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9206 OLYMPIC
VIEW DR
PROJECT REVIEW CHECKLIST
PROJECT NAME:Lfin
PROJECT ADDRESS:- l m, 0 ZE
PLAN CHECK #4-?-
RECEIPT DATE: c/,/
Setbacks/Variance/Setback Adjustment
t
Conditional Use Permit
ADB Requirements
. . . . . . . . . . . . . . .
Other Zoning Requirements
Underground Wiring Required
Lot Slope IS%
SEPA Environmental Checklist/Hydraulics Permit
lics Permit
Tree Cutting Plan
Plat/Subdivision Requirements
Legal Description Verification S 9 5-
.................. ........ . . . . . . . .
Quit Claim/Street Dedications
Easements - Public/Private
Engineering Storm Drain Review Feefi\
. . . . . . . . . . . . . . . .
Engineering 2.2 Inspection Fee
Drainage Plan (On -Site)
M,
g
. . . . . . . . . .
Setback - To of Bank, Stream, Water Courses
Setback - Storm Drain Line
Open Ditch - Existing
Culvert Required
Culvert Size
- - tv
Shoulder Drainage/Shale Open Runoff
.....
.......
Catch Basin Required
------ - - - - - - - - - - - - - - - - ----- ----------
MMM
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-22:"
Driveway Slope & Vehicle Access
Sidewalk Required
- - ---------
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X.
Curb & Gutter Required
A
Curb Cut For Driveway Required
. . . . . . .
Street Paving Required
.......
Right -Of -Way Construction Permit Required
Street Name Sign Required
Other Signing Required
. . . . . . . . ...... . . . . . . . . . .
Bond Required For Public Improvements
FEMA Map.ChecktWater Table -
Side Sewer Availability
. . . . . . - - - - -
111,001 11-01
. . ....
XX
Calculate Sewer Connection Fee If No LID #
Create Street File
............
Existing Water Main Size
Water Meter Size
Service Line Size
P41
............ . . . . . . . . . . . . . . ..
....
....
Water Meter Charge Required
Hydrant Required
. . ....... . . . . . .
Hydrant Size Existing
Fire Line Charge Required - Sprinkler
,Street Cut
x
IMiscellaneous
I , W-11101
Reviewed By:
FIRE
PLANNING
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`= CITY. OF. EDMONDS
890-19 -
Address of Construction:
Property Legal Description (Include all easements):
pfillaLIC \NORKS DEPI
SIDE SEWER PERMIT
Owner and/or Contractor:
State License No. Building Permit No. 9 7
Single Family
❑ Multi -Family (No. of Units )
❑ Commercial
❑ Public
PERMIT 1\10 8 9 C 2
Invasion into City Right=of-Way:'N No ❑ Yes
- RW Construction Permit No.
Cross other Private Property: [ No ❑ Yes
Attach legal description and copy of recorded easement
I certify that I have read and shall comply with all city requirements Date
as indicated on the back of the Permit Card.
* CALL DIAL -A -DIG (1-800-424-5555) BEFORE ANY EXCAVATION
OFFICE USE ONLY
* FOR INSPECTION CALL PUBLIC WORKS DEPT.
C
77/- Da Permit Fee: o 0 • O D � d By
Trunk Charge: A� Date Issued: 02A
Assessment Fee: Receipt No.: 1c7
Lid No.:
Partial Inspection: Date Initial
Comments
Reason Rejected:
Final Inspection Approved
Dater Z'( Initial
Date Initial
** PERMIT MUST BE POSTED ON JOB SITE **
White Copy: File Green Copy: Inspector Bull Copy: Applicant
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NELSON-COUVRETTE & ASSOCIATES, INC.
CONSULTING GE07EC14NICAL ENGINEERS, GEOLOGISTS
AND ENVIRONMENTAL SCIENTISTS
17311.135th Avenue NE, A-500
Woodinville, WA 98072
(206) 486.1669 • Fax 481.2510
July 11, 1996
City of Edmonds
Planning Department
250 - 5th Avenue
Edmonds, Washington 98020
Geotechnical Investigation Report
Four Lot Short Plat
Edmonds, Washington
NCA File No. 178096
INTRODUCTION
9ao� �
Snohomish County (206) 337.1669
Wenatchee/Chelan (509) 784.2756
This report presents the results of our geotechnical investigation for the planned LSA/Echelbarger four
lot short plat in Edmonds, Washington. The site is located on the south side of Olympic View Drive near
the 9200 block. We have been retained to evaluate a critical area and provide recommendations for site
development. For our use in preparing this report, we have been provided with a copy of the plans, dated
May 1996, prepared by Lovell- Sauerland & Associates, Inc. (LSA).
The project will consist of four residential lots that will be accessed along the western property line. The
access road will have a few feet of fill with a planned rockery as high as 4 feet on the downhill side. An
existing slope will be regraded on the east side of Lot 3. A rockery 4 to 6 feet in height is planned at the
base of this slope. The excavated material from the slope regrading will be used as fill to raise the road
grades and to fill a low area on the west side of Lots 1 and 2. A steep slope located in the southeast
corner of the site is to remain undisturbed. The steep slope will be.within Lots 3 and 4, and we have
been requested to provide setbacks from the toe of slope for these lots. Existing structures will be
removed from the site during project development. The grading required to develop the lot areas. will
need to be accomplished during plat development as it incorporates building and roadway areas.
Ceotechnical Investigation Report
Four Lot Short Plat
NCA File No. 178096
July 11, 1996
Page 2
SCOPE
The purpose of this study is to explore the subsurface conditions and to provide recommendations for
project development. Specifically, our scope of services includes the following:
1. Review the geologic map for the area.
2. Explore the subsurface conditions with backhoe excavated test pits.
3. Evaluate the ground water conditions.
4. Provide recommendations for site preparation, grading and structural fill.
5. Provide recommendations for foundation design and setbacks from steep slopes.
6. Provide general information for on -site drainage considerations.
7. Prepare a written report to document our findings and recommendations.
I
J
SITE CONDITIONS
Surface
The site is over 1.3 acres in size and has a residence, garage, shed, and fallout shelter. The site is
accessed in the middle of the north property line from Olympic View Drive. A couple of short retaining
i
walls and hedges exist along side of the driveway. The site slopes generally to the northwest with a total
vertical relief of approximately 50 feet. We measured the slopes on site with a clinometer. These
measurements were compared to the site plan provided to us. Our slope angles are similar to the .grades
shown on the topography map provided to us.
A steep slope exists in southeastern portion of the site. The steep slope has angles up to 30 degrees (58
percent) with a vertical relief of approximately 15 feet. Near the top of the steep slope, the neighboring
property owner has been using the area as a garden. Debris has been placed on the steep slope, in the
approximate area shown on the site plan, creating a pile approximately 3 to 4 feet in height.
A low area exists in the northwest portion of the site. The lowest point is approximately 5 to 6 feet
below the road elevation. The area is covered with tall grass. We suspect that the area was previously
used as a borrow pit.
