The URL can be used to link to this page

Home My WebLink About503 W 3rd St - Building " ~ I'OHT ~ e ~'~ ~ ~K;vd-~ BUILDING PERMIT - PREAPPLlCA TION Lasererf CED FOR OFFICIAL USE ONLY Date Rec io - / (, -e--.(', Pemlit # , :2 -Z ?? <' Pre-Ap Complete? Date AppTOved. The Blllldmg Penllit' - Preapphcatlon must be filled out completely. Please type or print In Ink. If you have any questions, please call 417-4815 Phone' 360-452-2132 Phone: 360-452-2268 Zip: 98362 Phone: 360-452-6116 Phone: Applicant and/or Agent: Bill Rjnehart - Ac,aent Owner: MIke 2aners Address: 254895 Highway 101 City: Port Angeles, WA 98362 Architect/Engineer: Undberg and .:in:i th MCW tects Contractor ONner Billlder License #: Exp: Address: City: Zip: ZONING RS-7 PROJECT ADDRESS: 503 West Third Street LEGAL DESCRIPTION: Lot: 18 & 19 Block 49 TPA Subdivision' TVPEOFWORK: XiXi Residential iID:New Constr. 0 Reroof o Multi-family 0 Addition 0 Move o Commercial 0 Remodel 0 Der:.ohtlOn o Repair 0 SIgn BRIEF DESCRIPTION OF THE PROJECT: 1354 Upper Floor \~ P.--F. :! 1/Z5 .. COMMERCIAIJRESIDENTIAL: Occupancy Group: R-3 No. of Stories: ~ Lot Size: 14,000 SO FT % Lot Coverage: Existing Lot Coverage: None Isq. ft. + Proposed Lot Coverage: 2010 SIZEN ALUATION: _ o Woodstove 1470 MUn FlrsF. @$ '1S.94rsF. = $ I II t b 3Z l2DcGarage 1354 Uop Fir SF @ $ 55. 351SF. = $ ~ 4-,9' ++- - ,0 Deck 540 Garqge SF.@$ Iq."flISF..$~~~ - o TOTAL VALUATION $ - Single Family welling wi th Attached Garage - 1470 SO eet M3in Floor Occupant Load: 14.00 % Isq. ft. = TOTAL LOT COVERAGE: Construction Type: V-N 2010 Isq ft PLANNING USE ONLY: Notes: I - APPROVALS: PLAN BLDG DPW FIRE OTHER ESAlWetland(s): 0 Yes 0 No SEPA Checklist required? 0 Yes 0 No Other: PREAPPUCA nON SUBMITTAL: Your application and site plan must he fdled out completely to he accepted for review. The Building Division can provide you with more detailed information on the application and plan submittal requirements. .' BUILDING PERMIT APPLICATION SUBMITTAL: Your completed application, site plan (for additions) and building construction plans are to be submitted to the Building DiVision V ALUA nON OF CONSTRUCTION. In aU cases, a valuation amount must be entered by the applicant This figure wIll be reviewed and may be revised by the Buildmg Dlv to comply with current fee schedules. Contact the Permit Coordinator at 417 -4815 for assistance. PLAN CHECK FEE: YOW" plan check fee is.due at the time the building permIt application and construction plans are submItted. All other permit fees are due at the time ofpelmit issuance, 1 EXPIRATION OF PLAN REVIEW: If no pelmit is issued within 180 days of the date of application, this application will expire by llIrutations. The Building Official can extend the time for action by the applicant up to 180 days, on written request by the applicant (see Section 304(d) of the Uniform Building Code, CUITent edition). No application can be extended more than once I hereby certify Ihat I have read and examllled tillS application and lalOw the same to be true and correct, and I am authonzed 10 apply for this permit. I undersland it is not the Clly's legal responsibility to deterll/me what peril/its are required; it rell/alllS the applicanl's responsibility 10 determine what penll/ts an reqUired and to obtain such. Applicant Bi 11 Hi nemrt - Agent Date 1011 S/20m PW-II02_13Irev.2/96] Lasered CEO LOT 18 I I I I I I I I I I I : I~ I I I I , I -1~ / / r II / I I // I I ........ / / =-_.. I ..ep_, / ,.,_ep<f_' I y""'" I / 1- LOTB I , , I I , I I I I ~ ! ..... I / / / / I / I / ~// I f------ ~-6$?€L-- ( I I I I I I I I I I I I - - 1 I I I I I I I I I 1 -..... aI_- I I I I I !9BO'_ - _..:..- - --4> - -.... ' " =----- --- 1III.uIIlOc:Ilrtlall_ >>--- lOtJtrrllllM_ --,.,---.- 11I'_4__& 1IlIl-.......... lIE&T TJ.lIR) &~ b Q. '-Q 8;cu mO -' / / ,., . ~ :' , I I, ; I: I - -I I '1 i ' / ,1 .~ s - ~ -~~ -11 ..J '11 ' 1~ -- ~- ~ j ~ , ~ :I _'4-lf. ~ ~ ~~ j " ), ~ it ~ , ~ ,'l) tt .J ..J ~ It - l\ ~~ -J I ~ 1 In~' ,- ~- 'j :~~ :s' I //", / / / , / " "/,,,/ ~. / / .. / - / / ! //. I ~ ,/ ,~;. i/~ /</'~ /1 ~ , '/ ~ .:I'.' ", I 1 3 . 5l?- in III E <o/~ S!i\ I~~ I~I ~ I i i I I I I I , I ~ l '~ -~ -"II j 1~ .. I I . /' , / . / /' ~'/ .' , 7"- ~ ,J ,...I - ~ ~~ ,..j~ ~i / ' . ,/ ,,' -4 -"'Ill , / ," //,/ / / / , ,//" ,// ,/ / // , ' /",,1' // I I ' ~i z 1l "'C:l i:.:o mw ~o --! "") I, . '. . -1 Lasered CEO , COASTAL GEOLOGIC SERVICES, ING. November 22, 2000 00 ~@~ow~w NOV29!D) To: Ms. Debra Barnes City of Port Angeles Planning Department PO Box 1150 Port Angeles, WA 98362-0217 PORT ANGElES PLANNING DEPARTMENT ' Subject: Technical Review of Single Family Development Proposal Mike Somers Property, 503 west Third Street, Port Angeles Introduction Coastal Geologic Services Inc. was retained to review the proposal to construct a single-family residence at 503 West Third Street, Port Angeles. The proposal considered for this review is that described in the "Geotechnical Report for Sums Construction" by Zenovic and Associates, Inc. (2000), dated August 10, 2000, and as depicted on the building permit site plan (attached to this report). The proposed house location has a 0 ft setback (no setback) from the bluff crest. Stakes marking the building comers at the lot appeared to be in the correct position, and were assumed to be correct for this analysis. Figure 1 is a copy of a color aerial photo taken in 1995 showing the site and the surrounding area. Findings and conclusions in the Geotechnical Report were also reviewed and evaluated. Evaluation was completed based on Coastal Geologic Services Inc. site visits conducted on November 16 and 17, 2000 and knowledge of and experience with geologic properties and bluff processes of the area. Site Geology and Relevant Site Conditions The geology of the upper portion of the bluff was examined in detail from the bluff crest down to approximately 40 ft below the crest. Below this point it was determined that the lower elevation portions of the bluff were less steep and much of the lower bluff face below the property was covered with colluvium (slide debris). Emphasis was placed on accurately determining the upper bluff geology since this was the steepest portion of the bluff face and the integrity of the proposed house location was fully dependant on the stability of the upper bluff. Upper bluff geology was determined through hand excavations that were made into the bluff face at 2-3 ft intervals. Excavations were made deep enough to expose undisturbed, in-place bluff deposits. The geology of the upper 15 ft of the bluff face was determined in the 40 ft west of the proposed house location. The total height of the bluff was approximately 100 ft. The geology of bluff face between 15 and 40 ft below the crest was determined in the area directly below the proposed house location. Geology of the upper bluff face was as follows, from the bluff crest down: . Approximately 1 ft of topsoil and subsoil. . Approximately 4 ft of fine to medium grain SAND with very minor amounts of pebble, mostly dry. 701 Wilson Ave. Bellingham, WA 98225 (360) 647-1845 FAX 671-6654 coastalgeo@home.com fJ~ Technical Review for Oty of Port Angeles 503 West Third Street. Port Angeles Nov. 22, 2000, Page 2 of 5 f COASTAL GEOLOGIC SERVICES, INC. . From approximately 5-7 ft below the bluff crest (vertically) was silty fine SAND, of low strength and low cohesion . From approximately 7-15 ft below the bluff crest was medium and fine SAND with interbedded silt lenses, of low strength. . From approximately 15-20 ft below the bluff crest was medium and fine SAND (low strength) with interbedded moderately dense silty clay lenses (moderate strength). . From approximately 20-29 ft below the bluff crest was predominantly medium and fine SAND (low strength). . From approximately 29-32 ft below the bluff crest was sandy GRAVEL (low-moderate strength). The lower portion of this unit was saturated and had excessive seepage. . At approximately 32 ft below the bluff crest was an impermeable layer