished in the past five years.

•

Steel Monotube piles have diminished capacity but their rate of corrosion is not accelerating.

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 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Problem Area #1: Creosote-Treated Timber Piles
The 341 timber piles supporting the main timber-deck portions of Pier 58 provide the vertical load-carrying
capacity for Pier 58 as well as lateral resistance to earthquake, wind and wave actions. Over time the
creosote treatment has washed out of the timber and the piles have lost effectiveness in limiting marine
borer attack. Once a pile develops a large number of worm-holes the rate of decay accelerates and the
pile will eventually fail.
The standard manner of rating timber piles is to assign a “percentage capacity remaining”. A new pile will
have a 100% rating. Once damage starts to accumulate the piles’ ratings diminish. The Pier 58 pile
ratings over the past ten years and projected forward 5 years are shown here:
Approximate Average Pile Ratings
Year Observed

100%

90%

75%

50%

25%

0%

2000

84 (25%)

204 (60%)

37 (11%)

10 (3%)

4 (1%)

2 (1%)

2006

11 (3%)

189 (55%)

105 (31%)

27 (8%)

7 (2%)

2 (1%)

2011

0 (0%)

52 (15%)

161 (47%)

109 (32%)

16 (5%)

3 (1%)

2016 (projected)

0 (0%)

20 (6%)

100 (29%)

169 (50%)

37 (11%)

15 (4%)

The original piles had a rated live load capacity of around 20 tons and were capable of supporting 200 psf
on the deck area. Even when deteriorated to a 25% rating they retain significant axial capacity (although
less than the code-required 100 psf). In order to maintain the load carrying integrity of the pier, piles
should be replaced when they reach a rating of 25%.
The original design of Waterfront Park would not meet today’s seismic code requirements. As both the
timber and non-timber piles decay, the risk of collapse as a result of a seismic or high wind/wave event
increases. Since most of Pier 58’s lateral capacity comes from the Monotube and steel piles, though, the
incremental loss of lateral capacity in the timber piles is unlikely to significantly increase the likelihood of a
general sway-type collapse (the expected failure is a localized vertical collapse). Eventually, though, the
increased risk of lateral collapse, together with the loss of the vertical load-carrying capacity of the timber
piles, will need to be addressed.
In 2006 there were a total of 9 piles (3%) that had a rating at or below 25%. In 2011 there are
approximately 19 piles (6%). In 2016 there will be over 50 piles (15%). Within the next five years (by
2016) it is reasonable to expect that one or more of these piles will fail. Although not shown here, by
2021 there will likely be over 100 piles that are rated at or below 25% with almost certain failure.
We have studied the consequence of a failed single pile and have determined that the most likely
outcome of this is a degree of sagging and reduced live-load capacity. As long as there are no large
concentrated loads (from a vehicle, for instance) we do not expect that a collapse will occur as a result of
a single pile failure. Our calculations suggest that the actual live load capacity is on the order of 20 psf
when a single pile is removed; although this is less than the code-prescribed 100-psf this reduced
capacity does not mean that a collapse will occur.
In order to continue to utilize the pier as park public space we recommend the following actions:
1. Impose a ban on all vehicular traffic. Install steel bollards at the access points. If access is
needed require a review by a structural engineer prior to accessing.
2. Do not permit large gatherings of people for events.
3. Perform annual load tests of piles testing to 6,000# (approx 30 psf) to identify any failed piles.
We recommend that testing begin this year to establish a baseline.
4. Perform annual row-throughs to look for pile damage beginning in May 2012.

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 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

If a failed pile is identified (as a result of the annual load tests or row-throughs) then access to that portion
of the pier will need to be restricted. Given the current condition of the pier it is possible that the piling will
pass this test for the next five years although the city must be prepared to take action if a pile failure
occurs.
In the event of a high wind/wave event or an earthquake the pier could experience a partial collapse. The
likely mode of failure will be a localized collapse and/or leaning.

Problem Area #2: South Observatory Tower and Bridge
There are two primary issues related to the South Observatory that should be addressed: pile support for
the tower, and inadequate lateral (seismic) capacity.
The north apron on Pier 57 supports the tower and the west end of the bridge. The South Terrace
structure supports the east end of the bridge. We understand that the north apron of Pier 57 may be
deeded to that property owner.
Our inspection of the piles supporting the tower identified potentially inadequate piles – many have 25%
ratings or less and need immediate replacement. The loads imposed by the tower are significant and a
pile failure could result in collapse.
The other issue with the tower and bridge is inadequate seismic support. The Monotube piles supporting
the South Terrace are severely corroded and of questionable capacity. These Monotube piles may fail
when subjected to the high earthquake loads made worse by the heavy weight of the bridge.
Our recommendations for resolving the South Observatory issues are as follows:
1. Remove the South Observatory Tower and Bridge structure as was done at the north side in 2005, or
2. If bridge removal is not possible, then:
a) Upgrade the pile support of the tower structure at the Pier 57 North Apron.
b) Confirm that there is adequate connection to the Pier 57 deck structure for tower seismic forces.
c) Confirm adequate separation with the upper floor of Pier 57.
d) Upgrade the South Terrace structure to resist seismic forces from the bridge.

Conclusions and Recommendations
It is reasonable to allow continued public access to Pier 58 Waterfront Park but with no vehicle access.
Load testing and row-through observation should be performed annually. The city should anticipate
within five years that portions of the park may need to be closed due to a failed load test, in response to
an earthquake or high wind/wave event, or because of the spontaneous loss of a pile due to deterioration.
By continuing to defer maintenance, the practicality of repairing the timber pier to a usable state is
diminishing. The estimated cost of restoring the pier structure to near-code condition in 2006 was
$0.7M-$1.5M. Today the cost of restoration is much higher due to escalation and continued decay.
Within five – ten years, repair of the facility may no longer be practical.
Upgrade of the concrete components of the park (the water feature and the north and south terraces) will
remain viable in lieu of replacement for many years although the upgrade would be costly. These
components have reduced stability due to the on-going corrosion of the supporting Monotube piles. The
delamination of the concrete framing described by Tinnea in 2006 continues to be a problem and these
repairs are becoming more costly the longer they are deferred.
Planning should begin immediately for the removal of the South Observatory, or the upgrade of piles
supporting this structure.

July 2011

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Pier 58 Waterfront Park Study 29/07/11 - 11:56 A

 

LEGEND NOTES 
I
TIMBER BEARING PILE (NO DATA) 1. PILES #1 THRU #65 ARE HP10X42, #66 THRU #78 ARE HP10X157 CALL BEFORE YOU 
SOURCE: 1973 RECORD DWGS NOT LESS THAN TWO OR MORE THAN TEN BUSINESS DAYS
1000/ REMAINING CROSS SECTIONAL AREA PRIOR TO COMMENCING EXCAVATION OR DEMOLITION,
.. .. SECURE THE SERVICES OF A COMMERCIAL UNDERGROUND
2' MONOTUBE PILES ARE 12 DIA 7GA ??79 I UTILITIES LOCATOR SERVICE TO IDENTIFY BELOW-GROUND
SOURCE: 1973 RECORD DWGS IMPROVEMENTS THAT MAY NOT BE INDICATED ON THE
CD 90% REMAINING CROSS SECTIONAL AREA DRAWINGS. FOR IRRIGATION SYSTEMS, CALL SEATTLE
PARKS PLUMBING SHOP (206 684 7070)
C5 75% REMAINING CROSS SECTIONAL AREA >>300 424 5555<<
50% REMAINING CROSS SECTIONAL AREA
I
0 25% REMAINING CROSS SECTIONAL AREA MID L9 kIjREMAINING CROSS SECTIONAL AREA STEEL H-PILE (NOTE 1) I I #4 77777 I7777L74I17II ?31m
NEW GALV STEELPIPE PILE I: d; I 
GALV STEEL FEE CAP MONOTUBE PILE (NOTE STEEL PIPE COL I I I 0 I000 I I 
7 ILIWHWI 791E
?Mj77 777777777 KIKI I I I R767 7777777777 ELIE 
71E Seattle Structural PS Inc.
A 7% JW 7 737778977736 W14 Civil and Structural Engineering
I I I g9\ 1420 Fifth Avenue, Suite 425
7 I I I I Seattle, WA 98101-4019
IaNi I I I I I I 206-343-3000 phone 206-343-3013 fax
II I I I I 75 757-757 7 4:577 7e 7577 7777777777 
17N7 waeec?12727577?9 77I97 757775 7 7e 7 7E7 7<?e7 7 e?\ny117 55555 73>77C97 70?7 75777 7 707 7G7 7 77777 7777777 fl I777 777 ?if 7777 if, I 7,7? if, if, 7, if, if, 1777 I if; 7 7 777777777777 7 777777777
9 73 I767 a 7I10 10% ea 70 (I7 eIk 7? 7I50 7I (I7 G$7?77??77i7?w736 77777777 Igg 
I TOWER 77777 ABOVE 7I777 77 7I79 747 7 {?57 e7 7777777777777777 77777 @957 76-7 e7 7 Jae-?57 7? 7 7577 eIk 777777 7777777 I 77 CL 555555555 07 777777 77777777777777777 7
I I I I I 
77777 077477?67 7&7 er 7 7 7?17 76?7-70%7 7(7II 7(7 77677 7 7 70797 
if, if, I <9 77777 . 5A
I SIRE II, ei?iwim?Hiieigc? nt 7049747$m7O I 
I ?7 I I 
76777 yny,,NO. REVISION AS BUILT DATE
0REVIEWED:
A A 7\ /yI\ /yI\ I I PARK ENGINEER DATE
K5) KB) 63/ \Iy'yI/ \yI/ \ij (N) (Q) (Q) (R) (S) (T) RX) ?xz/I All work dons In accordanc- with the City of Seattle Standard
Plans and Specl?catlone In effect on the date shown above, and
supplemented by Speclal Provlelone.
DESIGNED MOB DATE 6-29-2011
DRAWN BDS
CHECKED SHEET 0F
4, onommc: no. 81
JOB no. P805000
PLAN I 3 SCALE AS NOTED