Vegetation consists of a few large evergreen and deciduous trees with a dense undergrowth in the
southern portion of the site. The developed portion of the site is covered with grass, trees and small
i NELSON-COUVRETTE & ASSOCIATES, INC.
. Geotechnical Irivesti ation Report
Four Lot Short g P
Plat
j NCA File No. 178096
j July 11, 1996
Page 3
i underbrush or shrubs. Tall strands of hedges occur along side the existing driveway. Vegetation on the
steep slope consists of brush, bent' vines, and scattered deciduous trees. The trees on the steep slope
range up to 22 inches in diameter.
Geologic Conditions
Landforms within this region comprise a system of glacially sculptured features, which have been
exposed by post -glacial erosion. Locally, the terrain of this area is interpreted to have been glacially
modified, and to have been placed during the latest glaciation of the Puget Lowland area. Glacial ice is
thought to have last occupied the region during the late Pleistocene Epoch, some 11,000 to 13,000 years
before present. The latest glacial advance over the area is referred to as the Vashon Stade of the Fraser
Glaciation, of which the geologic materials on site are believed composed.
The general stratigraphy within this area was observed and found to consist of advance glacial outwash,
referred to as Esperance Sand (Qva/Qe). Advance outwash in this area is composed of a dense, fine
sand, with trace silt and occasional gravel, which has been overridden and compacted by the weight of
the thick glacial ice. The advance sands were observed in all of the test pits. It is not uncommon for
more gravelly and/or silty zones to occur in these deposits.
The Geologic Man of the Edmonds East and Edmonds West Quadrangle Snohomish and King Counties.
Washington by James P. Minard, published by U.S. Geological Survey in 1975, was referenced for the
geologic and soil conditions at the site. The soil unit mapped at this site is classified as a Whidbey
Formation (Qw), with glacial till (Qvt) and Esperance Sand in the near vicinity. We did not encounter
l the Qw or Qvt in the subsurface conditions of the site. The Esperance Sand deposit is the geological unit
which commonly lies between the Whidbey and till deposits.
Subsurface Conditions
The subsurface conditions at the site were explored on June 8, 1996 by excavating ten test pits with .a
tire -mounted backhoe. The depths of the backhoe test pits range from 4.0 to 7.5 feet. The approximate
locations of the test pits are shown on the Site Plan in Figure 2. A representative from our firm was
present during the explorations. He examined the soils and geologic conditions encountered and
maintained logs of the test pits. The soils were visually classified in general accordance with the Unified
j Soil Classification System, a copy of which is presented as Figure 3. The logs of the test pits are
presented in Figures 4 through 6.
i NELSON-COUVRETTE & ASSOCIATES, INC.
;Ceotechnical Investigation Report,
Four Lot Short Plat
NCA File No. 178096
July 11, 1996
Page 4
i
i Subsurface conditions found on site consist mostly of a fine sand with silt or trace silt that varied from
loose at the surface, to medium dense to dense with depth. We have interpreted these soils to be the
Esperance Sands. Test Pit 9, located on the east portion of Lot 2, encountered 4 feet of fill. The fill
consists of similar native material with some organics and bottles. We also expect localized fills in areas
behind structures and/or retaining walls. The site is covered with a thin layer of topsoil. The topsoil
ranged up to 0.8 feet in depth.
Hydrologic Conditions
No obvious evidence of ground water, perched ground water or outcropping ground water along the
slopes was observed within this site. The advance outwash is considered fairly permeable and water is
expected to infiltrate vertically in the deposit until it encounters a less permeable layer, such as the
Whidbey Formation. We do not know the depths of these less permeable layers. The site appears to be
well drained with the advance sands.
SENSITIVE AREA EVALUATION
Seismic Hazard
The Puget Sound Region is classified as a Zone 3 by the Uniform Building Code. Seismic considerations
for this type of site includes liquefaction potential and attenuation of ground motions by soft soil
deposits. The liquefaction potential is highest for loose sand and silty sand with a high ground water
table. The sand deposits at the site below a few feet were at least medium dense or better. These soils
have a low potential of liquefaction. Seismically sensitive soft soils were not observed at this site.
f
Erosion Hazard
The erosion hazard criteria used for determination of affected areas include soil type, slope gradient,
vegetation cover, and ground water conditions. The erosion sensitivity is related to vegetative cover and
the specific surface soil types (group classification), which are related to the underlying geologic soil
units. The soils have been classified in accordance with the Soil Conservation Service (SCS)
classification system and have been grouped with respect to the corresponding geologic unit. The
geologic unit is Esperance Sand which corresponds to the SCS classification of Everett soils. The
erosion hazard is greatest when the on -site soils have been stripped of vegetation. Provided the surface
water flowing over the exposed sands are properly controlled during construction, and vegetation is re-
established after development, we do not expect a significant erosion concern.
NELSON-COUVRETTE & ASSOC/A TES, INC.
reotechnical Investigation Report
Four Lot Short Plat
NCA File No. 178096
July 11, 1996
Page 5
Landslide Hazard
An evaluation of potential landslide hazard was performed for this site. This evaluation includes soil
type, underlying stratigraphy, slope gradient, ground water conditions, and vegetation cover. The soil
conditions at the site commonly have high strengths and the slope angles are not excessively steep for
these types of soils. We also did not observe any signs of instability such as shallow or deep-seated
failures. Accordingly, it is our opinion that the native site slopes are stable and large scale failures are
not expected. Localized slough events may occur in the steep portions depending on the area specific
conditions. These would be expected to be shallow, involving the near -surface soils. The garden debris
placed on the top of the steep slope is considered unstable may cause shallow sloughs of the steep slope.
CONCLUSIONS AND RECOMMENDATIONS
General
The site is suitable for the planned residential short plat. The underlying sand deposits have moderately
high strength, and the existing slopes are considered stable with respect to deep-seated landslides or
failures. Surficial sloughing and erosion can occur, however, we did not observe evidence of slope
failures. The risk of these sloughs can be minimized by maintaining vegetation on the slopes and
controlling any surface water that may exist. We.consider that minimum setbacks from the toe of slope
are considered appropriate to reduce the risk of future effects from surface sloughing. The outwash sand
deposits should provide a good subgrade for support of the structure's foundations.
The soil to be used as structural fill will be obtained from the east side of Lots 1, 2 and 3. Excavating
these soils to be used as fill, will cause a portion of the trees and the existing structures to be removed
during the initial development activities. The fill soil will be placed in the roadway area and also the low
depression on the west side of Lot 1.
Building Setbacks
Uncertainties related to building along steep slopes are typically addressed by the use of building
setbacks. The purpose of the setback is to establish a "buffer zone" between the dwelling areas and the
slope margin so that ample room is allowed for normal slope regression, or if a slope failure were to
occur, the likelihood of dwelling involvement would be minimized. In a general sense, the greater the
setback, the lower the risk. From a geological standpoint, the setback dimension is usually based on the
slope's physical characteristics, e.g., slope height, surface angle, material composition, hydrology, etc.
j Other factors such as historical slope activity, rate of regression, type, and desired life span of the
development are important considerations as well.