but a large amount of water flow and colluvium prohibited determination of the composition. The Coastal Zone Atlas of Washington (WA Dept. of Ecology 1978) had the geology of the bluff in the area described as "Undifferentiated", and no more detail was provided in that document. The atlas classified the slope stability in the area as "intermediateD. Slopes at the proposed house location were measured with a Suunto inclinometer. The slope of the upper approximately 10 ft (vertically) of the bluff face was 35 degrees (70 %). The slope between approximately 10 and 18 ft of the bluff face was approximately 55 degrees (140 %). Between approximately 18 and 32 ft below the bluff crest the slope was measured at 70 degrees (off the % scale). Colluvium directly below the area of excessive seepage (at approximately 32 ft) was 28 degrees (55 %) and then the slope became somewhat steeper lower on the bluff face. Vegetation present on the upper 30 ft of the bluff face below the proposed house site included English ivy, grasses, Himalayan blackberry, elderberry, red alder, and swordfem. Very few trees (alder, elderberry) were present in the upper bluff and all were immature. Below 30 ft from the crest red alder, elderberry and other species of trees were present. The bluff around the subject property was formed through continued and numerous landslides. Based on geomorphic evidence such as bluff topography and vegetation, it appeared several areas immediately west of the site experienced landsliding within the past 5 years, possibly at or around New Year's Eve 1996-97. The closest of these scarped areas begins approximately 30 ft west of the proposed house site. Several sets of tension cracks were observed in the pavement of Third Street immediately west of the proposed house site. A new section of curb was installed in this area in recent years where a road shoulder failure may have occurred. The Port Angeles Planning Department quoted a nearby resident (Tobias, located approximately 150 ft east of the subject property) that stated they have seen approximately 8 ft of bluff crest recession since 1947. The Panning Department also stated that nearby neighbors stated that the bluff crest immediately west of the subject property has receded approximately 4-6 ft in the past 30 years. Evaluation of the Geotechnical Report The Geotechnical Report by Zenovic and Associates Inc. (2000) is very non-specific in describing the geology of the bluff at the site. It does not give the vertical position of described units or the actual or estimated thickness of the units, nor does it describe the site-specific engineering .J , Technical Review for Diy of Port Angeles 503 West Third Street, Port Angeles Nov. 22, 2000, Page 3 of 5 COASTAL GEOLOGIC SERVICES, INC. r- C':l~ fT1 co Cle;; CL properties in detail. The Geotechnical Report did not contain a geologic cross section, instead it relied on general soils characterizations for the area. It stated that the "soils in this area are characterized as a C/allam-Hoypus gravelly loam, 0 to 15 percent slopes. Based on inspection of exposed soils on the bluff near the project site, it appears that the site soils are the Hoypus outwash material as opposed to the C1allam glacial till.. The Geotechnical Report further stated, "Below the outwash material is a layer of lodgment till. W The till was implied by the report to be within the upper most bluff, since the report continued by describing the mid and lower bluff cofluvium following a general description of the engineering properties of till. The geology described herein is different from that described or implied by the Geotechnical Report. Till was not present within the approximately 32 ft of the upper bluff. although till may be present lower in the bluff. The upper bluff soils present may have been deposited as recessional outwash. The most pertinent issue in terms of slope stability is that the soils of the upper approximately 32 ft of the bluff are mostly low strength and are at6p an area of excessive seepage. The overall slope of the upper 32 ft of the bluff face (from crest straight to the zone of seepage) was calculated using the above stated slopes as 52 degrees from horizontal. This is equivalent to a 127 % slope. This is considerably more than the 100 % slope stated in the Geotechnical Report for the upper and middle bluff face (upper 70 ft). The Geotechnical Report stated~ "No visible scars from any prior surficial slides on the face of the slope were observed." Based on the site visits conducted for this review, the above statement would appear to refer to slides that occurred within the past 5 years only. The topography and vegetation of the bluff below the proposed house site seems to indicate periodic sliding. Comparison of the 1995 aerial photo (Figure 1) with present conditions shows that the entire area west of the proposed house site had a thick deciduous tree cover in 1995. Significant parts of this area are not covered with trees now, indicating that slides have occurred recently. The Geotechnical Report stated. in the beginning of the Conclusions and Recommendations section: "The marine bluff that forms the north line of the subject property was formerly a feeder bluff; continual erosion of the bluff and resuHant receding of the edge of the bluff has OCCUffed in the past but now has ceased due to the protection of the base of the bluff and the establishment of the extensive vegetation that covers the bluff face. II The bluff at the site is not subject to wave attack and is therefore no longer a feeder bluff. This is an important consideration in that marine erosion no longer occurs, however the bluff in the area continues to fail and erode due to ongoing slope processes. Nearby, this author has examined the bluffs of westem Port Angeles and found evidence of excessive seepage and extensive recent blLff failures. Bluffs in the eastem Port Angeles area (which have protected by a large revetme?t for almost 100 years) are also known for excessive seepage and subsequent instability (Johannessen 2000). The fill at the base of the bluff at the site was placed within the last century and the bluff has a considerable way to recede before the area could be classified as stable. Conclusions and Recommendations The proP1osed house location is at a very steep upper bluff area that contains excessive seepage at approximately 32 ft below the bluff crest. Excessive seepage below low-strength sandy soils provides la "classic" situation for mass wasting (Iandsliding). In combination with considerable winter pr~cipitation, this situation was responsible for initiating a large percentage of slides region-wide in the winter of 1996-97 (Gerstel, et. aI1997). I The house is proposed for a minor "poinr between what appears to be recent landslide areas. This would put the outer portion of the proposed house at risk of failure. Additionally, the plant t...r Technical Review for Oty of Port Angeles 503 West Third Street, Port Angeles Nov. 22, 2000, Page 4 of 5 , COASTAL GEOLOGIC SERVICES, INC. species present on the bluff face have very low erosion control potential. The extent of future bluff retreat is difficult to estimate and was beyond the scope of this review, but the upper bluff will likely not be stable until intermittent landslides and erosion result in a slope of approximately 34 to 40 degrees (65-85 %). Using the more conservative slope of 34 degrees versus the present conditions (52 degrees) for the upper 32 ft of the bluff, the bluff crest would recede by approximately 22 ft. This scenario assumes substantial failure(s) above the zone of significant seepage but no recession below the seepage. The effects of a major earthquake on slope stability are impossible to predict, but this could produce additional bluff retreat. The excavation of approximately 4 ft of soils within the house footprint (Zenovic and Associates Inc. 2000) to offset the weight of the proposed house would appear to be a wise recommendation in