 

 

 

 

Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Photo 1:

Minimal corrosion at the underside of the South Terrace

Photo 2:

Minimal corrosion at underside of the South Terrace

July 2011

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 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Photo 3:

Monotube piles supporting the horseshoe-shaped beams at the North Terrace

Photo 4: Severely corroded
Monotube pile at the North Terrace

July 2011

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 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Photo 5:

Corrosion of reinforcing steel on the sides of the horseshoe-shaped
beams of the North Terrace

Photo 6:

Corrosion of reinforcing steel on the sides of the horseshoe-shaped
beams of the North Terrace

July 2011

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 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Photo 7:

July 2011

Tall Monotube piles at the North Terrace
with severe corrosion in the splash zone

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 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Photo 8:

Severely corroded steel H-pile along the seawall at the North Apron

Photo 9:

July 2011

Steel H-pile supporting the promenade along the seawall where
barnacles have been removed

11

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Photo 10: Example of a 0% rated pile

Photo 11: Example of a 50% rated pile

July 2011

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 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Photo 12: Pier 58 split in timber pile cap at pile Grids 3/U (photo taken in 2006 –
similar in 2011)

July 2011

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 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Photo 13: Pier 58 concrete pile cap and Monotube pile (photo taken in 2006 –
similar in 2011)

Photo 14: Pier 58 crack in concrete pile cap at south terrace (photo taken in
2006 – similar in 2011)

July 2011

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 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Photo 15: Pier 58 concrete pile cap and
Monotube pile (photo taken in 2006
– similar in 2011)

Photo 16: Pier 58 concrete north terrace apron and steel H-pile (photo taken in
2006 – similar in 2011)

July 2011

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 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Photo 17: Pier 58 concrete promenade and steel H-pile (photo taken in 2006 –
similar in 2011)

Photo 18: Pier 58 concrete firewall (photo taken in 2006 – similar in 2011)

July 2011

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 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

INTRODUCTION
Seattle Structural was contracted by the Seattle Parks and Recreation Department (PRD) to perform a
condition assessment of Pier 57 North (57N) Apron and Pier 58 Waterfront Park. Seattle Department of
Planning and Development (DPD) Director’s Rule 7-90 calls for a maintenance program for wood piers
based on a survey report that includes observation and evaluation of a representative sample of caps,
stringers, and piles, although the number of piles need not exceed 20% of the total.
Pier 58 was built in 1974 using several different construction types. A Creosote-treated timber
superstructure and piles accounts for 70% of the area. North and South Terraces were constructed with
concrete superstructures supported by concrete-filled steel Monotube piles. The concrete apron adjacent
to the North Terrace is supported by steel H-piles along the seawall and timber piles elsewhere. The
concrete Promenade along the seawall also is supported by steel H-piles along the seawall and timber
piles at the transition to the timber portions of Pier 58. A bridge spans from the South Terrace to the
south observatory tower. Both are steel with concrete slabs. The north observatory tower and bridge
were removed in 2006 when the Aquarium Pier 59 was renovated. The south tower has (10) steel
columns of which (5) are supported at Pier 58, (4) on the Pier 57N apron, and one at Pier 57. Pier 57N is
a timber apron with timber piles that was constructed before Pier 58 and was renovated in 1974 to
support the tower columns. Pier 57 is privately owned and was constructed with a timber superstructure
and piles perhaps 100 years ago.
This report is intended to address the survey report requirements of Director’s Rule 7-90. Seattle
Structural performed observations of portions of the superstructure and a number of piles above the
waterline. Global Salvage & Diving (Global Diving) was sub-contracted to observe timber piles below the
waterline. A representative number of piles and pile caps of Pier 58 were observed. Observations of the
Pier 57N apron were performed only on timber piles and pile caps that support steel tower columns as
ownership of this pier could be transferred to another party sometime in the near future and Seattle PRD
would no longer be responsible for its maintenance.
Prior condition studies and the repair history of Pier 58 are listed below.
•
•
•
•
•
•
•
•

1989 – Arnold, Arnold & Associates condition assessment report
1992 – CH2M Hill condition assessment report
1996 – Sprinkler system replacement in accordance with drawings by Buffalo Design (architect)
and Berona/Langebartel (sprinkler engineer)
1998-1999 – Tinnea, Echelon, and Tetra Tech condition assessment report
1999-2000 – Reid Middleton and Echelon condition assessment report
2004 – Repairs to North Terrace in accordance with 1998-1999 report by Tinnea, et al.
2006 – Tinnea, Seattle Structural, and Global Diving condition assessment report
2006 – Seattle Structural demolition/construction cost estimates

OBSERVATION METHODS
The following observation methods were used above the waterline by Seattle Structural:
•
•
•
•
•

Visual observation of piles and superstructure from a small boat
Sound with a hammer (for comparisons with visual ratings) 10% of the piles observed visually
(1) Monotube pile was struck with the head and claw of a hammer at a location of severe
corrosion to determine if base metal remained and to expose the concrete core, if possible
Measure the dimensions of an H-pile in the tidal zone after removing barnacles
Measure the flange thickness of an H-pile above the splash zone

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 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

The following observation methods were used below the waterline by Global Diving:
•
•

Visual observation
Sound piles with a hammer

The diver’s helmet camera and microphone could be monitored in real time onboard the dive boat and
were recorded on DVD for future reference.

SCOPE OF OBSERVATIONS
Seattle Structural observed the piles above the waterline at low tide in mid-May, 2011 when the water
level was minus 3 feet based on the mean lower low water (MLLW) datum. The pier superstructure was
observed at the same time and another time in early June when the tide was plus 4 feet.
Seattle Structural observed the North and South Terraces, the concrete apron adjacent to the North
Terrace, the Promenade, and the northwest area of Pier 58 adjacent to Pier 59 and furthest offshore.
The northwest area was considered “at-risk”, because more than one-third of the piles had ratings of 50%
remaining capacity or less in the 2006 condition assessment. This group of piles was rated worse than
other areas of Pier 58.
Seattle Structural also observed non “at-risk” portions of Pier 58, specifically, timber piles and pile caps
on Grids 2, 6, 10, and 15, to get a representative distribution over the entire area. These grids are
parallel to the seawall with Grid 1 being the closest to the seawall and Grid 2 being the first row of timber
piles.
Global Diving observed the “at-risk” timber piles in the northwest area, the timber piles supporting the
concrete apron of the North Terrace, the piles supporting the south observatory tower columns, and
non “at-risk” timber piles along Grids 6 and 7. The divers could not observe all of the same non “at-risk”
piles as Seattle Structural in the time available. It is more efficient for the divers to observe piles out and
back along adjacent grids. The water level varied between plus 4 to minus 2 feet based on MLLW datum.