.� NELSON-COUVRETTE & ASSOCIATES, INC.
reotechnical Investigation Report
Four Lot Short Plat
NCA File No. 178096
July 11, 1996
Page 6
Based upon our explorations, slope evaluation and observations, we recommend a minimum building
setback of 10 feet for structures on Lots 3 and 4. Setbacks are not necessary on the other lots from the
toe of the steep slope. Specifically, we recommend that the setback area not be used for placement or
storage of fill materials, including "temporary" excavation spoils from building area preparation and
excavation. The landscape debris on the upper portion of the steep slope should be removed. The area
should be re-established with vegetation if the soil is exposed. Any development or encroachment into
the setback areas should be evaluated by a specific geotechnical evaluation and report.
Site Preparation and Grading
Site preparation and grading should consist of stripping the vegetation and topsoil layer to the planned
subgrade. The exposed surface should be compacted to a non -yielding condition using a steel -drum
vibratory compactor. The subgrade should be observed for indication of disturbance of the lower soils
both during excavation and compaction. - If the subgrade shows signs of disturbance, we should be
retained to provide recommendations for repair or potentially alternate construction techniques.
9itesoil`1§.bxpected.:to be only somewhat moisture sensitive with a uniform grain size, and may
be difficult to work and compact during periods of wet weather: Earthwork should be suspended during
rainfall an;d.,for a•period bf time afterward The actual ability to work the site during the wet time of the
., �.
1.,"depe on the ,performance of the soils under load when wet' "These conditions should be
observed land the site ,work adjusted accordingly. We recommend that all soil stock piles that are
intended to be used as backfill be covered with plastic during rainy weather to help maintain a moisture
content suitable for compaction. Sometimes a layer of crushed gravel or 2-..to 4-inch spalls is used to
provide wet season access and to improve pavement and foundation subgrade. The use of the.gravel and
spalls should be based on conditions observed in the field.
Excavation Slopes
Temporary slopes greater than 4 feet in height should be sloped at an inclination no steeper than 1.5H:1V
for the loose to medium dense sands, and IH:1V for dense sands for cuts up to 12 feet in height. These
slopes should be protected from rain by well secured plastic sheeting. If ground water or seepage is
encountered, we should be retained to comment on the stability of the slopes in the excavation. The
above cut slope angles should be considered preliminary in nature. The contractor should be ultimately
responsible for the stability of the cut slopes, as he is continuously at the site and can observe the
performance on a daily basis. All state and federal standards should be followed with respect to cut
slopes and workman safety.
E
NELSON-COUVRETTE & ASSOCIATES, INC.
Qeotechnical Investigation Report
Four Lot Short Plat
NCA File No. 178096
July 11, 1996
Page 7
Structural Fill
General: Fill will be placed with the current design. Fill to be placed beneath buildings, pavements or
other settlement sensitive features, should be placed as structural. fill. Structural fill, by definition, is soil
placed in accordance with prescribed methods and standards described in this report, and is monitored by
an experienced geotechnical professional or soils technician. Field monitoring procedures would include
a representative number of in -place density tests to document the attainment of the desired degree of
relative compaction.
Materials: Imported structural fill should consist of a good quality free draining granular soil, free of
organic and other deleterious material, and be well graded to a maximum size of about 3 inches.
Imported all weather fill should contain no more than about 5 percent fines (soil finer than a U.S. No.
200 sieve) based on that fraction passing the U.S. 3/4-inch sieve.
The on -site outwash soil can be used as structural fill but these soils contain some fine-grained particles
and are considered slightly moisture sensitive. The use of the soils as fill should be limited to extended
periods of dry weather. These soils have a uniform grain size and are sometimes more difficult to
compact than well graded soils. Depending on the moisture content of the soil, adding water may be
necessary to achieve compaction. Soils with a high organic content should not be used as structural fill.
Fill Placement: Following subgrade preparation, placement of the structural fill may proceed. All
backfilling should be accomplished in 8- to 10-inch thick uniform lifts. Each lift should be spread evenly
and be thoroughly compacted prior to placement of subsequent lifts. All structural fill underlying
building areas, and within 2 feet of pavement subgrade, should be compacted to a minimum. of 95
percent of its maximum dry density.. Maximum Ary density in this report refers to that density as
determined by the ASTM D 1557 compaction test procedure. Fills more than 2 feet beneath sidewalks
and pavement subgtades should be compacted to at least 90 percent of their maximum dry density. The
moisture content of the soils to be compacted should be within about 2 percent of optimum, so that a
readily compactable condition exists. It may be necessary to overexcavate and remove wet soils in cases
where drying to a compactable condition is not feasible. All compaction should be accomplished by
equipment of a type and size sufficient to attain the desired degree of compaction. Care should be taken
when compacting the soil condition near to adjacent houses. A photo documented survey of the
neighboring structures is suggested prior to any heavy equipment arriving at the site. Sometimes the use
of smaller compaction equipment and thinner lifts is better if adjacent structures are being impacted.
NELSON-COUVRETTE & ASSOCIATES, INC.
Peotechnical Investigation Report
Four Lot Short Plat
NCA File No. 178096
July 11, 1996
Page 8
Foundations
The foundations should be placed either on undisturbed medium dense or dense native sand or structural
fill extending to these soils. If footings are to bear on structural fill, the fill zone should extend outside
of the footing a distance equal to the depth of fill beneath the footing. The soil conditions should be
evaluated for appropriate density and disturbance at the time of construction. Exterior footings should
extend a minimum of 18 inches below the adjacent outside ground surface, with interior column footings
a minimum of 12 inches below the bottom of the adjacent slab. All loose or disturbed soil should be
removed from the foundation excavation prior to placing concrete. Standing water should not be allowed
to accumulate in the building pad or footing trenches.
For foundations constructed as outlined above, we recommend an allowable design bearing pressure of
not more than 2,500 pounds per square foot•(psf) be used. Higher bearing values may be available based
on specific soil conditions, footing size and settlement tolerance. This can be reviewed at the time that
the structure is designed and foundation loads are determined. A one-third increase in the above
allowable bearing pressure may be used when considering short-term transitory wind or seismic loads.
Although structural loading information was not available at the time of this study, based on our
experience with similar structures supported on similar soil conditions and for the above allowable soil
bearing pressures, we estimate that the maximum total post -construction settlement for medium dense
sands should be 3/4 of an inch or less, and that the differential settlement across the building width
should be 1/2 inch or less. We expect larger differential settlements may occur if the building is
constructed part on fill and part on native soils.