an attempt to not decrease the stability of the bluff. Likewise the drainage control recommended in the Geotechnical Report would be wise. However, a drainage problem already exists at the property in that there is a shortage of catch basins in Third Street and precipitation likely seeps into tension cracks in low areas of the road. This was not mentioned in the Geotechnical Report. The recommended use of auger-driven helical piers (Zenovic and Associates Inc. 2000) would not decrease the likelihood of landsliding, and would not substantially mitigate for the effects of landsliding at the proposed house location. Assuming the piers could be installed to 19 ft below the pre-development surface, the support for the house would be in low strength sandy soils considerably above the zone of excessive seepage. Minor bluff failures would leave the foundation only partially covered or in air above piers. More substantial failures would result in loss of pier support and threaten the safety of residents of the house. Whether bluff retreat will occur within an assumed 50 year habitation is uncertain, but it appears to be likely that one or more slope failures would occur at the house location within 50 years. With no setback and relying on the proposed piers for mitigation of the slope stability problems inherent in the site, there is no margin of error. Additionally, if the house were constructed as proposed and major bluff failure occurred, the Wire and Rope building at the base of the slope would be at an increased risk of damage due to sliding of the proposed house. Therefore, it is recommended that the City deny the current application for the safety of the occupants of the house, public safety, and liability reasons. An absolute minimum setback from the bluff crest of 22 ft plus a margin of error on the order of 5-15 ft, along with the engineering measures recommended, would seem more prudent. limitations of This Report This report was prepared for the specific conditions present at the subject property to meet the needs of the City of Port Angeles. No one other than the client or its agents should apply this report for any purposes other than that originally contemplated without first conferring with the geologist who prepared this report. The findings and recommendations presented in this report were reached based on brief field visits. The report represents the best professional judgment and should not be taken as any type of guarantee of the integrity of subject property. The report does not reflect detailed examination of sub-surface conditions present at the site, which are not known to exist. It is based on examination of surface features, soils characteristics, and bluff processes. In addition, conditions may change at the site due to human influences, floods, groundwater regime changes, or extreme storm events. This report may not be all that is required by a construction or drainage contractor or revegetation specialist to carry out recommended actions. Thank you for engaging the professional services of Coastal Geologic Services, Inc. If we can be of any additional assistance please contact our office. '-,.1 l Technical Review for Gty of Port Angeles 503 West T11ird Street, Port Angeles Nov. 24 2000, Page 5 of 5 Lasered CEO COASTAL GEOLOGIC SERVICES, ING. References Gerstel, Wendy J., MattheIN J. Brunengo, William S. Ungley, Jr., Robert L Logan, Hugh Shipman, and Timothy J. Walsh, 1997, Puget Sound bluffs: the where. why, and when of landslides following the holiday 1996197 stonns, WashIngton Geology, v. 25 n. 1, WA DNR, Olympia, p 17-31. Johannessen, Jim and Ted Hammer, PE, 2000, Bluff and shoreline stability feasibility study of the Olympic Discovery TraR, Segment 1, Coastal Geologic Services Inc. and Western Geotechnical Consultants Inc., Prepared for Zenovic and Associates Inc., 20 p plus maps and figures. W A Department of Ecology, 1978, Coastal zone atfas of Washington, C1a/Jam County: W A Department of Ecology Shorelands Division, DOE Pub. No. n-21-12 ZenOVlc and Associates, Inc., 2000, Geotechnical Report for Sums Construction, 4 p. plus attachments. ATTACHED: Figure 1, 1995 aerial photo of the area. Proposed Site Plan f/ Lasered CEO FOR GEOTECHNICAL REPORT SUMS CONSTRUCTION Date' Augu~10,2000 ProJect: Site Development for Single Family Residence 503 West Third Street, Port Angeles Client: Mr. Mike Somers Sums Construction 254895 Highway 101 Port Angeles, WA 98362 Prepared by: Zenovic & Associates, Inc. 519 S. Peabody Street, Suite 4 Port Angeles, WA 98362 (360) 417-0501 General Information: Mr Mike Somers of Sums Construction is proposing to construct a single-family residence on the property at 503 West Third Street in Port Angeles. The property is located on the marine bluff that overlooks the commercial/industrial area on the west end of downtown Port Angeles. This commercial/industrial area is built on fill material that has been historically placed on the beach area of the Strait of Juan de Fuca. This matenal protects the base of the bluff from the erosive actions of the tidal and wave action of the Strait. The marine bluff is quite steep, with a slope of approximately 100% (1 horizontal t 01 vertical) for a height of about 70 feet at the top of the bluff. Below this point, the slope reduces to approximately 75% (1.3 horizontal to 1 vertical) until it reaches the paved parking area behind Sunset Wire Rope, the business located at the base of the slope. Under the standards of the City of Port Angeles Environmentally Sensitive Areas Ordinance, a geotechnical report must be submitted for any development within 200 feet of the top of the marine bluff to substantiate that the proposed development will not impact the stability of the bluff (PAMC 15.20.070). The upland area of the site, that portion south of the marine bluff, is basically level. The site is covered with a maintained lawn of perennial pasture grass. The face of the bluff IS covered with dense vegetation of some larger deciduous trees (maples and alders) and an undergrowth of smaller trees, brush and brambles. No visible scars from any pnor surficial slides on the face of the slope were observed. .-' Lasered CEO Page 2 Geotechnical Report for Sums Construction - 503 West Third Street, Port Angeles August10,2000 The soils in this area are characterized as a Clallam-Hoypus gravelly sandy loam, 0 to 15 percent slopes, in the Soil Survey of Callam County Area, Washington (USDA/SCS, 1979). Based on inspection of the exposed soils on the bluff near the project site, it appears that the site soils are the Hoypus outwash material as opposed to the Clallam glacial till. These Hoypus soils are formed in the recessional outwash material from the Vashon Stade of the Fraser Glaciation. Chemical and mechanical weathering (freeze/thaw cycles, percolation of rainfall, etc.) of the parent material has created the Hoypus soils. Typically, the weathering is greater near the surface, so the soil particles are finer at the shallower depths, becoming coarser with increased depth. However, since the outwash material IS very coarse, and the soils are relatively young and not excessively weathered, the resulting soil material is relatively coarse with minimal fine particles. Hoypus soils are free-draining, have a low water capacity, and are minimally erosive. Site Geology: The Fraser Glaciation is the period of most recent glaciation in the western Washington area, beginning about 18,000 years ago. The Vashon Stade, the second stage of the Fraser Gaciation, is the last major advancement of the continental ice sheet from Canada. This stage of the glaciation reworked the material deposited during the Salmon Springs Stade that occurred some 35,000 years ago. As the glaciers of the Vashon Stade receded, the melting ice left a landscape dominated by till plains and outwash terraces. The parent material of the soils found on the subject property is this outwash deposit. Below the outwash material is a layer of lodgement till. The