OBSERVATIONS
Pier 58
Timber Piles
Seattle Structural observed 158 of 341 timber piles at Pier 58 and Global Diving observed 106 piles which
included an overlap of 88 piles. As much as possible, we sought to have Global Diving observe the same
piles as Seattle Structural so pile ratings could be based on observation of the entire pile. We also
wanted to compare the ratings above and below the waterline. Of the piles rated by both observers,
Global Diving rated 97% of the piles the same or worse than Seattle Structural which is expected
because most damage from marine borers occurs from the inter tidal zone down to a foot below the
mudline. Seattle Structural observed 32 piles near the seawall that were completely or almost completely
exposed down to the riprap at low tide, which makes a total of 138 piles that were observed from top to
bottom or 40% of the Pier 58 timber piles.
The attached pile plan shows the ratings by Global Diving plus the piles along the seawall which were
rated by Seattle Structural. The Seattle Structural and Global Diving personnel who observed and rated
the piles this year, also observed and rated the piles in 2006.
The rating for each pile is reported in Appendix A for prior year studies as well as this year. In a pile-bypile comparison, there are piles with better ratings this year compared to 2006, which can be attributed to
the observation processes.

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 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

A summary of the pile ratings for this year and prior year studies are shown in Table 1. Based on the
percentage of piles at each rating, the quantities are extrapolated for all 341 piles. While less than half
the piles were observed this year in accordance with Director’s Rule 7-90, nearly all piles were observed
and rated in prior years. The quantities for prior year studies also were extrapolated for easier
comparison of year-to-year results. Overall, the pile ratings are worse for each successive study. This
trend is projected out to year 2016 to show how many piles will be in jeopardy in 5 years.

Table 1: Summary of Timber Pile Ratings for Pier 58
Pile Ratings

Year
Observed

100%

90%

75%

50%

25%

0%

Pile Qty

2000

84 (25%)

204 (60%)

37 (11%)

10 (3%)

4 (1%)

2 (1%)

341

2006

11 (3%)

189 (55%)

105 (31%)

27 (8%)

7 (2%)

2 (1%)

341

0 (0%)

21 (15%)

65 (47%)

44 (32%)

7 (5%)

1 (1%)

138

0 (0%)

52 (15%)

161 (47%)

109 (32%)

16 (5%)

3 (1%)

341

0 (0%)

20 (6%)

100 (29%)

169 (50%)

37 (11%)

15 (4%)

341

2011
(observed)
2011
(extrapolated)
2016
(projected)

Timber Pile Caps
The timber pile caps are above the splash zone and have no significant surface rot and no observable
marine borer activity. The ends of some caps at the edge of the pier look “weathered” but they have no
significant loss of capacity as the damage that exists is in a region of low stress. A pile cap near Grids
3/U has an inclined crack that has not changed significantly since 2006. The timber pile caps generally
are in satisfactory condition.
Timber Superstructure
No significant deterioration of the deck or stringers was observed.
Fire Separation Walls
Damage to the timber fire separation curtain near Pier 59 along grids II and 11 was observed in 2006 and
it is now missing completely. The concrete fire separation curtain along Grid Q is partially damaged and
exposed rebar has corroded. Its condition is not significantly worse than 2006.
Steel H-Piles
The steel H-piles are corroded in the splash zone which is a couple feet below the bottom of concrete
near the North Terrace and just below the bottom of concrete near the South Terrace which is lower than
the North Terrace. The corrosion in the splash zone is 3-4 feet high. The corrosion of H-piles was more
severe near the middle of Pier 58 between the North and South Terraces than the other areas.
The flanges and webs of the H-piles are corroded, but the corrosion appears to be more advanced along
the edges of the flanges and less so at the webs and the flange-web intersection. The total thickness of
the remaining steel and the rust is approximately 4 times the original flange thickness. Using a rule-ofthumb that rusted steel is 10 times thicker than the original base metal, 67% of the original flange section
remains. Assuming that the loss is maximum at the flange tips and zero at the flange-web intersection,
the H-piles have 88% of their cross sectional area remaining. The loss is not critical at this location of the
pile, because it is an area of low stress.

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 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

The piles have rust stains along the edges of the flanges in the barnacle-encrusted tidal zone, which
suggests that corrosion has occurred. Rust stains are less prominent on the webs and the flange faces.
The barnacles were scraped off to expose the flange surface of one HP10x42 pile over an area 12 inches
high. Primer paint was observed on 6”-9” of the width and still adheres to the steel over much of that area
but easily flaked off near the edges on the exterior face. Rust has not built up along the edges of the
flanges like it has in the splash zone above. The flange widths varied from a maximum of 101/8”, which is
the original width, to a minimum of 10”. The flanges were thin at the edge and tapered to the original
thickness over a width of ½” to 2”. Assuming that all H-piles have lost triangular cross sectional areas
from each corner of all flanges along the full length of the pile, the remaining axial and flexural capacities
are 90% of the original section. Steel H-piles completely exposed at low tide have section loss at the
riprap where moment is highest due to lateral load. We were not able to determine whether or not piles
that remain partially submerged at low tide have similar section loss at the mudline or riprap.
Monotube Piles
The Monotube piles at the North and South Terraces are 12-inch diameter, 7 gage (0.179-inch thick)
steel. They are proprietary cylindrical piles fabricated with vertical fluting and filled with concrete after
driving. All of the Monotube piles have corrosion in the splash zone and are barnacle encrusted in the
tidal zone. The splash zone starts at or several feet below the bottom of the concrete at the North
Terrace depending on the bottom of concrete elevation. It starts a couple feet below at the South
Terrace. The corrosion in the splash zone varied in appearance from surface rust to cracked and flaky.
The cracks ran vertically along the outer edge of the vertical flutes. The extent of the corroded areas
varied from spots 4-12 inches in diameter randomly distributed, to a completely corroded surface
encircling the pile for a few feet of the pile length. We were not able to break through the rust down to the
concrete core by striking the rust with a hammer. The point of impact appeared shiny and gray like a
freshly exposed steel surface.
Concrete Superstructure of the North Terrace and Apron
Parts of the North Terrace concrete superstructure are in the splash zone and the bottom half of the
horseshoe-shaped concrete beams are submerged in high tide. The concrete beams in the splash zone
have rust stains indicative of reinforcing steel corrosion. The corrosion almost certainly has advanced but
it does not appear to be significantly worse than 2006. No significant rebar corrosion was observed in
other areas of the North Terrace and its concrete apron which are above the splash zone.
Concrete Superstructure of the South Terrace
Some rust stains on the soffit of some beams that are nearest the water otherwise no significant corrosion
was observed. Cracks were observed in the soffit of (2) concrete beams in 2006 have not increased in
length. The cracks do not exhibit any rust stains, but corrosion or some other mechanism is causing the
cracks.
Alaskan Way Promenade
No corrosion or other serious problems were observed.
Concrete Electrical Vault
A concrete electrical vault was constructed adjacent to Pier 59 at the north edge of Pier 58 in 2006 as
part of the Pier 59 Aquarium Pile Replacement/Renovation. It is supported by 4 steel pipe piles. The
concrete electrical vault and steel piles were not observed for this condition assessment.

Piers 57 and 57N
Observations of Piers 57 and 57N were concentrated on the timber beams, bent caps, and piles that
support the south observatory tower. Pier 57 is privately owned. If ownership of Pier 57N is transferred
from the City of Seattle to the owner of Pier 57, then elements of Pier 57N that support the tower would
continue to be of concern to the City.

July 2011

20

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Timber Piles
Timber beams of Pier 57N support (4) steel columns of the south observatory tower. The beams are
simple span members parallel to the stringers. Both are supported by the timber bent caps and piles.
The beams are loaded mostly in shear and moderately in flexure as the tower columns are located near
ends of the beams. The stringers are 2-span members with all stringers continuous over one bent cap
and terminating at the bent caps on either side. Bent caps are supported by 4-7 piles. This framing
system has less redundancy than the Pier 58 framing system for overloaded or weakened members to
share their load with other members.
One of the tower corner columns supported by Pier 57N is heavily loaded as it also supports one corner
of the bridge. It is nearly over Bent Cap 17N and is supported by (3) piles with a combined rating
equivalent to (2) sound piles.
A column supported near Bent 18N has a pile with 0% rating directly below and (2) other nearby piles
with a combined rating equivalent to 1¼ sound piles. The 0% rated pile has had the same rating since
the year 2000 condition survey.
Pier 57 supports (1) column of the south tower. The timber bent cap and piles that had supported this
column have been replaced with a galvanized steel wide flange bent cap and galvanized steel pipe piling
as part of a renovation that was in progress in May 2011.
Timber Superstructure
No significant deterioration of the timber deck, stringers and beams of Pier 57N was observed.