Lateral Pressures
The lateral pressure acting on retaining walls is dependent on the nature and density of the soil behind
the wall, the amount of lateral wall movement which can occur as backfill is placed and the inclination of
the backfill. Soil pressures will be less for walls that are free to yield at the top at least one -thousandth
of the height of the wall, than if movement is limited by such factors as wall stiffness or bracing. We
recommend that yielding walls supporting horizontal backfill be .designed using an equivalent fluid
density of 35 pounds per cubic foot (pcf). Non -yielding walls should be designed using an equivalent
fluid density of 50 pcf. These lateral soil pressures do not include the effects of surcharges such as
traffic loads or other surcharge loads. Surcharge effects should be considered, if appropriate. If desired,
we can provide recommendations for surcharge loads as they become apparent.
NELSON-COUVRETTE & ASSOCIATES, INC.
Cneotechnical Investigation Report
Four Lot Short Plat
NCA File No. 178096
July 11, 1996
Page 9
All backfill for subgrade walls that will. not act as structural fill should be compacted to between 90 and
92 percent of the maximum dry density as determined in accordance with ASTM D 1557. Care should
be taken to prevent the buildup of excess lateral. soil pressures due to overcompaction of the backfill
behind the wall. This can be accomplished by placing the backfill within 18 to 24 inches of the wall in
lifts ,not exceeding 8 inches in loose thickness, and compacting this zone with hand -operated vibrating
plate compactors.
Lateral loads canbe resisted by friction between the foundation and subgrade or the passive earth
pressure acting on the below -grade foundation. For the latter, the foundation must be placed "neat"
against the undisturbed soil, or backfilled with a clean, free draining, compacted structural fill. We
recommend that lateral passive resistance be calculated by using an equivalent fluid weight of 250 pcf.
An allowable coefficient of friction between footings and the subgrade of 0.40 may be used. These
values include a factor of safety of 2.0 for lateral resistance and 1.5 for the coefficient of friction.
The wall pressures, listed above, are based on the assumption that the soil directly behind the wall is free
draining or a drainage composite is used. All of the on -site surface soils are not free draining. Some free
draining soil may exist at depth. Wall drains are discussed in the Subsurface Drainage sub -section of
this report.
Site Drainage
Surface Drainage: The finished ground surface should be graded such that storm water is directed off
of the site. Water should not be allowed to stand in any area where footings, slabs or pavements are to be
constructed. Final site grades should allow for drainage away from the building. We suggest that the
finished ground be sloped at a gradient of 3 percent minimum for a distance of at least 10 feet away from
the building. Surface water should, be collected by permanent catch basins and drain lines, and be
discharged into a storm drain system.
The surficial soils are loose to medium dense, fine sand. These soil types erode easily, especially when
directly exposed to precipitation and runoff. Surface water should be diverted away from the steep to
moderate slopes. Stripped areas should be revegetated to improve the stability of the near -surface slope
soils. The vegetation should be maintained until it is established.
Subsurface Drainage: Where slabs are located below the surrounding grades, a system of perimeter
footing drains should be included in the design. The perimeter footing drains should consist of 4-inch
diameter perforated smooth -walled PVC pipe surrounded .by pea gravel. The footing drains should be
NELSON-COUVRETTE & ASSOCIATES, INC.
Geotechnical Investigation Report
lour Lot Short Plat
j NCA File No.] 78096
l July 11, 1996
Page 10
1
located at the elevation of the footing. The drains should be tightlined to the storm drain system. We do
not, consider foundation drains necessary for standard foundations construction.
A drainage system should be planned behind all retaining walls. The drainage system should consist of
an 18-inch wide blanket of free draining material. Pea gravel would be a suitable material: If 0.5-inch or
larger washed rock is used, filter fabric may be required to surround the rock. A drainage composite
approved by geotechnical engineer could be used in place of the rock blanket. A 4-inch diameter
perforated pipe should be placed along the base of the wall within the free draining material. The drains
should be routed to an appropriate discharge point.
Slabs -on -Grade
Slabs should be supported on native subgrade soils or structural fill prepared as described in the Site
Preparation and Grading and Structural Fill sub -sections of this report. Where moisture control is
important, we recommend that the floor slabs be underlain by 6 inches of free draining granular material,
for use as a capillary break. A suitable vapor barrier, such as heavy plastic sheeting, should be placed
over the capillary break material. A 2-inch thick sand blanket may be placed over the vapor barrier to
protect it during placement of the concrete and to help the concrete cure.
Rockeries
Rockeries are used in the Puget Sound region to face stable soil exposures to reduce weathering and
slough type failures. Although it is not always common to consider a rockery as a retaining wall, in
reality, the rockery can act as a gravity wall. The problems associated with using the rockery as a
retaining wall is the quality of the rockery construction and the compacted backfill. There is some risk
associated with rockeries since the rocks are not tied together. Therefore, the methods in which they are
stacked are very important. Rockeries should be designed and constructed in accordance with
Association of Rockery Contractors (ARC) guidelines, unless otherwise recommended in this report.
Inspection of the rockery construction by the geotechnical consultant is recommended.
We consider the rockery at the base of the cut slope to be appropriate. However, we recommend that the
rock sizes be increased to 1-1/2 instead of the H/3 as recommended in the ARC manual. We recommend
that the same standards be used for the rockery that retains the driveway fill. However, since the wall
could be exposed to unknown wheel and traffic loads, it may be prudent to design it as a reinforced soil
wall. The reinforcement could consist of either fabric or geogrid.
NELSON-COUVRETTE & ASSOCIATES, INC.
Geotechnical Investigation Report
'*Four Lot Short Plat
I NCA File No. 178096
1 July 11, 1996
Page 11
USE OF THIS REPORT
We have prepared this report for The City of Edmonds, Lovell- Sauerland & Associates, Inc. and their
agents, for use in planning and design of this project. The data and report should be provided to
prospective contractors for their bidding or estimating purposes, but our report, conclusions and
interpretations should not be construed as a warranty of the subsurface conditions. The scope of our .
services does not. include services related to construction safety precautions and our recommendations
are not intended to direct the contractor's methods, techniques, sequences or procedures, except as
specifically described in this report for consideration in design.
There are possible variations in subsurface conditions between the explorations and also with time. A
contingency for unanticipated conditions should be included in the budget and schedule. We should be
Greta ne'd >'to.'p oxide monitoring and consultation services during construction to confirm that the
�' iconditions .:encountered are consistent with those indicated by the explorations, to provide
recommendations` for design changes should the conditions revealed during the work differ from those
anticipated ,.and to evaluate whether or not earthwork and foundation installation activities comply with
°contract'' plans and'specifications.
Within the limitations of scope, schedule and budget for_our services, we have strived to take care that
our work has been completed in accordance with generally accepted practices followed in this area at the
time this report was prepared. No other conditions, expressed or implied, should be understood.
NELSON-COUVRETTE & ASSOCIATES, INC.
Geotechnical Investigation Report
Four Lot Short Plat
1 NCA File No. 178096
July 11, 1996
Page 12
1 We appreciate the opportunity to be of service to you. If there are any questions concerning this report
or if we can provide additional services, please call.
Sincerely,
NELSON-COUVRETTE & ASSOCIATES, INC.