lodgement till is a very dense compressed fine sand. In some locations, this lodgement till is interbedded with layers of loose sands and gravels. Observation of the bluff face at the project site indicates that no significant layers of sands and gravels are present in the lodgement till in the project area. The lodgement till material can stand nearly vertical if not subject to external forces, such as freeze/thaw cycles and wind and water erosion. Below the more steep upper portion of the bluff, extending up from the parking lot, is a colluvial deposit of the material that has eroded from the face of the bluff from the prior wind erosion and freeze/thaw cycles. This colluvial material stands at a slope of 1.3 horizontal to 1 vertical, the natural angle of repose of sand/gravel soil mixtures. The top edge of this colluvial deposit is approximately 20 feet above the parking lot. If the imported fill material at the base of the bluff were not present, wave and tidal action of the Strait of Juan de Fuca would transport this colluvial material from the base. Over time, the removal of the colluvial material would allow erosion of the base of the bluff to proceed, weakening the entire face of the bluff and resulting in increased recession of the top edge of the bluff. y Lasered CEO Page 3 Geotechnical Report for Sums Construction - 503 West Third Street, Port Angeles August 10, 2000 Conclusions and Recommendations: The marine bluff that forms the north line of the subject property was formerly a feeder bluff, continual erosion of the bluff and the resultant receding of the edge of the bluff has occurred in the past but now has ceased due to the protection of the base of the bluff and the establishment of the extensive vegetation that covers the bluff. The primary concern for the continued protection of the bluff is to eliminate the potential for the runoff from Incident rainfall impacting the bluff and to avoid placing any additional loads on the upland areas at the top of the bluff. In addition, protection of the proposed house from a catastrophic earthquake is of concern. The site soils above the lodgement till are stable at slopes of 1.3 horizontal to 1 vertical when not saturated. The point of support for vertical foundation loads must be below that stable slope line or into the lodgement till. With proper design and construction techniques, development of the site for a single-family dwelling is appropriate. The following design criteria and construction techniques are required for this site: The entire area of the site from a line 2 feet outside the foundation wall limits is to be excavated to an elevation of 105.00 based on the datum of the City of Port Angeles aerial mapping of 1995. This elevation is approximately 4 feet below the existing ground surface elevation. Removal of this material will compensate for the additional weight the structure imposes on the ground at the top of the bluff. A foundation support system of auger-driven helical piers (AS Chance Helical Pier Foundation System or equal) shall be installed under the foundation on the bluff side of the structure from the southwest corner to the northeast corner of the structure. Helical piers shall be no further than 8 feet on center. Pier capacity shall not be less than 4 times the foundation bearing design load for any pier. The piers shall extend not less than 15 feet below the excavation elevation, unless full refusal is reached prior to obtaining that depth. All runoff from impervious surfaces (roofs, sidewalks and concrete driveways, decks, etc.) must be collected and tight-lined to the existing storm sewer line at the Intersection of West Third Street and Pine Street. A foundation drain shall be installed around the perimeter of the structure. This foundation drain shall be set with the invert of the drain pipe level with or below the base of the footing. This drain shall also discharge to the aforementioned storm sewer. The foundation drain lines and stormwater drain lines shall be independent systems on the project site, but may be combined after the line reaches the street, so long as the invert of the storm drain piping is below the invert of the foundation draIn at the point of connection. ",. Page 4 Geotechnical Report for Sums Construction - 503 West Third Street, Port Angeles August 10, 2000 Lasered CEO The foundation drain and storm drain discharge lines to the City storm sewer shall be installed prior to the foundation excavation work to permit drainage of the excavation in case of rain. The excavation shall be kept free of standing water at all times. Material from the excavation shall be removed from the site as it is being excavated. No stockpiling of this material on the site or on adjacent properties or within the Third Street right-of-way is permitted. In no case shall any excavated material, construction debris, or trimmings from maintenance of site vegetation be placed on the bluff slope. No disturbance of the vegetation on the bluff is permitted. The footprint of the structure shall be in substantial conformance with the attached plan as provided by the Client (attached). Minimum setbacks from the property to the east as per City Ordinance and from the Third Street right-of-way as per the approved variance (VAR99-08) shall be held. Adherence to the requirements set forth herein is critical to the safe development of this site. Proper site development will reduce the risk of slope failure. However, improper design and construction will significantly increase that risk. Upon completion of construction, the homeowner shall be responsible for assuring that the drain systems are fully functional at all times. This includes maintaining gutters, downspouts, area drains, and all piping in a clean and fully functional manner. Yearly inspections of both the foundation drain and storm drain systems are recommended. In addition, the homeowner shall provide proper maintenance of the bluff. This shall include making sure that no material of any kind, including yard debris, is placed on the face of the bluff. Trimming of the trees on the bluff to maintain view corridors is acceptable so long as all trimmings are removed from the site and no trees are trimmed in such a manner that the tree is destroyed. Use of this Report: This report has been prepared at the request of Mr. Mike Somers of Sums Construction for the purpose of determining the appropriate development standards for a single-family residence on the subject property. This report is specific to this site and information contained herein is the property of Mr. Somers and may not be used without his permission. The findings set forth In the report are based on a site inspection and review of available data. The conclusions and recommendations denved from these findings assume that the site conditions do not vary radically throughout the site. If excavations and/or construction activities discover that site conditions are significantly different than those documented herein, Zenovic & Associates, Inc. must be contacted to verify or modify the conclusions, as appropnate. .1 / I .~ 'I / I t 1,. &1'-6" / ~ 1'.0" " Lasered 11'-6" 12'.0" / 28'.0" CED '10 //r ROOF CONG I OVERI1~ FOLNDATION LINE " , , . I / / / / / j/// I ,--- dr- - :;0.00' , ,\ I '... , I I . I I /~ , " j -- /' ~ AFFROXIMATE / TOP OF BUff / / o -' \Q b I b b I N ..... b , in '"10 / -- I, I, I, I, I, II II -=- -=- -=- -=- -=- -=- -=- -=- -=- __...J...J -- I r t ~ ,I " I ~:, . 'iI! t" PROPOSED NEW HOUSE I I ~T RJMP !)lIT --+- ON CONG. PAD 1 I ! 'J t;O.OOI I I . }7-- I 1 ------~ PROPERTY LINE / NEW CONG. WALK NEW .:eNG. DRIVEWA'T' .(l\.. , ' t-- ---i i I I, I WEST T~IRC) STREET 6 ~,A t ~ ~EfZ.S;~ S / TE- / Lasered CEO A109 02150/CHA BuyLine 1386 .