ANALYSIS AND COMMENTARY

Overview
The types of decay and damage that timber piles can sustain were described in the 2003 report “Seattle
Aquarium Pier 59 Upgrade Study” by Seattle Structural:

Pile decay and section loss can be attributed to a number of reasons.
Mechanical Damage

The timber piles may have been damaged during their
installation or later due to impact from equipment or
debris. Especially at the east end, where the fill
material is shallow and there is dumped construction
debris, many of the piles exhibit mechanical damage at
the mud line.

Marine Borer Attack

The piles are subject to damage by marine animals.
The damage may be on the exterior or on the inside
where the damage is unobserved.

Fungal Decay and
Biological Deterioration

The original timber piles were treated with creosote to
inhibit their decay. The leaching of preservatives into
the saltwater over the years has allowed wood
deterioration. This loss at the wood surface, where the
creosote has leached out, results in the general loss of
pile diameter. In many cases, the wood remains intact
at the pile’s interior, where there exists

July 2011

21

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Marine borer attack is one of the two primary types of timber pile damage observed at Pier 58 and 57N.
The timber pile ratings in the appendices are the pile areas remaining based on estimated losses due to
marine borers.
The other common type of pile damage is fungal decay and biological deterioration. Global Diving found
this type of damage on the surface of nearly all timber piles. The surface deterioration is noted in their
report as punk 1/8“-¼“ deep. A ½“ reduction in the diameter of a 12” pile reduces its axial capacity by 15%
and its lateral load capacity in bending by 12%.
The types of pile failures that can occur are axial failure (buckling), flexural failure, or combined axialflexural failure. Piles are tall, slender members that may fail at or a few feet above the mudline due to
lateral buckling with the pile braced at the top by the superstructure and other, typically shorter piles that
do not buckle. Flexural failures can occur due to wind, waves, or seismic forces with the piles acting as
cantilevered members that develop their maximum flexural stress at the point of fixity below mudline. The
types of failures are illustrated in Figure 1 which is taken from the 2003 report by Seattle Structural.

Figure 1: Types of Pile Failures
The typical pile size used in our analyses was 14 inches at the top and 12 inches at the mudline which
are based on field measurements from previous studies. The report “Maintenance Program Pier 58/59
(WC 676)” by Echelon in 2000 noted on calculation page E12 that a 1995 pile inspection by Sunchaser
measured the diameters of 96 piles. The average pile diameters were 12.3 and 14.4 inches at the tip and
butt, respectively. Seattle Structural measured the diameter of 81 piles at the mudline during construction
administration of the piling replacement and renovation of Aquarium Pier 59 in 2005. Steel replacement
piles were erected on the stub piles that remained. The average least diameter of the piles at the mudline
was 12.8 inches.
Pile lengths were determined from the 1973 construction drawings for Pier 58. Sounding elevations of
the mudline are given on sheet A2. Top of pile elevations were obtained from the structural drawings and
details. Typically piles are assumed to develop fixity 5-10 feet below the mudline. We used 7 feet below
the mudline in our calculations for consistency with the calculations in the report by Echelon in 2000. The

July 2011

22

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

average timber pile is 44 feet tall above the assumed point of fixity, the average Monotube pile is 42 feet,
and the average steel H-pile along the seawall is 30 feet.

Pier 58
The seismic loading requirements in the current building code are more stringent than in 1973. If the
timber structure were isolated from the other portions, our analysis indicates it could resist a design level
earthquake because it has a large number of piles supporting a relatively small mass. The concrete
portions have large masses and relatively few Monotube piles, steel H-piles and timber piles. Pier 58 as
a whole does not have sufficient strength for a design level earthquake.
The prevailing wind and wave direction push Pier 58 toward the seawall. We do not anticipate a failure
due to wind because of the sheltering provided by the seawall and adjacent structures. Wave forces
could damage or fail an isolated timber pile that has been weakened by marine borers at or a few feet
above the mudline.
The specified timber pile bearing capacity is 20 tons. A typical timber pile supports a dead load of 1.5
tons. A uniform design live load of 100 psf imposes an additional axial load of 7 tons.
The tower columns are each supported by 2 timber piles each at Pier 58. The pile ratings are 90% or
better for all piles supporting tower columns. The most heavily loaded piles support the tower and the
bridge.
Some or all of the H-piles once had a cathodic protection system that was not maintained and is no
longer operational. The cathodic protection system probably delayed the onset of corrosion while it was
functional.

Piers 57 and 57N
The tower columns supported by Pier 57N carry substantial axial load but they are not as heavily loaded
as the columns which also support the bridge. The columns are supported by beams spanning between
bents which bear on the pile-supported bent caps. The bents typically have 4-7 piles each, of which, (3)
piles are more or less directly below the tower support beams. The other piles help to support the
stringers and deck.
The load when shared by the (3) piles according to their capacity, is equivalent to 20 tons per pile for
dead load plus the design live load of 100 psf. Assuming Pier 57N piles have the same initial 20-ton
design capacity as the Pier 58 piles, the corner column has satisfactory support based on our
observations of the current conditions. Similarly, the piles supporting one of the interior columns and
piles supporting the stair column have sufficient capacity to support dead plus design live load even
though some piles have lost significant cross sectional area.
Adjacent piles support the column dead load through cantilever action of the bent cap and continuity of
the stringers, but there is little capacity remaining for any live load. A potential failure mechanism is
settlement of the column and uplift at the other end of the bent cap. There has been no failure as it is
unlikely the tower has been loaded with the 100 psf design live load as a realistic live load for people
dispersed over a large area is 5 psf. Based on these observations we recommend replacement of piles
directly under tower columns.
We expect that the new galvanized steel pile cap and piles which support one corner column of the tower
are designed to support its load. No other tower columns are supported by Pier 57 piles.

July 2011

23

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

CONCLUSIONS AND RECOMMENDATIONS
In consideration of tight budgetary constraints, the least cost actions that we recommend for Pier 58 are
as follows:
1. Ban vehicular traffic to all areas of Pier 58. Post a notice of the vehicle ban. Enforce the ban by
installing bollards at access points. If a vehicle needs access, a structural engineer should
evaluate the proposed vehicle loading prior to approval and access.
2. Do not encourage large groups of people to congregate in any area of Pier 58.
3. Conduct annual row-throughs under the pier to identify apparent deficient piles and/or
superstructure. A row-through was conducted this year for this report so the first annual rowthrough should begin in 2012.
4. Conduct annual load tests of piles and areas suspected of having deficient capacity. We
recommend using a 6,000 lb vehicle (30 psf) to load the test areas. Measure the deflection of the
deck to determine if there is any unusual or excessive movement. This test should be conducted
or supervised by a structural engineer. The first test should be conducted in 2011 to have a
baseline of deflection data for future reference.
5. Begin planning now for one of the following possible actions for the south observatory tower and
bridge:
a. Plan and budget for the removal the tower and bridge, or
b. Plan and budget for maintenance of Pier 57N piles that support tower columns. We
estimate (8) replacement piles are required at this time. This quantity will maintain the
pier in a safe condition over the next 10 years. The approval process will be smoothest if
the replacement piles are steel but the cost will be lower with treated timber piles.
6. The concrete superstructures of the north and south terraces, the north terrace apron, and the
promenade will eventually need to be repaired, replaced, or demolished. The north terrace in
particular has serious reinforcing steel corrosion that may not be accelerating at this time but is
on-going. All of these areas are supported by Monotube piles and steel H-piles that have serious
corrosion. The cost of repairs or replacement would be high.

July 2011

24

 APPENDIX A

Pier 58 Timber Pile Ratings

 

July 2011 
?rucimal

Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Appendix A: Pier 58 Timber Pile Ratings
BENT

PILE
NO.