Rick B. Powell, PE
Project Engineer
EXPIRES
Charles P. Couvrette, PE
Principal Engineer
Three Copies Submitted
Six Figures
cc: Mr. Jurgen Sauerland - Love] l-Sauerland & Associates, Inc.
3
NELSON-COUVRETTE & ASSOCIATES, INC.
LOG OF EXPLORATION
DEPTH USC SOIL DESCRIPTION
TEST PIT ONE
0.0 -1.3 SM DARK BROWN SILTY FINE SAND WITH ORGANICS (LOOSE TO MEDIUM DENSE,
WET) (TOPSOIL)
1.3 - 4.0 SP-SM RED -BROWN FINE SAND WITH SILT (MEDIUM DENSE, MOIST) (WEATHERED
Ova)
4.0 - 6.5 SP-SM GRAY -BROWN FINE SAND WITH SILT (MEDIUM DENSE TO DENSE, MOIST TO
WET) (Ova)
SAMPLE WAS COLLECTED AT 6.0 FEET
GROUND WATER SEEPAGE WAS NOT. ENCOUNTERED
TEST PIT CAVING WAS NOT ENCOUNTERED
TEST PIT WAS COMPLETED AT 6.5 FEET ON 6/15/96
TEST PIT TWO
0.0 - 0.4 SM DARK BROWN SILTY FINE SAND WITH SOME ORGANICS (LOOSE TO MEDIUM
DENSE, WET)
0.4 - 4.0 SP-SM GRAY -BROWN FINE SAND WITH SILT AND ORGANICS (MEDIUM DENSE, MOIST
TO WET) (Ova)
SAMPLES WERE NOT COLLECTED
GROUND WATER SEEPAGE WAS NOT ENCOUNTERED.
TEST PIT CAVING WAS NOT ENCOUNTERED
TEST PIT WAS COMPLETED AT 4.0 FEET ON 6/15/96
TEST PIT THREE
0.0 - 0.2 TOPSOIL
0.2 - 2.0 SP LIGHT BROWN FINE SAND (MEDIUM DENSE TO DENSE, MOIST) (FILL1
2.0 - 3.5 SP-SM/SM BROWN TO DARK BROWN FINE SAND WITH SILT TO SILTY FINE SAND (LOOSE
TO MEDIUM DENSE, MOIST) (OLD TOPSOIL)
3.5 - 5.0 SP LIGHT BROWN FINE SAND (MEDIUM DENSE TO DENSE, MOIST TO WET) (Ova)
SAMPLES WERE NOT COLLECTED
GROUND WATER SEEPAGE WAS NOT ENCOUNTERED
TEST PIT CAVING WAS NOT ENCOUNTERED
TEST PIT WAS COMPLETED AT 5.0 FEET ON 6/15/96
TEST PIT FOUR
0.0 - 0.2 TOPSOIL
0.2 - 2.0 SP-SM BROWN TO DARK BROWN FINE SAND WITH SILT AND SOME ORGANICS
(MEDIUM DENSE, MOIST) (TOPSOIUQva)
2.0 - 4.0 SP LIGHT BROWN TO BROWN FINE SAND (MEDIUM DENSE, MOIST) (Ova)
SAMPLES WERE COLLECTED AT 1.5 AND 4.0 FEET
GROUND WATER SEEPAGE WAS NOT ENCOUNTERED
TEST PIT CAVING WAS NOT ENCOUNTERED
TEST PIT WAS COMPLETED AT 4.0 FEET ON 6/15/96
NELSON-COUVRETTE & ASSOCIATES, INC.
FILE NO. 178096
FIGURE 4
Site Plan
1
Scale 1" = 40'
FIGURE
Reference: Site Plan was created from a dr LSA/Echelbarger 2
dated May 16, 1996 ILE NO. DATE
178096 June 1996
SOIL CLASSIFICATION SYSTEM
GROUP
MAJOR DIVISIONS
SYMBOL
GROUP NAME
COARSE
GRAVEL
CLEAN GRAVEL
GW
WELL -GRADED GRAVEL, FINE TO COARSE GRAVEL
GRAVEL
GP
POORLY -GRADED GRAVEL
GRAINED
SOILS
MORE TIM 5MOFCOARSE
FRACTION RETAINED ON
WITH FINES
GM
SILTY GRAVEL
NO.4 SIEVE
GC
CLAYEY GRAVEL
MORE THAN W%
RETAINED ON
NO.200 SIEVE
SAND
CLEAN SAND
SW.
WELL -GRADED SAND, FINE TO COARSE SAND
SP
POORLY -GRADED SAND
MORE THAN SM OF COARSE
FRACTION PASSES
NO. 4 SIEVE
SAND
SM
SILTY SAND
SC
CLAYEY SAND
WITH FINES
FINE
SILT AND CLAY
INORGANIC
ML
SILT'
CL
CLAY
GRAINED
LJQUlO 11MR LESS THAN S0%
ORGANIC'
OL
ORGANIC SILT, ORGANIC CLAY .
SOILS
SILT AND CLAY
INORGANIC
MH
SILT OF HIGH PLASTICITY, ELASTIC SILT
CH
CLAY OF HIGH PLASTICITY, FAT CLAY
MORE THAN SO% PASSES
LXXAD LIMIT SM OR MORE
NO.200 SIEVE
ORGANIC
OH
ORGANIC CLAY, ORGANIC SILT
HIGHLY ORGANIC SOILS
PT
PEAT
NOTES:
SOIL MOISTURE MODIFIERS
1)
Field classification is based on
Dry -
Absence of moisture, dusty, dry
visual examination of soil In general
to the touch
accordance with ASTM D 2488 - 83.
Moist -
Damp, but no visible water
2)
Soil classification using laboratory
tests is based on ASTM D 2487 - 83.
Wet -
Visible free water or saturated,
usually soil is obtained from
3)
Descriptions of soil density or
below water table
consistency are based on
Interpretation of blowcount data,
visual appearance, of soils, and/or
test data.
NELSON-COUVRETTE & ASSOCIATES, INC.