-e @ HELICAL-PIER™ FOUNDATION SYSTEM Saves days and dollars compared to concrete piers, spread footings or other pile methods U.S. Patents: 5,011,336; 5,120,163; 5,139,368; 5,171,107 and 5,213,448 Proven for: 0 Seismic applications 0 Raising existing structures o Retaining walls, revetments, 0 Underpinning existing structures buildings, roadways, dams, levees For foundation repair and reinforcement applications. '(I' :.1' . ": ~;~l., . .' ,-"..'r~ ., ,~ \..4-, * Immediate benefits: o Installs In limited-access situations o Clean - no excavation spoils removal o Installs with available equipment o Predictable results o Lower installed costs t(" o One-trip convenience: No site preparation 0 Less equipment needed: and no concrete required in many cases No concrete trucks or grout pumps o Holds design loads In specific solis o Installs in any weather o Easy to store and transport o Reusable _~_..L:!_~_ 8ClL1D FIIJ.El) I'C6'I& II =U=~ : / calC FOO'I1G calC FOO'I1G I . ~ ~~~ -r ~~r;= ~ I t-~ l~ - tlI2JiU. - ...CJ z:s. ~J ~'L , I I I I I I I I' ! II I II I I teTAU. ~ I I "1'1'1,1111 Im~11 I"~l! ! ! i ' !,! II i ' , , !: ! II I I I ~H-t-#~J:tt#ttf+ff, r;-~:~~~ :! ! ! i ! ! ! i i ! ! I Iyit+tt-~I----I 1!!!i!!!ii!!~~ii!!i!i!1 I , J1 1m _1J..L LI-I-l -!- -1- -l- l- L '-1--1--1_ ..J 111' L! -1 J. L...l...-.J.l- .l- ,11+-/aX . ,0*'=J~I=j~~:,' . ~ ~4 /0/ - ~--.-""""~ ~ _ I.' _~ -------- ~.J -- I Lt ------- I_______~~ ~1;\I:.J i I f-~A~~..a.ol'~JIf ' .......-...../TTP) ': "..,.....,-,~ calCFOO'I1G ~EU-C:-----:I1 '~IlP~ r:..L== I I ~~ ~____"':~I TTiII-~~.L--~II!.. I "'(2)~e/lMJ ' 'I -r - - - - :...J ~, T"""" U'I6' ' " I I I I i ! i ! i i i ! i ! ! ! ! i ' ! I . .+- l- ~'---< --! --l. --L I I I I' I I :iJ-+. "I" ~f ' I ~lIUJll, · ~- ----I :2..1~1-f- I st;-YL:f- 4' eRtCX l.EPGIE cae.1IIo\lX Lasered CEO SSS -IL-F Ir_~ ~.=~ 2' 6t/I) 0WIt I"\.A61lC V~~Ql CXltt>ACl&D Q.4f!.IDE ~ ,..---, I I ll' l_~j-==: I I Ql,.'lc36'ld2' 1IlOl: cae. FOO'I1G '" ~ L _ _ _ _ _ _ _ ~~aw!AIII4Y_ J I Ql cae.I"AO I I I I I I I I I !J FOUNDATION PLAN" MAIN l..:~ FLOOR FRAMING PLAN eCA1..e!. 1/4" . 1'-0" o NOfIltTI4 Lasered CED TECHNICAL @ Worldwide experience in Helical-Pier™ Systems MRlMANUFACTURER f1~ i'~!.r HISTORY More than 80 years ago, A. Bishop Chance developed his first patented earth anchor. Since then, the A.B. Chance Company has contmued to introduce new anchoring products for tension and compression. Among the most significant mile- stones in anchoring history are the systems of power-installed screw anchors for electric-power and telephone utilities, the pipeline and construction industries. CAPABILITIES These power-installed helical-pier systems have proved extremely reliable and offer predictable holding capacities at economical installation costs. Moreover, their unique advantages have led to a growing range of compression and tension anchoring applications. Loads as high as 200,000 lb. are achievable in certain soils. Special terminations allow simplified load transfer from the structure to the pIers. Chance, with 1,400,000 sq. ft. of manufacturing, 1,400 employees and engineering expertise, is by far the leader in helical-pier develop- ment and quality. TSfTECHNICAL SUPPORT SERVICES Applied in a wide variety of projects, the reliability of Chance helical piers has been thoroughly proven over decades in all types of soil conditions. Based on this cumulative experience, Chance has acquired unique resources to support the following services: · Certified installers - Training and field supervision · Design assistance - Geotechnical engineering guidance for special cases · Inventories of standard and specially-designed products to match applications to soils. 2 TSfTECHNICAL SUPPORT COMPUTER-ASSISTED DESIGN PACKAGE To assist design engineers in applying helical piers for founda- tion and retaining projects, Chance Company provides a complete design package comprising: · A technical manual presenting the state-of-the-art in power- installed earth-anchor design, · An interactive computer soft- ware program for project de- signs, · Listings of prices for anchors available to derive job-cost estimates. The manual accompanies the software program to instruct the engineer in pertinent application aspects through commentary on design theory, testing and installa- tion procedures. It presents practi- cal examples for "walk-through" experience with the program. This DT/DOCUMENT TABLE OF CONTENTS helps to impart both a sense of the design theory involved for these applications and how the program functions. The software for personal comput- ers minimIzes mput requirements and decisions by the users but otherwise duplicates the program Chance anchor-application engi- neers employ daily to make project- design recommendations. A senes of prompts direct the designer to maintain control over essential design criteria. User proficiency with the program should be quick to acquire. Simple input needed: 1. Soil data - involves depths of layers, strength parameters and type; 2. Anchor description - consists of extension length, installation angle, distance to datum; 3. Load - magnitude and direction. Useful output provides theoretical capacities - both in tenSIOn and in compression - of anchor lead sections installed in the given soil conditions. C' " , Holding capacity of va no us anchor sizes is matched to sOll-classzficaton data to select the proper anchor for the speczfic project load requzrements. o About A.B. Chance Co. ............................................................ ............. 2 o Overview of Products .... ..... ..................... ................................................ 3 o Square-Shaft Helical Piers ............................................................... 4 - 5 o High-Strength Helical Piers .................................................................. 6 (~ o Tension/Compression Helical Piers ....................................................... 6 o Application Examples ................................................................. ........... 7 ~ A109 02150/CHA BuyLine 1386 PPIPRODUCT PRESENTATION ~ PPIPRODUCT PRESENTATION MFIMATERIALS, FINISHES OVERVIEW OF PRODUCTS The Chance@Helical Pier™ system includes shafts of round and square configurations to match design loads. Round shafts (%" solid steel to 10" diameter pipe) and square shafts (1 %" to 2Y4" solid high- strength steel) are available to obtain the most economical means to carry various loading require- ments. To increase product life in aggressive soils, hot-dip galvaniz- ing to ASTM specifications is normally supplied. OP/OVERALL PRODUCT, IN PLACE AI/ASSEMBLY, INSTALLATION BENEFITS fIm'(, W Helical piers have alleviated stresses on buildings caused by foundations shifting in expansive soils. As additional support mem- bers, helical piers extend bearing plates into underlying subsoil. Their small-diameter shafts simply penetrate the expansive zone without significant disturbance. Installed in sections, Chance helical piers can get into low- headroom situations. This is ideal for underpinning foundations showing signs of failure or to upgrade their capacity for addi- tional bearing requirements. For buildings on sites where soil creeps, helical piers can be in- stalled both vertically and at an angle opposing the downhill creep. Thls permits soil to flow around the small-diameter pier shafts while the companion tieback anchors resist horizontal loads the soil movement places on the structure. To resist seismic loading where conditions dictate, tieback anchors also are readily incorporated into new building construction. TS/TECHNICAL SUPPORT AVASSEMBLY, INSTALLATION BEARING-PLATE THEORY FEATURES Special techniques, tools and designs and sizes derived through experience and engineering exper- tise give Chance helical piers advantages not easily duplicated. Subtle yet significant differences set Chance designs ahead: · True helices penetrate the soilsi with minimal disturbance, · Round-cornered square shafts and precise helix pitches assure both installation ease and bearing. capacities. Quality Assurance is a way of life in Chance Co. manufacturing processes. Chance is recognized . throughout the industry as a leader in anchor manufacturing and quality. When you specify