1

14
15
16
17
18
19
20
21
3
4
5
6
7
8
9
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
1
2
3
4
5
6
7
1

2

3A

3

% CAPACITY REMAINING
2000
2006
2011
100%
100%
100%
100%
100%
100%
90%
90%
90%
100%
90%
90%
90%
75%
100%
50%
90%
90%
90%
90%
90%
90%
90%
90%
90%
90%
90%
90%
90%
90%
90%
100%
90%
75%
100%
90%
90%
90%
100%
100%

NR
NR
NR
NR
NR
NR
NR
NR
75%
25%
50%
90%
90%
75%
90%
25%
75%
75%
90%
75%
50%
75%
90%
90%
75%
50%
75%
75%
75%
50%
75%
90%
NR
90%
75%
90%
90%
90%
90%
90%

REMARKS

25%
75%
75%
50%
90%
75%
75%
75%
90%
50%
90%
90%
25%
0%
75%
25%
75%
75%
75%
75%
50%
90%
90%
90%
75%
25%
75%
50%
75%
25%
75%
90%
50%
50%
75%
50%
50%
75%
50%
75%

NR = not rated

July 2011

A-1

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Appendix A: Pier 58 Timber Pile Ratings
BENT

PILE
NO.

3

2
3
4
5
7
8
9
10
11
12
13
14
15
16
17
18
19
1
2
3
4
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
1
2
3

3.5

4A

4

% CAPACITY REMAINING
2000
2006
2011
90%
100%
100%
90%
90%
90%
90%
100%
100%
90%
90%
90%
90%
90%
90%
75%
90%
100%
100%
90%
100%
90%
90%
90%
90%
90%
90%
90%
90%
90%
90%
100%
90%
90%
100%
90%
90%
100%
100%
100%

90%
90%
90%
90%
90%
90%
75%
90%
100%
75%
75%
90%
75%
90%
50%
90%
90%
90%
90%
90%
75%
90%
90%
90%
NR
75%
25%
90%
90%
90%
75%
90%
90%
75%
75%
75%
25%
90%
90%
90%

REMARKS

NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
50%
75%
50%
50%
50%
75%
50%
50%
75%
75%
75%
50%
50%
50%
75%
50%
75%
NR
NR

NR = not rated

July 2011

A-2

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Appendix A: Pier 58 Timber Pile Ratings
BENT

PILE
NO.

4

4
5
6
7
8
9
10
11
12
13
14
15
16
1
1
2
1
1
1
2
3
4
5
6
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16

4.3
4.5
4.7
4.9
5A

5

% CAPACITY REMAINING
2000
2006
2011
100%
100%
90%
100%
90%
90%
90%
100%
90%
90%
100%
90%
100%
90%
100%
90%
90%
90%
90%
100%
100%
90%
90%
90%
90%
100%
90%
100%
100%
90%
100%
90%
100%
90%
90%
90%
90%
90%
100%
90%

90%
90%
90%
90%
90%
75%
75%
90%
75%
75%
90%
75%
75%
NR
90%
90%
NR
NR
90%
75%
90%
75%
90%
90%
90%
90%
90%
90%
90%
90%
90%
90%
90%
90%
90%
75%
90%
75%
90%
75%

NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
50%
75%
75%
75%
75%
75%
75%
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR

REMARKS

Pile F-4

Pile F-7
Pile F-5

NR = not rated

July 2011

A-3

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Appendix A: Pier 58 Timber Pile Ratings
BENT

PILE
NO.

5
5.5
6A

17
1
1
2
3
4
5
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
1
2
3
4
5
6
7
8
11
12
13
14
1
2
1
1
2
3

6

7

7.5
7.9
8

% CAPACITY REMAINING
2000
2006
2011
50%
90%
90%
90%
90%
90%
100%
25%
90%
75%
90%
50%
100%
90%
100%
90%
100%
100%
90%
75%
90%
100%
90%
90%
90%
100%
50%
100%
100%
100%
100%
100%
90%
90%
90%
90%
NR
90%
90%
90%

0%
NR
90%
90%
75%
75%
90%
50%
75%
75%
90%
90%
90%
90%
90%
90%
90%
90%
75%
25%
75%
100%
75%
75%
90%
90%
90%
90%
75%
90%
90%
75%
90%
75%
75%
75%
75%
90%
90%
50%

NR
NR
50%
50%
50%
75%
75%
75%
50%
50%
50%
75%
75%
75%
75%
75%
50%
50%
50%
25%
50%
75%
75%
75%
50%
50%
50%
50%
75%
75%
75%
75%
75%
50%
NR
NR
NR
NR
NR
NR

REMARKS

Pile F-6

NR = not rated

July 2011

A-4

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Appendix A: Pier 58 Timber Pile Ratings
BENT

PILE
NO.

8

4
5
6
7
8
9
10
11
12
13
14
15
16
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
3
4
1
1.1
2
3
4
5
6
7

9

9.5
10

% CAPACITY REMAINING
2000
2006
2011
90%
90%
90%
90%
90%
100%
90%
100%
90%
90%
90%
90%
90%
90%
75%
100%
75%
75%
90%
90%
100%
100%
90%
90%
90%
90%
100%
90%
100%
90%
90%
90%
75%
90%
75%
75%
100%
75%
25%
100%

75%
75%
90%
50%
50%
90%
90%
100%
90%
75%
90%
90%
90%
75%
75%
100%
75%
75%
90%
75%
90%
90%
90%
90%
90%
90%
90%
100%
90%
90%
90%
75%
90%
90%
90%
90%
75%
90%
90%
0%

REMARKS

NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR

NR = not rated

July 2011

A-5

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Appendix A: Pier 58 Timber Pile Ratings
BENT

PILE
NO.

10

8
9
10
11
12
13
14
15
16
17
18
19
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
1
2
3
4
5
6
7
8
9
10
11

11

12

% CAPACITY REMAINING
2000
2006
2011
100%
50%
90%
100%
100%
100%
90%
90%
90%
90%
90%
90%
90%
90%
75%
90%
75%
90%
50%
100%
100%
90%
100%
90%
100%
90%
90%
90%
100%
90%
100%
75%
75%
75%
100%
90%
100%
90%
90%
0%

75%
100%
75%
75%
90%
90%
75%
75%
90%
90%
75%
90%
90%
90%
90%
75%
50%
75%
90%
90%
50%
75%
90%
90%
100%
75%
75%
90%
100%
90%
90%
75%
90%
90%
90%
90%
90%
75%
90%
90%

REMARKS

NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR

NR = not rated

July 2011

A-6

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Appendix A: Pier 58 Timber Pile Ratings
BENT

PILE
NO.

12

12
13
14
15
1
2
3
4
1
2
3
4
5
6
7
8
9
1
2
1
2
3
4
5
6
7
8
9
1
2
1
1
2
3
4
1
2
1
2
3

12.5

13

13.2
14

14.2
14.5
14.7

14.8
15

% CAPACITY REMAINING
2000
2006
2011
90%
90%
90%
90%
75%
100%
90%
100%
90%
90%
90%
90%
100%
90%
50%
90%
90%
90%
90%
90%
90%
90%
90%
100%
90%
90%
90%
75%
90%
90%
90%
90%
100%
0%
90%
90%
100%
75%
90%
90%

90%
75%
75%
90%
90%
90%
90%
90%
90%
90%
90%
75%
90%
90%
90%
75%
NR
90%
90%
75%
75%
90%
75%
90%
90%
75%
90%
50%
75%
90%
75%
90%
75%
75%
75%
100%
100%
75%
50%
75%

REMARKS

NR
NR
NR
NR
90%
90%
90%
90%
NR
NR
NR
NR
NR
NR
NR
NR
NR
90%
90%
NR
NR
NR
NR
NR
NR
NR
NR
NR
90%
90%
NR
NR
NR
NR
NR
90%
90%
50%
75%
50%

NR = not rated

July 2011

A-7

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Appendix A: Pier 58 Timber Pile Ratings
BENT

PILE
NO.