SOIL
CLASSIFICATION SYSTEM
CONSULTING GEOTECHNICAL ENGINEERS, GEOLOGISTS
AND ENVIRONMENTAL SCIENTISTS
- -
FIGURE 3
LOG OF EXPLORATION
DEPTH USC
SOIL DESCRIPTION
TEST PIT ONE
0.0 -1.3 SM
DARK BROWN SILTY FINE SAND WITH ORGANICS (LOOSE TO MEDIUM DENSE,
WET) (TOPSOIL)
1.3 - 4.0 SP-SM
RED -BROWN FINE SAND WITH SILT (MEDIUM DENSE, MOIST) (WEATHERED
Ova)
4.0 - 6.5 SP-SM
GRAY -BROWN FINE SAND WITH SILT (MEDIUM DENSE TO DENSE, MOIST TO
WET) (Ova)
SAMPLE WAS COLLECTED AT 6.0 FEET
GROUND WATER SEEPAGE WAS NOT ENCOUNTERED
TEST PIT CAVING WAS NOT ENCOUNTERED
TEST PIT WAS COMPLETED AT 6.5 FEET ON 6/15/96
TEST PIT TWO
0.0-0.4 SM
DARK BROWN SILTY FINE SAND WITH SOME ORGANICS (LOOSE TO MEDIUM
DENSE, WET)
0.4 - 4.0 SP-SM
GRAY -BROWN FINE SAND WITH SILT AND ORGANICS (MEDIUM DENSE, MOIST
TO WET) (Ova)
SAMPLES WERE NOT COLLECTED
GROUND WATER SEEPAGE WAS NOT ENCOUNTERED
TEST PIT CAVING WAS NOT ENCOUNTERED
TEST PIT WAS COMPLETED AT 4.0 FEET ON 6/15/96
TEST PIT THREE
0.0 - 0.2
TOPSOIL
0.2 - 2.0 SP
LIGHT BROWN FINE SAND (MEDIUM DENSE TO DENSE, MOIST) IFILLt
2.0 - 3.5 SP-SM/SM
BROWN TO DARK BROWN FINE SAND WITH SILT TO SILTY FINE SAND (LOOSE
TO MEDIUM DENSE, MOIST) (OLD TOPSOIL)
3.5 - 5.0 SP
LIGHT BROWN FINE SAND (MEDIUM DENSE TO DENSE, MOIST TO WET) (Ova)
SAMPLES WERE NOT COLLECTED
GROUND WATER SEEPAGE WAS NOT ENCOUNTERED
TEST PIT CAVING WAS NOT ENCOUNTERED
TEST PIT WAS COMPLETED AT 5.0 FEET ON 6/15196
TEST PIT FOUR
0.0 - 0.2
TOPSOIL
0.2 - 2.0 SP-SM
BROWN TO DARK BROWN FINE SAND WITH SILT AND SOME ORGANICS
(MEDIUM DENSE, MOIST) (TOPSOIUOva)
2.0 - 4.0 SP
LIGHT BROWN TO BROWN FINE SAND (MEDIUM DENSE, MOIST) (Ova)
SAMPLES WERE COLLECTED AT 1.5 AND 4.0 FEET
GROUND WATER SEEPAGE WAS NOT ENCOUNTERED
TEST PIT CAVING WAS NOT ENCOUNTERED
TEST PIT WAS COMPLETED AT 4.0 FEET ON 6/15/96
NELSON-COUVRETTE & ASSOCIATES, INC.
FILE NO. 178096
FIGURE 4
LOG OF EXPLORATION
DEPTH USC SOIL DESCRIPTION
TEST PIT FIVE
0.0 - 0.4
0.4 - 4.0
TEST PIT SIX
0.0 - 0.5
0.5 - 4.0
TEST PIT SEVEN
0.0 - 0.5
0.5 - 2.0
2.0 - 7.5
TEST PIT EIGHT
0.0 - 0.4
0.4 - 3.0
3.0 - 5.5
TOPSOIL
SP LIGHT BROWN WITH SLIGHT RUST STAINING FINE SAND WITH TRACE SILT
(MEDIUM DENSE TO DENSE, MOIST) (Ova)
SAMPLES WERE NOT COLLECTED
GROUND WATER SEEPAGE WAS NOT ENCOUNTERED _
TEST PIT CAVING WAS NOT ENCOUNTERED
TEST PIT WAS COMPLETED AT 4.0 FEET ON 6/15/96
TOPSOIL
SP-SM LIGHT BROWN TO BROWN FINE SAND WITH SILT (MEDIUM DENSE TO DENSE,
MOIST TO WET) (Ova) .
SAMPLES WERE COLLECTED FROM 3.0 - 4.0 FEET
GROUND WATER SEEPAGE WAS NOT ENCOUNTERED
TEST PIT CAVING WAS NOT ENCOUNTERED
TEST PIT WAS COMPLETED AT 4.0 FEET ON 6/15/96
TOPSOIL
SP-SM/SM BROWN TO RED -BROWN FINE SAND WITH SILT TO SILTY FINE SAND (MEDIUM
DENSE, MOIST) (WEATHERED Ova)
SP LIGHT BROWN TO BROWN FINE SAND WITH TRACE SILT (MEDIUM DENSE TO
DENSE, MOIST) (Ova)
SAMPLE WAS COLLECTED AT 6,0 FEET
GROUND WATER SEEPAGE WAS NOT ENCOUNTERED
TEST PIT CAVING WAS NOT ENCOUNTERED
TEST PIT WAS COMPLETED AT 7.5 FEET ON 6/15/96
TOPSOIL
SP-SM TAN -BROWN FINE SAND WITH SILT (MEDIUM DENSE, MOIST TO WET)
(WEATHERED Ova)
SP-SM GRAY -BROWN FINE TO MEDIUM SAND WITH SILT (MEDIUM DENSE TO DENSE,
MOIST TO WET) (Ova)
SAMPLES WERE COLLECTED FROM 4.0 - 5.0 FEET
GROUND WATER SEEPAGE WAS NOT ENCOUNTERED
TEST PIT CAVING WAS NOT ENCOUNTERED
TEST PIT WAS COMPLETED AT 5.5 FEET ON 6/15196
NELSON-COUVRETTE & ASSOCIATES, INC.
FILE NO. 178096
FIGURE 5
�.
LOG OF EXPLORATION
DEPTH
USC
SOIL DESCRIPTION
TEST PIT NINE
0.0 - 0.7
TOPSOIL
0.7 - 4.0
SM/SP-SM
BROWN TO DARK BROWN SILTY FINE SAND TO FINE SAND WITH SILT,
ORGANICS AND A BOTTLE (LOOSE, MOIST) ELL
4.0 - 5.0
SP-SM
BROWN FINE SAND WITH SILT (MEDIUM DENSE, MOIST) (Ova)
SAMPLES WERE NOT COLLECTED
GROUND WATER SEEPAGE WAS NOT ENCOUNTERED
TEST PIT CAVING WAS NOT ENCOUNTERED
TEST PIT WAS COMPLETED AT 5.0 FEET ON 6/15/96
TEST PIT TEN
0.0 - 0.8
TOPSOIL
0.8 - 4.0
SP-SM
RED -BROWN TO LIGHT BROWN FINE SAND WITH SILT AND OCCASIONAL
COBBLES (MEDIUM DENSE TO DENSE, M01ST TO WET) (Ova)
SAMPLES WERE NOT COLLECTED
GROUND WATER SEEPAGE WAS NOT ENCOUNTERED
TEST PIT CAVING WAS NOT ENCOUNTERED
TEST PIT WAS COMPLETED AT 4.0 FEET ON 6/15/96
NELSON-COUVRETTE & ASSOCIATES, INC.