Chance' helical piers, you can be confident you have selected designs and finished products of the highest caliber available. (c' The bearing calculations are suitable for both compression and tension as long as the soils being loaded are considered. Foundation design typically can be divided into two steps: 1. Select anchor-helix configuration based on soil characteristics and load. 2. Select shaft configuration based on load and anticipated installation torque. CAPACITY EQUATION The design procedure utilized by the A.B. Chance Company is based upon the well-known General Bearing Capacity Equation: qu =CNc + q Nq where qu ultimate soil bearing pressure C cohesion of soil q overburden pressure Nc '-bearing capacity factors for Nq flocal shear conditions The load capacity of a multi-helix anchor is the sum of all individual helix capacities. Individual helix bearing capacity is the product of its projected area (Ab) and the bearing pressure (qu). Reduction in load capacity should be accounted for in sensitive soils. Allowances should be made when the zone of influence for a helix includes strata of different strengths. This analysis depends on a "deep anchorage" failure mode. This conditton is satisfied when the helix depth-to-diameter ratio is a mini- mum of 5. HOLDING STRENGTH RELATED TO INSTALLING TORQUE Monitoring installation torque helps indicate anchor capacity. The ratio between holding capacity and installation torque suggests 10 as a rule of thumb. This value typically ranges from 7 to 12. Torque moni- tors are available from Chance. Their use provides a good method of quality control during installation. Load I Graphic representation of individual bearing pressures on multi-helix anchor, at left. ;~~:, :~J.~Y~:(1. j-r." ,~:,:'~: ~7;:~: .~j~~I~i..' .:~_.........:.I;i., qu "~,-"\f",~;;1;',\':.~-- '_~t~,,~~~ ":''7H:\'i?~~ 1~~~~ ~~,~\I,:~~ .'j ~ ~~~~i I ~I:'."'~~:l. .",~\.l~(~"ffL .f ' ~'J.V\:~A. 1!~' qu Model in clay, above, lllustrates "deep anchorage" {allure mode. (Bobbitt, 1968) qu 3 -' Square-Shaft Helical-Pier™ Anchors If @ PP/PRODUCT PRESENTATION UAlUSES, APPICATIONS SQUARE-SHAFT ANCHORS DESCRIPTION Square-Shaft (SS) Helical-Pler™ anchors are designed for sImple installatIOn and to maximize the load capacity of each helix. Shafts and helices are of steel selected to meet specific installing torques and design loads. Bending moments are of little concern when the piers are installed because soil sufficiently supports the shafts. Installing equipment may be a utIlity truck, caisson drill, backhoe, skid-steer loader or hand-held rotary tool. As proper installation affects performance, criteria include high torque, low speed, down pressure and angle control. A torque-to-capacity ratio of 1:10 is excellent to verify capacity. Read torque on the installing equipment meter to assure soil consistency durmg final depth equal to three times the anchor helix diameter. Typical applications are underpin- ning piers, transmission-tower anchors, tiebacks, hold-downs for pipelines and building foundations. INSTALLING TOOLS Catalog No. 6390001 C303-0195 C303-0201 Descnptlon 1.5055 Tool 1.7555 Tool 2.0055 Tool Weight 71b. 181b. 22 lb. A throughbolt retains the anchor in the tool for driving. CP/COMPONENTS. PARTS f ~ LEAD SECTIONS EXTENSION SECTION ~ 1 V4- 7UNC-2A ll-lREADS OVALEYE ADAPTER C 150"()()33 FOR 1W SHAFT THREADED ADAPTER C 150"()()32 FOR 1 W SHAFT 4 For attachment to a torque-output source directly or via a torque- indicating device, drive tools for the three SS anchor sizes are of the same basic design. The 1.50 SS tool has 5Y4" bolt circle (B.C.) for six W' bolts; each of the other two tools has a 7%" B.C. for six %" bolts. o LIGHT-DUTY BRACKET C 150-0239 FOR 1 W SHAFTS NEW-CONSTRUCTION FOUNDA TION BRACKET Cl50-0132 FOR 1 W AND H~" SHAFTS FOUNDATION-REPAIR BRACKET Cl50-0121 FOR 1 W SHAFT Cl50-0147 FOR 1314" SHAFT UPLIFT BRACKET C 150-0227 FITS BRACKET Cl50-0121 FOR 1 W SHAFT Jm TAPPED FOR 1" ll-lREADBAR CHAIN SHACKLE C 150..()()40 FOR 10/4" SHAFT Cl50-0042 FOR 2" SHAFT THREAD BAR ADAPTER Cl14-0158 FOR 1W SHAFT Cl14-0156 FOR 1'V4" SHAFT SLAB-REPAIR BRACKET Tl50-0085 FOR 1 W SHAFT INCLUDES: CHANNEL, BOLT, AND ANCHOR TERMINATOR INCLUDES S"-DIA SPECIAL HELIX, 7'-LONG 1 W-DIA ROUND- ROD EXTENSION, 2Q".LONG THREADED-STUD ADAPTER, EMBOSSED WALL PLATE, WASHER AND NUT TAPPED FOR 1W ll-lREADBAR t THREADBAR ADAPTER Cl14-022S FOR 2" SHAFT THREADED ADAPTER C 150-0037 FOR 1314" SHAFT i> " I"~ J~ . " ~'~ ':j~ . ,~ ,~ ,J :~ , ! .i, . 'j , . , < ' "',' .;;jJ, '~~'I~ "l~ ~" Y'I\Jj\ :J~I'~ "1~" l/lt . ~'~ "j 1& \ ~ \. -, ~: ( ~, ~ (8 '. I ( , .............. ~...-- . . , /~~ ;'''.' Al09 ' 02150/CHA BuYLine 1386 ..;~ '~'1h/~ CP/COMPONENTS, PARTS MECHANICAL RATINGS 1.50"" Square Shaft 1.75" Square Shaft 2.0" Square Shaft Max. Installation Torque 5,500 ft.-lb. 10,000 ft.-lb. 15,000 ft.-lb. Ult. Axial Strength (tension) 70,000 lb. 100,000 lb. 150,000 lb. Working Load (compression) 15,000 lb. as pierw/bracket 40,000 lb. as pier w/bracket - Typical Lifting Load 20,000 lb. as pier w/bracket 40,000 lb. as pier w/bracket - Lead Sections , HELIX CONFIGURATION Length Catalog No. Length Catalog No. Length Catalog No. & DIAMETER - 8" 5 ft. C150-0002 5~ ft. C150-0010 5~ft. C150-0015 8" 7 ft. C150-0001 - - - - 10" 7 ft. C150-0003 5~ ft. C150-0011 5~ ft. C150-0016 12" 7 ft. C150-0004 - - - - 14" 7 ft. C150-0005 - - - - 6" &8" 7 ft. C150-0030 - - - - 8" & 10" 7 ft. C150-0006 5~ ft. C150-0012 - - 8" & 10" 10ft. C150-0031 - - - - 10" & 12" 7 ft. C150-0051 - - - - 8",10" & 12" 7 ft. C150-0007 5 ft. C150-0180 5~ f1. C150-0189 Extension Sections 31,.2 ft. C150-0047 3 ft. C150-0183 - - 5 ft. C 150-0008 5 ft. C150-0013 5 ft. C150-0017 7 ft. C150-0009 7 ft. C150-0014 7 ft. C150-0018 10ft. C150-0048 - - - - Termination Adapters Catalog No. Catalog No. Catalog No. i i Threaded Stud C 150-0032 C 150-0037 - Ovaleye C 150-0033 - - Threadbar Adapter C 114-0058 C 114-0056 C 114-0228 Chain Shackle - C150-0040 C 150-0042 Light-Duty Bracket C150-0239 - - Foundation Repair Bracket C150-0121 C150-0147 - Jacking Tool, Fdn. Bracket C150-0117 C150--0153 - Uplift Bracket C 150-0227 - - New-Construction Bracket C150-0132 C150-0132 - Slab-Repair Bracket T150-0085 - - 5 @ High-Strength and Tension/Compression Helical-Pier™ Anchors .~ CP/COMPONENTS, PARTS UAlUSES, APPLICATIONS o o o HIGH-STRENGTH ANCHORS DESCRIPTION High-Strength (HS) Helical-Pier™ anchors are de- signed of high-strength pipe shaft for resistance to bending moments. The lead section and extensions bolt together and are capable of sustaining 10,000 ft.-lb. of applied torque. A torque-to-capacity ratio of 1:7 may be used to verify HS capacity. Read torque on the installing equipment meter to assure soil consistency during final depth equal to three times the anchor helix diameter. Typical applications are transmission-tower anchors, radio-tower grillages and building foundations. Lead Sections HELIX CONFIGURATION & DIAMETER LENGTH , .. 