15

6
7
8
9N
9
12
1
1
2
1
2
3
4
1
1
2
3
1
2
3
4
5
6
7
1
1
2
1
2
3
4
5
6
7
1
2
1
2
3
4

15.1
15.3
15.5

15.8
15.9

16

16.1
16.5
17

17.3
18

% CAPACITY REMAINING
2000
2006
2011
90%
75%
75%
25%
90%
90%
90%
90%
90%
75%
75%
75%
100%
90%
90%
75%
90%
90%
90%
90%
90%
90%
75%
75%
90%
90%
75%
75%
90%
90%
90%
90%
90%
100%
90%
90%
25%
50%
90%
75%

75%
25%
75%
75%
90%
100%
50%
NR
NR
90%
90%
90%
90%
90%
50%
90%
50%
75%
50%
90%
50%
75%
90%
75%
90%
75%
50%
25%
50%
75%
50%
50%
75%
90%
75%
50%
50%
75%
75%
50%

REMARKS

75%
90%
25%
75%
90%
90%
NR
NR
NR
NR
NR
NR
NR
NR
75%
NR
NR
75%
75%
75%
75%
50%
50%
NR
NR
NR
NR
50%
75%
75%
50%
50%
75%
75%
NR
NR
50%
75%
75%
75%

NR = not rated

July 2011

A-8

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Appendix A: Pier 58 Timber Pile Ratings
BENT

PILE
NO.

18

5
6
7
1
2
1
2
1
2
1
1
2
3
1
1
2
3
1
2

RR
SS
TT
UU
VV

WW
XX

YY

% CAPACITY REMAINING
2000
2006
2011
90%
50%
50%
75%
90%
90%
90%
100%
90%
75%
90%
90%
75%
90%
75%
90%
100%
75%
75%

50%
75%
90%
50%
90%
75%
90%
90%
90%
75%
75%
75%
90%
75%
90%
75%
100%
75%
75%

REMARKS

50%
75%
75%
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR
NR

NR = not rated

July 2011

A-9

 APPENDIX 

Pier 58 Steel Pile Ratings

 

July 2011 
?rucrural

Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Appendix B: Pier 58 Steel Pile Ratings
PILE
NO.

PILE
TYPE

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

H
H
H
H
H
H
H
H
H
H
H
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
H
H
H
H
no pile
no pile
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube

July 2011

% CAPACITY REMAINING
2006
2011
100%
75%
75%
75%
75%
75%
75%
75%
75%
75%
75%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%

75%
75%
75%
75%
75%
75%
75%
75%
75%
75%
75%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%

25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%

25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%

REMARKS

B-1

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Appendix B: Pier 58 Steel Pile Ratings
PILE
NO.

PILE
TYPE

41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
77A
78
79

Monotube
Monotube
Monotube
Monotube
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
Monotube

July 2011

% CAPACITY REMAINING
2006
2011
25%
25%
25%
25%
25%
25%
25%
25%
25%
75%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%

25%
25%
25%
25%
25%
25%
25%
25%
25%
75%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%

REMARKS

does not support pile cap - short pile
does not support pile cap

B-2

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Appendix B: Pier 58 Steel Pile Ratings
PILE
NO.

PILE
TYPE

80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119

Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube

July 2011

% CAPACITY REMAINING
2006
2011
25%
25%
25%
25%
25%
25%
50%
25%
25%
25%
25%
50%
50%
50%
50%
50%
50%
50%
50%
50%
50%
50%
25%
25%
25%
50%
50%
25%
50%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%

REMARKS

25%
25%
25%
25%
25%
25%
50%
25%
25%
25%
25%
50%
50%
50%
50%
50%
50%
50%
50%
50%
50%
50%
25%
25%
25%
50%
50%
25%
50%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%

B-3

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Appendix B: Pier 58 Steel Pile Ratings
PILE
NO.

PILE
TYPE

120
121
122
123
124
125
126
127
128
129
130
130A
131
132
133
134

Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube
Monotube

July 2011

% CAPACITY REMAINING
2006
2011
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%

REMARKS

25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%
25%

B-4

 APPENDIX C

Pier 57N Timber Pile Ratings
for Piles Supporting
the South Observatory and Bridge

July 2011

 Piers 57N/58 Maintenance Plan Update: Waterfront Park Condition Assessment – (WC2429)

Appendix C: Pier 57N Timber Pile Ratings
for Piles Supporting the South Observatory and Bridge
BENT

PILE
NO.

17N

1
2
3
4
5
6
7
1
2
3
4
5
6
1
2
3
4
5
1
2
3
4
1
2
3
4
5
6
1
2
4
5

18N

19N

20N

21N

22N

% CAPACITY REMAINING
2000
2006
2011
50%
0%
100%
0%
90%
0%
90%
0%
90%
75%
50%
0%
75%
50%
75%
75%
75%
75%
90%
0%
90%
0%
0%
50%
90%
90%
75%
0%
0%
90%
0%
75%

75%
75%
90%
75%
75%
90%
0%
0%
25%
25%
25%
0%
50%
0%
25%
25%
0%
50%
75%
0%
75%
0%
0%
0%
90%
90%
50%
0%
0%
50%
0%
0%

REMARKS

75%
50%
75%
NR
NR
NR
NR
0%
50%
75%
NR
NR
NR
NR
NR
50%
25%
75%
NR
50%
0%
NR
NR
NR
50%
50%
NR
NR
NR
0%
25%
NR

NR = not rated

July 2011

C-1

 APPENDIX 

Global Diving Wood Pile Inspection Log

 

July 2011 Se?me
?rucimal

 

GLOBAL

Diving 8: 

June 28, 2011

Seattle Structural PS, Inc.
1420 5th Ave

Suite 425

Seattle, WA 98106

Attn: Mr. Michael Braun
Re: Seattle Parks Pier 58 Waterfront Park Condition Assessment

On June 2, 2011 Global Diving and Salvage Inc. performed an underwater inspection of selected piles on Pier
58, Waterfront Park, Seattle, WA. Inspecting diver was Dan Gilchrist. Purpose ofthe inspection was to ascertain
the condition of the piles as compared to a survey performed by Global Diving in March of 2006. Diver
inspected piles as directed by the attending representatives from Seattle Structural PS, Inc.

The dive was performed from a dive support vessel using surface supplied dive gear with two way
communications. A video camera and light was used to monitor the diver and to record his findings. Visibility
at the time of the dive was approximately 8 feet.

The diver performed a Level I inspection, relying primarily on visual and/or tactile observations to make
condition assessments. Individual observations on each pile inspected are included in the Wood Pile Inspection
Logs attached. Bent and pile designation were determined using drawings supplied by Seattle Structural.
Records of the dive are also provided in this report.

Submitted without prejudice
Global Diving Sah/ age, Inc.

Mike Langen
Construction Division

3840 Marginal Way SW 0 Seattle, WA 98106 . 0 24 Hr: (206) 623-0621 0 Fax: (206) 932-9036

Association of American I
Diving Qontractors Salvage gigsmog?ggw
InternatIonal AssomatIon 

Mmpuym

 

 

 

GLOIBAL DIVING SALVAGEJNC.
WOOD PILE INSPECTION LOG

Customer: Seattle Structu_ra  PS, Inc.

 

WIO:

106298

 

Date:

97

Location: Pier Seattle, WA



 

BENT

Damage
PILE Type

Damage
Loca?on


Sound Wood

Time

DAMAG 

 

3?3"

1 

1/ 33?

(kart) 

 

76?
70

Mb 


,9th

3:3sz

 

Pull/1C

 

NWT



53/

g5 ggrtAM/Ilj?? $1Nl/h1mmgliw?r;



?13 {Wm?d

 

70

-
(yaw) 

 

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6 IN TIE/lav: (THEM

 



5T

l/?7

aft/UNI waems 6'3 LIA/omit NE

 

?70



[doom (am/Q 

 

7D

 


7? (I MT

5?

1151'
2/5?

[At-aim Irma/r)

5mm? Worm/xi 719?

 

WM

 

 

 

 

 

 

 

 

 

 

 

 

 

File Report Pier 58.xls

OUEQ

 

GLOBAL DIVING SALVAGEJN C.
WOOD PILE INSPECTION LOG

Customer:

10a; 

WIO:

 

Date: (a . 

Tinnea Associates

Location: ?g W19

 

BENT

Damage

LOCATION

PILE

Type

Face

Elev

TIME

DAMAGE REMARKS

 



75%

[74/

13-05

 

 

?070



1201?

 



 

73 own 470;? 4F 

 

  

40412 104445me: mars 5M

 

f?o?z

121/0

9M1.

 

My 507W70

[2/5



 

ga/ 

/7 rm: 7?

 

gupawf 

 

i/o/SO

 

/0 Al #6

Wm

mun/[M 

fan/K 4:41:7me

 

7



Pun/16 Spam. (palms new?

 

.5043"

 

10/ 70/

Vii ?4901; (1 

 

puMC SggAx. meme mime.