FILE NO. 178096
FIGURE 6
—fxrc r 4-ple .�
8fo•�.. �Co •S Q 7 � � gg. � � °
9).6
I
Lies'. IV ED77I
PPRO�ED AS®TED c fti Gnu
A0F b p
zor,3
sAo/1 r
s
fib. ;� A�U6,� L ✓- 9'�.5�
/ LE
g Or 5
40
/ ELF U. AT6^14/iAlA-12 �
/ ? z--
��' 'MIT COl1N Ind
PLANNING DATA
NAME:APAI&I
SITE ADDRESS: 2()(0 v 1Z) DATE: �Z7 G 7
ZONING: /Z PLAN CHK#: / /� 2 C� S
PROJECT DESCRIPTION: / V e •
CORNER LOT 10 (Yes/No)
SETBACKS:
Required Setbacks:
Front:! 2S Left Side: /o Right Side: Rear: ZS
Actual Setbacks:
Front:2-7Left Side: Id Right Side: A Rear: 4/ 3
Street map checked for additional setback required? Va, N (Yes/No)
LEGAL NONCONFORMING LAND USE DETERMINATION ISSUED (Y/N)
LOT COVERAGE: :.
Maximum All 3 5�, Actual:
BUILDING HEIGHT: i
Maximum Allowed: ZS Actual Height: Z�
Datum Point: _ C, U • L-( P Datum Elevation:
A.D.U. CREATED?:
SUBDIVISION:)I — q5 — 20L_
CRITICAL AREAS #:
SEPA DETERMINATION:
LOT AREA:
OTHER:
t yew,K.
Plan Review By:
o� A:raL7
Ofiles\permi t\^plandat. doc
090 -19Q,-
City of Edmonds 1
Critical Areas
Checklist
The Critical Areas Checklistl contained on
this form is to be filled out by -any person
preparing a Development Permit
Application for the City of Edmonds prior:...:
to his/her submittal of a development,::. .,
permit to the City.
The purpose of the Checklistj is to enable
City staff to determine �v rhether any
potential Critical Areas are or may be
present on the subject property. The
information needed to complete the
Checklist should be easily available from.
observations of the site or data availa'ble'at
City Hall (Critical Areas 'inventories, maps,
or soil surveys).
An applicant, or his/her representative,
must fill out the checklist, sign and date it,
RECEIV
bEC 0 7 19951":
-
PERMIT COUNTER :
and submitit t6vie'.city. The City willreview the checklist, make a precursory site
-visit, and make a determination of the
subsequent steps necessary to complete a
development permit application.
With a signed copy.of this form, the ,
applicant should also submit a vicinity map
or plot plan for individual lots of 'the. parcel
:with enough detail that City staff can find
.,and identify the subject parcei(s).
addition, the applicant shall include
other Pertinent information (e.g. site
plan, topography map, etc.) or.studies in
conjunction with this Checkti'st,to assist
staff in completing their preliminary
assessment of the site.
A,
1 have completed the attached, Critical Area Checklist and attest that the answers provided are
factual, to the',',b6k of my knowledge (fill out the appropriate column below).
Owner / Applicant: I Applicant Representative:
8aCU t^ Q CA (A -
Name I Name
J
Street
tr rz)
Address Stred Addrm to I
Phone Phone
City,. State, ZIP City, State, ZIP
.377�
A1
I Z16/93 A
Signature. I Date Sigaature Date
, CA FILE NO. ,y5, 243
1 Critical Areas Checklist
Site Information (soils%topography/hydrology/vegetation)
w d
1. Site Address/Location: 0) M v lew to
00 - c�oo7 -Got-t'b-oa
2. Property Tax Account Number: 5 6 r 6' 4 t 5 5�56�s
3. Approximate Site Size (acres or square
4. Is this site currently developed? K yes; no. F \
If yes; how is site deve pM? S� ti v1 a e �a �, ti es e
5. Describe the general site topography. Check all that apply.
Flat: . less! than 5-feet elevation change over entire site.
Rolling: slopes on site generally less than 15% (a vertical rise of 10-feet over a
horizontal distance of 66-feet).
Hilly: slopes present on site of more than 15% and less than 30% ( a vertical rise
of 10-feet over a horizontal distance of 33 to 66-feet).
Steep: grades of greater than 30% present on site (a vertical rise of 10-feet over a
horizontal distance of less than 33-feet).
Other (please describe):
i
6. Site contains areas of year-round standing water: YLd" e- ; Approx. Depth:
7. Site contains areas of seasonal standing water. Approx. Depth:
What season(s) of the year? ✓l , q
8. Site is in the floodway n d floodplain nc, of a water course.
9. Site contains a creek or an area where water flows across the grounds surface? Flows are year-
round? h o K t Flows are seasonal? _ (What time of year? A . ).
F"ouow
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F x .` , , ; ' i, . i usE f� - PERMIT 4�
CITYOF EDMONDS ,F
.M A.,;: 5 < r ,CMS tI' -r rm t ;, C '!?sul` Z�NE NUM�ER; t 4� ," G" G 'a
I �rONSTRUC�T'IONIPERMIT ;!APPLICATION ` ` "
s- loe -
x /t r -` UITEJAPT'fJ
4 OWN R NAME/NAME OF 6USINE $ ' r' l a A RESSI{ / ! r d
:: �` "t z' ,a- ,. , T4 ."F`� .. fi� arS` o-t .�a - ° st. *.� , r ..A ! t .�//� ,"N` q ; �tnw. y . '
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Z MAILING:ADOR SS: a a tr ' ! ~ �� ( r
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e Q " �� t /�i%��"l�BD "' t� �` - PUBLIC`RI6 r`OF WAY.PEROFFICIALSTREETM TESCPAppro4etl _O¢- .
o `CITY m ZIP' TELEPHONE NUMBER 3 r
0. = x y RW Perimt Regwred O
f ` .. EXISTINqREQUIRED DEDICATION SI e"e .r
rah . :. ,.�(% �: .O �. r I+"•ja. r t-UttetPermit Req d - .
NAMEKr �.: PROPbSED M.: ` '- Inspe-I ...Regwied -
A , /t MNc : i Sidewalk gequired:
—�.►
^iS h '.� f1, METEq SIZE a �" LINE SIZE !" NO OF;FIXTURES PRV REQUIRED Q
dj 'ADDRESS: '�' w r.,t - : - n, , "*"'r;^�-s...ro.^-,.. -75n +ene-r r- v s H-*4..'•q*.. `n ; '�1 #k"e^Ta ..rr., k ... asa-.,.... k t ' • t 3 . .
N V V.�' yl- _ {:a REMAiiKS ..yy :: Z .
a CITY 5: "ZIPS ?" TELEPHONEaNUMBER �'�` iT ' A �, ffi.
NAME r`� "" '°x'".S". •w.•:'+,Y"r�.;. , a { Cr: t...`3`!r'` e�-,�� �r3
r� 1?°
o r; �., * �`., c..✓4.s+'- k , 9 y, w• r" v� # .�T.y " . 1 +q .