4 ft. 7 ft. 7 ft. 7 ft. 7 ft. 7 ft. 8" 10" 12" 14" 10" & 12" 10",12" & 14" CATALOG NO. C150-0019 C 150-0020 C150-0021 C 150-0022 C150-0023 C150-0024 Extension Sections N/A NIA 5ft 7 ft. C150-0025 C150-0026 [(Q) L~ TERMINATION C150-0043 Em TERMINATION C 150-0044 Termination Adapters DESCRIPTION 1%" EYE Tapped 1 '14" - 7 UNC ,0 o o ~ =f} LEAD SECTIONS EXTENSION CATALOG NO. C150-0043 C 150-0044 G Installing Tool for Type HS Anchors CATALOG NO. WEIGHT C303-0754 15 lb. CP/COMPONENTS, PARTS UAlUSES, APPLICATIONS TENSION/COMPRESSION ANCHORS DESCRIPTION Tension/Compression (TIC) Helical-Pier™ anchors are designed for loads that often experience high compres- sion and uplift as well as lateral forces. The lead section resembles the HS (see above) type, but TIC extensions are a heavy pipe shaft (6" or 8" diameter). Load capacites of 100,000 lb. tension/compression are common with the TIC type Helical-Pier design. Typical applications are self-supporting towers, refinery equipment and buildings subject to uplift. Lead Sections - 3.50" 0.0. Shaft HELIX CONFIGURATION & DIAMETER LENGTH 10" With 14" helix coupler 10" & 12" with 14" helix coupler Extension Sections - B" 0.0. Shaft 4" helix coupler on each end 5 ft. CATALOG NO. 5.25 ft. 5.25 ft C150-0027 C 150-0028 6 C150-0029 .. LrU {t LEAD SECTIONS EXTENSION CO, '. ". Installlng Tool for Type TIC Anchors CATALOG NO. C303-0754 WEIGHT 151b. . . .r -- A109 02150/CHA BuyLine 1386 UAlUSES, APPLICATIONS SS (SQUARE-SHAFT) HELlCAL-PIERTM ANCHORS Typical applications are under- pinning piers, transmission- tower anchors, tiebacks, hold- downs for pipelines and building foundations. UAlUSES, APPLICATIONS Pipeline hold-down anchors and bands. Foundation underpinning for both repair and new-construction reinforcement. HS (HIGH-STRENGTH) HELlCAL-PIERTM ANCHORS " :~ ~ \ '1t; Typical applications are transmission- tower anchors, radio-tower grillages and building foundations. Left, creep resistance and underpinning combined in new construction. Right, underpinning remedial application. UAlUSES, APPLICATIONS T/C (TENSION/COMPRESSION) HELlCAL-PIERTM ANCHORS Typical applications are self-support- ing transmission towers, refinery equipment and buildings subject to uplift. It.-., ~~<' Left, azrport llghtmg-standard supports. Above, pipeline-substation foundations. 7 . . @ Tension-Anchor System for Tieback Applications UAlUSES, APPLICATIONS o ,'. }:!I:' TENSION-ANCHOR SYSTEM STABILIZES TIEBACK PROJECTS o Retaining walls 0 Dams o Roadways o Buildings o Revetments o Levees For retaining projects, Chance screw anchors can be matched to soil and tension loads in the same way Chance Helical-Pier™ anchors are for load- bearing applications, Many advantages also are similar: o Competitive installing costs o Immediate loading o Installs in any weather o Speeds site preparation o Readily available compo- nents o Installs with available equip- ment o Predictable results o Permanent or temporary installation o Removable if required o Less equipment (no concrete trucks or grout pumps) o Labor-saving - keeps crew size small o Installs without excavations "V ~; 'cJ ~:Eo()q~'~"ooQCG)::\. '000 ~.oo~ ~~~oo~aDgo~~ .. ?:jJ.,O fQo~!-.~..Q.g~o~~'~ \ .. .....0 dVO oo~-^-........ ., .Vo' DO .0 .,....... (.../, OG../. ,~~,o 0....... ~~~" '~~~~~J.o:?t~~:~:~?-'~~ ~\S ~f<?~b~~~~~q.~'if~~'?~;;~" qo':,,~::-,~~?b.'o~~~:'~S r'..' 00':::;' "D't'-> ,~. 'o,,,<VQoo,,o,...,.,~<?. 0." ql':,o "r->'Y 0 o~ :.po'Y<;;J?!!.o,. Q f).go,:.~Do ....~:f2 ~ ,~oD6o"'oo~. .o~Qo--r"~c::<t:2.. .o~~oo v~~""'o~c:?~.'.~;:tJ,o I, 9() :~~.OOC>~~~, :~~ 0 ~,g":o.~~~'?~t~~~c; 0 ."~~1i:f..o~~ };~O;~~'/?o1{~~' :~~~~c:t,.~q r?,o9~i];Job ":o,?jif;;;.~ &J" ~o()o:'q~: t. "~:(k 9~j1'c5~~:'~~~c?iJ~irC:d~)c;~'~Jocig~~Q6~,: \~O~o~oOg-(;~.&;~~toOQ~?o'!f: r~o. :({;~'~~~~~~!V.:?i~~f~~~;b~~q,~9t~o~4tBf..~~~~~";?cj~-:Q~~'?iipj~~ij /..0. . ~~<?;'co~<2 '2'o~ 'p o;~O!o ."*3~}r!)~'f,<}!)(!/otJ ~Q o"o'oo~t::j oOa/:)..'f'.'V:~~l?Do ~~::; :~~q~OC7. o.~c ~:.,.. ~;,-.,;.<2.:A\J?o2~:P.o~~ o.;;~"'::"o};?~t~'n"*~~'?~~'(J$~~.'t>QtP,.' f..~~ ~17.~,?c?q~o~ ;,B,Ul G,.,., , ;).) ) A.B. Chance Company 210 North Allen Street · Centralia, MO 65240 USA Phone: 314-682-8414 · Facsimile: 314-682-8660 CCopyrlght 1993 A.B. Chance Co. NOTE: Since the Chance Company has a polley of continuous product Improvement, It reserves the right to change design and speclflcatfons without notice. "" \.-.:;: , '. CITY OF PORT ANGELES ENERGY WORKSHEET PERMIT NUMBER NAME: MIKE SOMERS CONTRACTOR NAME: OWNER - BUILDER ADDRESS: 503 WEST THIRD STREET, PORT ANGELES, W A WINDOWMANUFACTOR'MILGARD MODEL: TYPE. SIZE SQFT TOTAL STYLE: NO: WIDTH LENGTH AREA QUANTITI AREA LOCATION Main Level FIxed Vinyl Frame WINgon & Low-e Glass I 2'6" 6'0" IS I IS Entry S-Hung Vinyl Frame W/Argon & Low-e Glass 2 2'0" 5'0" 10 2 20 Office Fixed Vinyl Frame W/Argon & Low-e Glass 3 2'6" 5'0" 125 I 125 StaIrway S-Hung Vinyl Frame W/Argon & Low-e Glass 4 3'0" 5'0" 15 I 15 Family Room S-Hung Vinyl Frame W/Argon & Low-e Glass 5 3'0" 5'0" IS 2 30 KItchen FIxed Vinyl Frame WINgon & Low-e Glass 6 5'0" 4'6" 225 1 225 KItchen FIxed Vinyl Frame W/Argon & Low-e Glass 7 3'0" 5'0" IS 3 45 Dining Room FIxed Vinyl Frame W/Argon & Low-e Glass 8 3'0" 6'0" 18 2 36 LIving Room F,xed Vinyl Frame W/Argon & Low-e Glass 9 6'0" 6'0" 36 I 36 LIvIng Room FIxed VInyl Frame WINgon & Low-e Glass 10 2'6" 6'0" IS 2 30 LIVIng Room S-Hung VInyl Frame WINgon & Low-e Glass 11 2'6" 6'0" IS 2 30 LIVIng Room FIxed VInyl Frame W/Argon & Low-e Glass 12 5'0" 6'0" 30 I 30 LIVIng Room Vpper Level X/O W/Rad Top VInyl Frame W/Argon & Low-e Glass 13 5'0" 4'0" 26 I 26 Bedroom X/O W/Rad Top VInyl Frame WINgon & Low-e Glass ]4 5'0" 4'0" 26 I 26 Bedroom Casement VInyl Frame W/Argon & Low-e Glass 15 2'6" 3'0" 75 I 75 Bathroom S-Hung VInyl Frame W/Argon & Low-e Glass 16 3'0" 5'0" IS 3 45 Master Bedroom S- Hung VInyl Frame W/Argon & Low-e Glass 17 2'6" 5'0" 125 I 125 Master Bedroom FIxed VInyl Frame WINgon & Low-e Glass 18 3'0" 5'0" 15 3 45 Master Bathroom FIxed VInyl Frame WINgon & Low-e Glass 19 2'6" 5'0" 125 I 125 StaIrway 20 0 WINDOW SKYLIGHTS Total Glazing TOTALS TOTALS TOTALS IDwelhng SQ FT. 2824 I % of Glazing 17 58% Style: Glass Type: Area: Value V.A. Tested or Default X/O W/Rad Top VInyl Frame W/Argon & Low-e Glass 52 0340 1768 NFRC TESTED Casement VInyl Frame W/Argon & Low-e Glass 75 0320 240 NFRC TESTED S-Hung VInyl Frame W/Argon & Low-e Glass 1525 0340 51 85 NFRC TESTED FIxed VInyl Frame W/Argon & Low-e Glass 2845 0320 9104 NFRC TESTED TOTALS 496.5 162.97 ~ LocatIOn: Door Type Area: Value V.A. Tested or Default Entry Door Base Case Insulated Door Vnlt 20 0190 380 Default HalVGarage Base Case Insu]ated Door VOlt 20 0]90 380 Defau]t FamIly Room Full-LIte Insulated Door 1/4" AIr Clear Glass 40 0390 1560 Default Master Bedroom Full-LIte Insulated Door 1/4" AIr Clear Glass 20 0390 780 Default TOTALS 100 ~ Compliance Appoach Prescrlptlve Path Compenent Performace xxxx System AnalYsls_______ Heat Pump xxxx Type Of Heat Other Type ElectrIc Vem 1 atlon Intergared wlth Heat System xxx Whole House Fan WIth Fresh AIr Ports lnsulatlon Level Slab N/A Floor R-19 Below Grade Walls N/A (ExterIor Or InterIor) N/A Above Grade OSW Skyllght Walls Vaulted Celllng Insulatlon Flat CeIlIng InsulatIon R-30 SCIssor Truss InsulatIon N/A HVAC Insulatlon R-8 Heatjng Ducts R-4 Ventjng Ducts ------------------------------------___________________________________________1_ -"~-~--.-----------------------------------------------------------------------T- WATTSUN 5.6 1997 WA STATE ENERGY CODE COMPLIANCE REPORT 10/17/80 FILE: C:\\HOUSE\\SOMERS.WS HOUSE ID: I -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- Site: 503 WEST THIRD STREET Analyst: BILL RINEHART PORT ANELES, WA Jurisdiction: CITY OF PORT ANGELES ( ) Utility: CITY LIGHT Homeowner: MIKE SOMERS House Type: Single Family PORT ANGELES, WA Floor Area: 2824 ft2 i (360)452-2268 I Builder: OWNER-BUILDERS Weather Data: Whidbey Island, WA 00 Climate Zone: 1 (360)452-2268 =:::=::::::::=::::::=::::::::::=::::=::::=::=:::::=::::::=::::~==============r REFERENCE PROPOSED COMPONENT PERFORMANCE 599 464 Btu/hr-F I -::::::-::::::---------------------:~::____________:~::__:::~:::~~:__________l REFERENcE-DESIGN-----------------------------------:::::::::-----------------1 Component Value X Area = UA Floor Glazing @15% Doors AG Wall Ceiling, Attic Infiltration U-0.041 U-0.650 U-0.390 U-0.062 U-0.036 ACH-0.350 1470 423.6 100.0 2770 1470 26343ft3( 60.3 275.3' 39. O' 171.7 52.9 168.7) Reference UA 599.3 PROPOSED DESIGN COMPONENTS Component Description Value X Area = UA Floor R19 vented Joist 160c U-0.041 1470 60.3' Glazing @18% **NFRC TESTED WINDOWS U-0.340 204.5 69.5 **NFRC TESTED WINDOWS U-O.320 292.0 93.4! Doors Metal R-5 +tb frame base case U-0.190 40.0 7.6: 2gl Full Lite Ins 1/4" , Clr U-0.390 60.0 23.4; AG Wall R19 INT" Lap Wood U-0.058 2697 156.4! -------------------------------------------------------------------------------- I ==============================================================================l= Items in parentheses not included in COMPONENT PERFORMANCE totals. I ** Denotes non-standard values - check calculation of thermal value. I ===================================== Page 1 =================================== i I , =~=,==~========================================================================== WATTSUN 5.6 1997 WA STATE ENERGY CODE COMPLIANCE REPORT 10/17/80 FILE: C:\\HOUSE\\SOMERS.WS HOUSE ID: -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- Ceiling Infiltration R30 blown Attic STD baffled Standard Air Sealing U-0.036 ACH-0.350 1470 52.9 26343ft3 (168.7) Proposed UA 463.6 Struc Mass Light Frame, Sheetrock walls M- 3.000 2824 8472. ------------------------------------------------------________________________1_ HEATING/COOLING/VENTILATING SYSTEMS Heating System Type: Make: System Efficiency: Backup AFUE: Modified Efficiency: PROPOSED Heat Pump: Air Source HP Air Source Default 6.8 HSPF 100.0% (Electric) 159 % Design ACH: Design Load(at 46F dt) : Duct Losses(% Dsn Load): Total Load: System Size (Output) : Outdoor Unit Size: Auxiliary Size: HP Balance Point: 0.60 35961 Btu/hr 7989 Btu/hr(22%) 43950 Btu/hr 66000 Btu/hr (150%) 2.5 Tons (@47F) 11. 