 

?22/0 

?fui?? 5514176293 IME 5%

 



 

 

 

 

 

 

 

71* ??muo/zm? .97"vaer

 

 

KEY: CH-Chips CON?Concrete; DAM-Damage; FC-Full Circle; Line Fracture; L. -Lifting 

MlL?Mudline; SP - Spell; W/L-Waterline

 

Dam, MM mg an 0115544412 Qua/I15. 5'05

GLOBAL DIVING SALVAGEJNC. 494494-?

 

WOOD PILE INSPECTION LOG 
Date: 1/

Customer: Tinnea&Associates Location: p,g? f7 55f?5 (Al/?7
I 



 

 

Damage LOCATION

 

BENT PILE Type Face I Elev TIME DAMAGE REMARKS

g7?? ?g?g ?165;? Jamaal 5?21.sz 5M 42mg

(?3214/

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

KEY: CH-Chips CON-Concrete; DAM-Damage; FC-Full Circle; Line Fracture; L.E.-Lifting 
MlL?Mudline; SP - Spall; W/L?Waterline

 

GLOBAL DIVING 8: SALVAGE, INC.
PILE wro: mg 2. 8

 

Date: ?-Ju n-1 


 

Customer: City of Seattle Seattle Structural Location: Pier 58 - South of Concrete Firewall at Grid 

 

BENT PILE Damage Damage %Sound Time 
Type Location Wood

 

i [4 

$7 1I 7070 [59} 23 COM,

 

i/H PurJlL 

 

I 2I ?ft-?522) 1330/ <nl7i?rli wn?m5 WW
3 I W757 I??zp I 

 

 

 

L553 I mm mm Mm/

 

g. lam 154?r52 i643

 

 

 

8 I A ((20 755?] marl/I45 owi?flWWZ .155?? 577% a/z
,952 H00 warms Home MW 11qu Spain/E :wzm?4an is? ?7?05 6m 5m. cw ,Mf. Sta?; 6?34; {Mia}, Ow? L120

 

1% g, @7537 lL/Db i??f?lej/IEJ wanNmS farm/4 W??pv? 5 3W5

 

$5 I0 I (1707;) MM) limp?ma mamM3227 [4/3 3mg ll) Tag pull??DC 91/19,.

 

3 I 4757?? ?/20 lM/I/thi/mn?, mg?m?:

 

4 5 I a) fitminer/M

 

GLOBAL DIVING SALVAGEJNC.
WOOD PILE INSPECTION LOG

Customer:

Seattle Structural PS, Inc.

 

Location:

WIO:

106298

 

Date:

Pier 58, Seattle, WA



 

BENT

PILE

Damage
Type

Damage
Loca?on


Sound Wood

Time

DAMAG El REMARKS

 



a?



8b

We:

gd?ma/J/ wry/r/?v? Map/,ur {Mi-z)

 

Mm


I
?31%



MUD (IWFE 64147: 1w?: 

 

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{m 

50 f??/yw

 



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w??m

7 

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7? 7737?} Wage!?

 



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@470

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(:70

WW nukes @4144?) 

 

3?

Nam

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hv

4.40;; 

01/5: ID 717% ?ll/r; 

 

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71-0

 

 






80

3 2'3 P??m DMD 7?00 Nata/115

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Off-'2'; Gan-mm M/Lu/?/Inlr? r?a?

3? off 5.

 



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41%?



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Pile Report

Pier 58.xls

 

 

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GLOBAL DIVING SALVAGEJNC.
WOOD PILE INSPECTION LOG

Customer: Seattle StructLiral PS, inc.

Location: Pier 58, Seattle, WA

WIO:

Date:

106298



 



 

BENT PILE

Damage
Type



Sound Wood

Time



 

 

147

W)

70

0705?

f) MMJZ my? 

 



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WW 53045.

 

wo?m?

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Pile Report Pier 58.xls

 

GLOBAL DIVING SALVAGEJNC.
WOOD PILE INSPECTION LOG

Customer:

Seattle Structural PS, Inc.

 

Location:

WIO:

106298

 

Date:

49/1!? 

 

Pier 58, Seattle, WA

 

BENT

Damage

PILE Type

Damage
Loca?on


Sound Wood

Time



 

weal/1?)

75?

 

0?76?

W77 M51016 31am; 8 

 

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75?



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4'



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Pile Report Pier 58.xls

 

 

 

 

GLOBAL DIVING SALVAGEJNC.

WOOD PILE INSPECTION LOG

Customer: Seattle Structural PS, Inc.

WIO:

Date:

Location: Pier 58, Seattle, WA

106298

 

454/?



 

Damage Damage
BENT PI LE Type Location


Sound Wood Time

DAMAG 

 

?19(6le

 

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way/W}

 



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$5

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?hww?mi

 

 

5? bw?MS

Pile Report Pier 58.

523 10411

6 ?AA/bl}: NFL

 

APPENDIX E

Pier 57, 58, and 60
Corrosion & Condition Investigation Report
Executive Summary
by Tinnea & Associates
July, 2006

July 2011

 Tinned &Associates, LLC

Executive Summary

 

 

Condition inspections were performed on Piers 57, 58 and 60 as part of an ongoing maintenance
program by the City of Seattle Department of Parks and Recreation (Parks). The inspection
team was headed by Tinnea Associates, LLC, and included a structural engineering ?rm,
Seattle Structural PS, Inc. (Seattle Structural) and an underwater inspection ?rm, Global
Diving and Salvage, Inc (Global Diving). 

Key ?ndings can be found below and are organized by facility. All estimates are expressed in
2006 dollars and are rough order of magnitude (ROM) construction costs. If Parks would prefer
project costs for the ?nal report the team will need to be provided with appropriate multipliers.

Seattle Structural estimates typical pile replacement at $4,000 per pile using timber piles and
$10,000 per pile using steel piles. When considering extending service life to 25 years,
Seattle Structural estimates that Parks should expect the existing timber piles on Piers 57, 58
and 60 to deteriorate at rate a rate that will necessitate replacing approximately 25% of those
piles by the end of each S-year inspection cycle.

Immediate Recommendations

Load Restrictions
If no repairs are made, the following immediate load restrictions are recommended.

Pier 57 North Apron

Seattle Structural recommends restricting vehicle traf?c to the Pier 57 North Apron. The east
end of the apron should be restricted with vehicle wheel load limits of 1,000 pounds per wheel.
Pedestrian access to the west end is acceptable, but vehicle access should be prohibited.

Pier 58

Vehicle access to the portions of the timber Pier 58 with de?cient piles should be restricted.
As vehicle accessibility is from the Pier 57 North Apron, implementation of the load limits
recommended above will limit the size of vehicles on the timber portions of Pier 58.

Pier 60

Seattle Structural recommends that the timber areas of Pier 60 should be restricted to
pedestrians only. Vehicles should not drive or park on Pier 60, particularly in the areas, such
as near the Director?s parking space, where Global Diving rated the pilings with 0%
remaining capacity. Only two piles in the area of the north loading dock show signi?cant
less, so deliveries can continue.

Repairs or Demolition
Pier 57 North Apron

Limiting loads will allow extending the apron?s use until the 2009-2010 biennium. Some
North Apron pile caps, beams, and joists are shared with the contiguous commercially-owned
Pier 57. This means that work on the Seattle-owned portion of Pier 58 will structurally affect
the adjacent privately-owned property. The City should inform those commercial signi?cant
others of the load limit recommendations. Seattle Structural estimates that to bring the North
Apron up to near-design capacity will require replacing 90 piles at a cost ranging from
$360,000 for timber pile replacements to $900,000 for steel pile replacements. To demolish
and replace the North Apron is estimated to cost about $1,100,000.

 

Condition and Condition investigation
Piers 57, 58, and 60 

Tinnea Associates, LLC

Pier 58 Timber Areas

It would be necessary to replace from 10 to 35 timber piles to bring the timber portion of Pier
58 to near?design capacity. Enforcing Pier 57 North Apron load limits allows reasonably safe
deferral until the 2009-2010 biennium.

 

Pier 58 Terraces Promenade

To repair cracks and delaminations in several North and South Terrace concrete beams is
estimated to cost $35,000. Given previous problems encountered with full-section localized
corrosion of rebar on beams supporting the Pier 58 North Terrace, concrete repair areas
should be checked for localized rebar corrosion prior to issuing construction documents.