ADDRESS r �:!� ((� Sy ..
a! k -
OF i ENGIN INGMEMODATED r +
c _ i ...nY +..!r� «.?n�...n ,w.w` d"A'*�:"' ta{h tt Y r 1t'fi`"3 i'.. 4 REVIEWED BY
;CITY r +ZIP: TELEPHONE NUMBERS r .,a ,_es "k_ ,t...� k.T�(,�
Z ' a " p FIRE,MEMO:DATED s- 'z;rr gf
U i . _ *t- 2c't•�..+-s.+. -71-1— C)= }f _ s-- �` a-� -�,i `REVIEWEDaY .W =r
, T LICENSE NUMBER 'IX IRAT N DAT 3
t sh e_5 t : ryw� ARIANCE!OR CU 17 .y,F a ADB:$
Legal Description of Prop include all ease ` ents ram"":: - �) � r s►+oR ` `,">.
.,,ci.�..-II.'.,-1_-� .C']..:�,. [_I"�I.
��. SEPA REVIEW H SION'AREA . `1\.
ELINE #
�t, HEIGHT
p !'r �C.�;i ,_ u �, , f w m-; , rCOMPLE EXEMPT. ALLOWEDt 'PROPOSED+ ALLOWED .PROPOSED
a �. 17 rat r +S. 4 j r ,:c,1
w ¢: r r LOT COVERAGE REQUIRED SETBACKS (FT) . PROPOSEDISETBACKS:(FT)-
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- ESL _f ALLOWED PROPOSED" FRONT SIDE REARi N eFRONT URSIDE REAR..
r, 0 "A FTc,3G �` 1v»•.!-.. -w z . 40 �'. at a .,i' :. * �*^ ,��3C6/ralL' S �}L •�!, ..f ` t F 2
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Tax Pop"
p" '/•• �✓� , , .. b maw.. ;LOT /1REA r "' S t
Parcel;No r, i �,g! . aQGy� r y NING REVIEW BY a r i
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s#s ( an F o-REMA KS 66 1 rr, mar 4Ttl+ u�sss s3d7 i
s NEW' RESIDENTIAL, Z. PLUMSING/MECH ,r ¢ €"w'. ,.'�,,, . : '4.,,,.._ !, �,,. :. f
lCOMPLUUdCE OR `'1 ,`. ,t ��t"I 4
ADDITION COMMERCIAL' i �: CHANGEOFUSE' 4 ry I
I
a - .i. - .,APT-BLDG"�°'!"'"`.- -'' ...,� ati:::.;ay e--ws-Ack z...z•"'e.',sR+y'"'`.-"''� t`-"�"
z"REMODEL -. a. .: �� SIGN, ti r > y 9
C) RERA" G 1 F CYDS { `FEI NCE .� „j Cr EGKED; ,.., -,. TYPE.._OF , NSTRUCT ON G CODE -OCO r
-�•
❑ DEMOLISH WOODSTOVE� . SWIM POSL �ss
INSERT ?' Qt �4 s pSPECIAIINSPECTOR '` �v i'
AHOT,TUQ/5j PAt ;p OCCUPANT
REbUIgEO, ,��* ice'
,,�,_1- 1�1,.,F,�:���. ��; !;
r 'Sa j� GARAGE t '�' - '❑YES ,� Q LOAD .
F I RETAININGWALL/ : a x 1 rbr y a: 1
xi ROCKERY x ',x .RENEWAL REMARKS
I(TYPE OF USE BUSINESS OR ACT, YY AM PI;OGRE$S INSPECOTIONSiPIER,-UBC.1013 - r ? :!
tNUMBER NUMBER OF CRITICAL .. k m'
P 'OF % DWELLING / AREAS' i
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m STORIESi.. �! ' UNITS ! NUMBER Maw'. ; F dtlt�it��r. s r f
O 1S T :}
. ;OESCRIBE:WORKTo BE DONE (ATTACH:PLOT PLAN) 'j, 't
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( .. su ICY A.. , 1 '
�UIRED
x�
FINAL INSPECTION RE
(v 7- .
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,V . i T' :VALUATION FEE;
1r.w --�1<� » PLAN CHECK FEE @§ ILA P)_IFft'fY ..
. . , E 31'
HEATS E:. : GIAZING. AI�- : BUILDING.. ..... 1 r e .,
„''' ;�+"'�. eI0' PLUMBING
n�:=. ;dad')I'�kd'P - tee
Plan, Check No;.ILA °MECHANICAL -
This.Permit:covers;work to,be done on privateproperty;;ONLY GgAowGIFI�L
Any construction on ahe-public dtimain.{cures; sidewalks
, ,. _driveways;.marquees;;etc.) wih`:regtilre'septFate permission .:
!STATE SURCHARGE
'Permit Applicatlon 180;Days I
STORM:ORAIMAGEFEE 467dI 3"("4'`W" `
Permit Llmit::1 Year Provided lfilork is Started Witliln;1t30 Days V
. "Applicant, on behalf of his',or.:her spouse;.heirs,'ass,igns.and' ENG.INSPECTIONFEE ra z1:L S{� y}U i.., Q
u5 successors in interest -agrees -to indernnify,..defend and hold.; .�;Arn 4`
W harmless the :. City ot;. Edmonds "Washin ton Its -::officials," y .r 9
employees, and _agents from anyand all''claimsxfor dalriages of;
twhateyer; nature arising directly or indirectly from the Issuance - r
_ �of`this permit Issuance ;of this perrniY shall not be deefnetl t0 PLAN CHECK DEPOSIT
a ,.
mbdlFyr waive or retluce any requirement of,any:city ordinance
t nor4�llrnit In any way the City s ability to enforce'any ordinance
,provision , �TOTAC AMOUNT DUE`��� 1�Un'
1 l"i
el hereby acknowledge that I have read this application that the> s} -
nnFo�mation given is correct and that I em he owrier or the duly ATTENTION APPLICATION AP,PROVacL.
T �autho�ized agent of the owner Ix agree to'comply with Ci4q and,: '
THIS PERMIT
, °state laws regulating construction'andyfn doing the;work authorif 'AUTHORIZES This application is +' not a'permit: until
ed 4heleby no pe[son will>be employed in..yiolatiiin of the Labor i ONLY., HE signed,by the Building Official lir.his/her
Code of. Fie State of Washin ton reletin to Workmen s Com ensa WORK NOTED p y'' paid and receipt'is
9 9 p pe ut and fees are
lion Insu ancerano RCW 1t3 27 INSPECTION adknowledged In space provided:-' .
SIGN RE OWNER OR GENT) DATE GNED DEPARTMENT
° ` ,'CITY.OF :OFFICI SIG URE . DAT
,- a., .
c CALL FOR s BY:,. ArE
ATTENTION ; . .. R
INSPECTION - ;:
ITa�IS UNLAWFUL TO USE OR OCCUPY A BUILDING _ STFIU .TURF t
UNTILAFIWAL INSPECTION HAS BEEN'.MADE AND,'APPRQVAL OR.. .� GINAL -File- YELLOW .— Inspector
,.
-` CERTIFICATE- OF., OCCUPANCY . HAS BEEN GRANTED... UBC` �'77� '0 i
PINK - Owrer GOLD -Assessor