Seattle Structural recommends strengthening all the Monotubesm, with reinforced concrete
jackets at a cost of $340,000. They also recommend coating the H?piles in the upper tidal and
splash zones for an estimated cost of $100,000. The total recormneuded costs to provide an
approximate 5-year life upgrade is $475,000.

In lieu of these immediate repairs, Parks could implement a program of load restrictions and
restricted access. The costs for such a program would be minimal, but the City should
understand that in doing so they incur a seismic risk as the potential would remain for partial
or total collapse of the concrete structure(s) during an earthquake and the possibility of
collateral damage to the surrounding timber structure.

Pier 58 Terraces Promenade Demolition

Parks could demolish parts or all of the reinforced concrete North and South Terraces. If
portions are retained, they should be repaired as discussed above. The cost for this will be
less than $475,000 and depends on what is retained or if timber decking is used to ?ll-in the
terrace footprints or if Parks opts to leave the area open, like the area in front of Pier 60, and
install pedestrian railings.

Pier 60 Timber Piles and Decking

Finger Pier: At Parks? request, Seattle Structural recommends that no repairs are required.
There is damage to the cross-bracing which could result in Finger Pier failure during an
earthquake. Otherwise the Finger Pier should be structurally sound for pedestrian access.
The Finger Pier should be re-inspected in 2008.

Alaskan WayAgron: Seattle Structural recommends replacement of the 9 de?cient piles
adjacent. to the Aquarium Director?s assigned parking place. The cost for this replacement is
estimated to be $40,000 for timber piles or $100,000 for steel piles.

Pier 60 Concrete

Decking and Support Beams: There is signi?cant damage present due to reinforcement
corrosion that has occurred since the 1998/9 inspection. Tinnea Associates is evaluating if
a remote galvanic cathodic protection (CP) system is a viable method to protect embedded
prestressing steel in the precast panels. The panels are only submerged a part of each day,
hence the requirement for testing. If a remote CP system is feasible, then Tinnea 
Associates recommends its installation at an estimate of $210,000 including concrete repairs
and if the work is completed sometime between now and July of 2007. Delaying the
installation of the CP system allows corrosion to continue and the rate of spalling and
delaminating will accelerate, perhaps dramatically, and increase repair costs. Ifno corrective
work is performed, the concrete decking and reinforced concrete support beams should be
inspected at regular intervals no greater than two years in length starting in 2008.

No action required at this time.

Condition and Condition Investigation
Piers 57, 58, and 60 2

 

Tinma &Asrociates, LLC

Action Items for Next Biennium (2009-2010)

Pier 57 North Apron

The Parks Department should anticipate implementing replacement of piles to maintain
operability or the apron?s demolition with or without replacement. Based on the recent
inspection, Seattle Structural ?nds that 90 piles currently require replacement. They also
estimate that within ?ve years an additional 60 piles will decay to levels that require replacement.

Pile Replacement

If the 60 pile 5-year deterioration estimate is prorated to 3-years, an estimated 36 piles will
deteriorate in the interim between this report and the 2009-2010 biennium. At that time an
estimated 126 piles would require replacement. If timber piles are used as the replacement,
the estimated costs are $504,000. Pile replacement costs estimates using steel pile
replacements are $1,260,000. Again, these estimates are in 2006 dollars.

Pier 57 North Apron Demolition with Replacement Option

Seattle Structural estimates costs to demolish the Pier 57 North Apron, including environment
containment and mitigation, at $100,000. They estimated replacement at $1,000,000.
Continued service also incurs the costs of periodic condition surveys. Demolition may
require the cooperation of the private owners of the contiguous commercial area of Pier 57.

Pier 58

Decision Point on Pier 58

To return Pier 58 to ?ill design capacity will require from $707,000 to $1,545,000 or more.
As stated above, Seattle Structural estimates demolition for the entirety of Pier 58 would cost
less than the $475,000 for the recommended short term repair recommendations, to perhaps as
low as $300,000. Therefore, it appears that the next biennium is a Pier 58 future use decision
point. The pile replacement and strengthening, outlined below, should be considered as part
of a 25-year life option. Continued maintenance deferral will very likely lead to further load
restriction recommendations and continued seismic risk exposure.

Timber Piles

It is estimated that by 2009 between 58 and 83 piles timber piles will be de?cient. If timber
piles are used as replacements, the estimated cost ranges from $232,000 to $332,000. To
make the replacement with steel piles the cost estimates range from $580,000 to $830,000.
Further, Parks should expect that to sustain near-design capacity that every ?ve years an
additional 80 timber piles will need replacement. Those replacement costs are estimated at
$320,000 to replace with timber piles or $800,000 if using steel piles. Parks will also have the
cost of 5-year periodic condition surveys.

Monotuhes0 and H-Piles

If not yet completed, Parks should strip the corroded sections of all 84 Monotubeso and
strengthen them with reinforced concrete jackets at an estimated cost of $340,000. Until
restored, the corrosion damage of the Monotubeso presents the risk of partial or total collapse
of the two reinforced concrete terraces during an earthquake. IfParks wishes to extend the
life of Pier 58 beyond this point the removal of the corroded section piles and Welding in new duplex-coated splices is recommended. The cost to do this is
estimated to be $240,000.

Monotube? and H-pile Cathodic Protection

Both the H-piles and MonotubesO previously enjoyed cathodic protection from an impressed
current CP system. The limited damage observed from mean tide level down, re?ects the fact
that the CP system provided signi?cant corrosion control to the Monotubes and H-piles over a

Condition and Condition Investigation
Piers 57, 58, and 60 3

 

Tinned Associates, LLC

portion of Pier 58?s life to date. Damage to cables and equipment at multiple locations
requires the CP system be restored. Tinnea Associates estimates the costs for a
replacement impressed current GP to protect the H?piles and Monotubesup at $100,000.

Timber Deck Floor and Support Beams

No necessary action foreseen at this time.

Reinforced Concrete Terrace Support Beams

Ifthe crack and concrete repairs recommended above were not previously completed, they
should be completed at this time. Increases in damaged areas will increase the restoration
cost estimates. Also, as mentioned above, prior to issuing construction documents for the
Terrace crack repairs, it should be determined if localized corrosion is a problem where the
cracks intersect the steel reinforcement.

Pier 58 Cost Summary

Total costs to return Pier 58 to approximate original design capacity, including restoring the
previous CP system in the 2009-2010 biemrium, nm from $807,000 to $1,047,000 to replace
timber piles with timber piles, and from $1,115,000 to 1,545,000 for steel replacement piles.
Note that the CP system cost estimate does not re?ect providing any protection to steel piles
that may be used to replace existing timber piles.

Pier 60

Timber Piles/Deck

Einger Bier Cross-Emcing; Seattle Structural reconmlends the replacement of cross-bracing
on the ?nger pier by 2009. The cost is estimated at $12,000.

Alaskan Seattle Structural recormnends replacement of the 9 de?cient piles
adjacent to the Aquarium Director?s assigned parking place. The cost for this replacement is
estimated to be $40,000 for timber piles or $100,000 for steel piles. Replacement of other
Finger Pier and Apron timber that likely became de?cient during the deferral is estimated at
$84,000 if timber piles are used and $210,000 if steel piles are used.

Continued limber Bile Replacement; Parks should expect to replace about 35 of the existing

timber piling every ?ve years. Cost estimates to make these replacements with timber piles is
$140,000 and $350,000 for the steel pile option. Parks would also have the costs related to 5-
year periodic condition surveys.

Concrete Piles
No action required for this biennium. The next 5-year interval condition survey for the
concrete piles should be completed by the end of 201 1.

Substructure Concrete Decking and Support Beams

As previously stated, Tinnea Associates is currently checking on the feasibility of installing
remote galvanic anodes to the so?it of the deck ?oor and the support beams. The estimated
cost for installation of the CP remains $135,000 in today?s dollars. However, with deferral of
the CP system installation, the cost for concrete repairs will increase, pushing the total
estimated cost for CP and repairs to $285,000 or more. This does not include the cost of
periodic inspection.

Should a remote CP system not be feasible, then either a thermal sprayed zinc metallized coating
CP system or an expanded zinc mesh jacketed CP system would be required. Such a system
would protect the decking and the support beams. The tides will signi?cantly limit construction
access and increase costs. It is estimated that either a metallized zinc or jacketed CP system would
cost $1,300,000. Also, these estimates do not include costs associated with periodic inspection'

Condition and Condition Investigation
Piers 57, 58, and 60 4