3 kW (150%) 35 F Average Annual Heat: Annual Cost: 11800 kWh $ 649 Ventilation System: Integrated w/Forced Air Furnace Cooling System: SEER: Cooling Load(at -7F dt) : System Size (%Over) : Annual Cool Requirement: Example 10.0 (Ducted) 7687 Btu/hr 0.9 tons(@125%) 28 kWh/yr Solar Access: Partially Shaded ______________________________________________________________________________1__ PROPOSED DUCT SYSTEM Location Avg Rvalue Surface Area SUPPLY RETURN Vented crawlspace Attic or garage R- 8.0 R- 8.0 564.8 ft2 113.0 ft2 ===================================== Page 2 I ----------------------------------- ----------------------------------- =~=F=~========================================================================== WATTSUN 5.6 1997 WA STATE ENERGY CODE COMPLIANCE REPORT 10/17/80 FILE: C:\\HOUSE\\SOMERS.WS HOUSE ID: -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- GLAZING ORIENTATION South Southeast East Northeast PROPOSED ft2 North Northwest West Southwest PROPOSED 496.5ft2 Eff S Glz: 3.6% -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- Economic and energy consumption estimates are designed for comparative purposes only. Actual cost for heating will vary depending on weather conditions, occupant lifestyle and other factors. : ===================================== Page 3 =================================~= , r ? . ," A. PLYWOOD SHEAR. WALLS 1. MAXIMUM SHEAR = 250 P.L.F. USE 1/2" COX PLYWOOD SHEATHING - ONE SIDE OF WALL. NAIL.ALL EDGES WITH SD NAILS AT 6" O. C. FOR FRAMING, USE DF#2. PROVIDE 1/211 DIAMETER' ANCHOR BOLTS AT 3211 O.C. MAX. SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END' OF THE WALL, SEE FRAMING/SHEAR WALL PLANS. 2. .MAXIMUM SHEAR = 315 P. L. F . . USE 1/211 COX PLYWOOD SHEATHING - ONE SIDE OF WALL. NAIL ALL EDGES WITH 8D NAILS AT 5" O.C. FOR FRAMING, USE DF#2. PROVIDE 1/2" DIAMETER ANCHOR BOLTS AT 32"' O.C. MAX. SPACING AT THE FOUNDATION.' FOR TIE DOWNS AT EACH END OF THE WALL', SEE, FRAMING/SHEAR WALL PLANS. "3. MAXIMUM SHEAR = 375 P.L.F. USE 1/211 COX, PLYWOOD SHEATHING - ONE. SIDE OF WALL. NAIL ALL EDGES WITH':SD'NAILS AT 411 O.C. FOR FRAMING, USE DF#2. PROVIDE 1/2" DIAMETER ANCHOR BOLTS AT 24" O.C. MAX. SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END ,OF THE WALL, SEE FRAMING/S~ PLDS.;-.....-....---.---.. -"'. ,--.- "--"- - - ..-- -------.---. ... MAXIMUM SHEAR.- 490 P.L.F. USE 1/2" CDX, PLYWOOD SHEATHING - ONE SIDE OF . WALL. NAIL.'ALL." EDGES WITH 8D NAILS AT 311 O.C. STAGGERED". FOR FRAMING. USE DF#2. DOUBLE BOTTOM PLATES ARE REQUIRED - BOLT THROUGH BOTH~ " . . -P~~S ~. .p~~p~::~t~!~:::-:l?~~R-..ANQlQR BOLTS. .~~ ":32". ':.Q~'~_~,,:.,~ MA;~..:"~. .:.::~. -:,.: SPACING AT THE FOUNDATION., FOR TIE DOWNS AT EAGH END OF THE ' WALL, SEE F~NG/SHEAR WALL PLANS. 5. MAXIMUM.SHEAR = 560 P.L.F. 4. USE 1/211 COX PLYWOOD SHEATHING - ONE SIDE OF WALL. NAIL ALL EDGES WITH 10D' NAILS AT 3 II o. C. STAGGERED. FOR FRAMING AT VER~ICAL EDGE$, USE 311 NOMINAL OR WIDER DF#2. DOUBLE BOTTOM PLATES ARE REQUIRED - BOLT THROUGH BOTH PLATES. PROVIDE 5/8 II DIAMETER ANCHOR. BOLTS AT 24" O.C. MAX SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING/SHEAR WALL PLANS. 6. MAXIMUM SHEAR = 685 P.L.F. USE 1/211 CDX PLYWOOD SHEATHING' - ONE SIDE OF WALL. NAIL ALL EDGES .WITH lOD NAILS AT 2-1/2" O.C. STAGGERED. FOR FRAMING AT. VERTICAL EDGES, USE 3" NOMINAL OR WIDER DF#2. DOUBLE, ,BOTTOM P~TES ARE REQUIRED - BOLT THROUGH BOTH PLATES. PROVIDE: ':5 i..a ~~, . _" ,. DIAMETER ANCHOR BOLTS' 'AT 20 rr O. C. MAX. SPACING--: i~,.A'I":.::~HE;~:~ :'.~!c," FOUNDATION. FOR TIE DOWNS AT EACH END OF THE .W.A$:E",~~':.S:E:a; 7... ..' FRAMING/SHEAR WALL PLANS. - ^ ,,,,,:, . 7. MAXIMUM SHEAR = 770 P.L.F. USE 1/2" COX PLYWOOD SHEATHING ;,.' ONE SIDE OF WALL. NAIL ALL EDGES WITH 10D NAILS AT 2" O.C. STAGGERED. FOR FRAMING AT VERTICAL EDGES, USE 3" NOMINAL OR WIDER DF#2. DOUBLE BOTroM PLATES ARE REQUIRED - BOLT THROUGH BOTH PLATES. PROVIDE 5/811 DIAMETER ANCHOR BOLTS AT 18" O.C. MAX. SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING/SHEAR WALL PLANS.- 8. MAXIMUM SHEAR = 870 P.L.F. USE 1/2" COX PLYWOOD SHEATHING - BOTH SIDES OF WALL. NAIL ALL EDGES WITH 80 NAILS AT 3-1/211 O.C. FOR FRAMING, USE DF#2. DOUBLE PLATES ARE REQUIRED - BOLT THROUGH BOTH PLATES.' PROVIDE 3/411 DIAMETER ANCHOR BOLTS AT 20" O.C. MAX. SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING/SHEAR WALL 'PLANS. 9. MAXIMUM SHEAR = 980 P.L.F. USE 1/211 CDX PLYWOOD SHEATHING - BOTH SIDES OF WALL. N~IL ALL EDGES WITH .8D NAILS AT 311 O.G. FOR FRAMING, USE DF#2. DOUBLE PLATES ARE REQUIRED - BOLT THROUGH BOTH' PLATES. PROVIDE 3/ 41f ________,______-DIAMETER-.ANCHOR. BOLTS___ AT____~8E.___D......C.._HAX..___SPAc.mG._._)\,~.__..~E._ . ,. ... .. - FOUNDATION. FOR TIE DOWNS AT EACH END 'OF THE WALL, SEE . FRAMING/SHEAR WALL PLANS. 10. MAXrMUM SHEAR = 1,200 P.L.F. USE 1/2" CDX PLYWOOD SHEATHING - ~OTH SIDES OF WALL. NAIL ALL EDGES WITH 10D NAILS AT 3 II o. C. STAGGERED. FOR FRAMING AT VERTlCA:L:';EDGES i .' USE '3'11 :NOMINn "oR:':'wfDER:~DF#2 . DOUBLE: BOTTOM PLATES. ARE REQUIRED - BOLT THROUGH BOTH PLATES. PROVIDE 3/411 DIAMETER ANCHOR BOLTS AT 14" o. C. MAX. SPACING AT THE FOUNDATION. FOR TIEDOWNS AT EACH END OF THE WALL I SEE ,FRAMING/SHEAR WALL PLANS. 11. ~IMUM SHEAR ~ 1,540 P.L.F. USE 1/2" CDX PLYWOOD SHEATHING - BOTH SIDES OF WALL.. NAIL ALL EDGES WITH 10D NAILS AT 2" o. C. STAGGERED. FOR FRAMING AT VERTICAL EDGES, USE 311 NOMINAL OR WIDER DF#2. DOUBLE BOTTOM PLATES ARE REQUIRED - BOLT THROUGH BOTH PLATES: PROVIDE 3/4" DIAMETER ANCHOR BOLTS AT 11~1 O.C. MAX. SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL I SEE FRAMING/SHEAR WALL PLANS. 12. MAXIMUM SHEAR = 1,740 P.L.F. USE 5/8" CDX,.PLmvOOD ,sHEATHING - BOTH SIDES OF WALL. NAIL ALL ,.'"";1;,, ,',,, EDGES WITH 1,OD. :NAILS.. AT" 2" o. C. STAGGERED. FOR FRAWING AT . ":; 'j ." " VERTICAL EDGE,S::~:~:USlf-3ff' NOMINAL OR WIDER DF#2. DOUBLE BO,!,TO~. ~ _' c,,,, ~ ~':::~~ PLATES ARE REQUIRED ~ . BOLT THROUGH BOTH PLM'ES. PROVIDE 3/411. ': F,Y:"" DIAMETER ANCHOR BOLTS AT 9" o. C. MAX. SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE ~WALL, SEE FRAMING/SHEAR WALL PLANS. ti LtNDBEU,~~ ARCH~CTS 319 s. peabody, suite b, port angeles, wa 98362 360.452.6116 / fax 360.452.7064 P . ct O::::::::'....,Y'I/l.!..r'l-::>~ h~, r--wa Y"!.:::' rOle: -'-'" , i l;:i i- - ;:;"'0 71 J..oo'V'~ ,Subject: L,.P- -r:::s~i.,. c....A~..~'.s Date: (Y)AV) 20elO I Project No. aaoa Ct? By: ~O~ Sheet of LA-r-~l- AN A\.. vjS i '5 /A) 1 tV J:; J-..oA D ~ --------"--_..~ " J:t:.<~tA~ ~ I !NIND SPS"&'D .2>0 IY)FI-J I-JD~IZON~A!.- ~..J~Tt:r'a A~: ~-J5 F""t. -:.( }.~c,)(1.5J('2.Q.ei) - :z.o -s ()'/?)(),~j>20.~) ~ 2G "" (I. / 11 ) ( I ' ~ )( "Zo . f!I) - 2$.w p<$F' !!::O. Sb 3z . 1-0 /tv I tv'v;) ~? L I i=j : f::;Ap..-r"ii L-L ~ 1S7J'::"L.o~i:fa S!P-1Ac..-"I'r.;f}Zt!! ~ ~ "" 2.-;' ( J, jCJ)(2:~)(2o - '2; '; ~ .5b ,~~ p;P'. vlJ1tVO ~S" 5J..4~f3-: ! -z.-& '&>~)( ~+Ip, '51::;') .... " '\ 130, 5l!P ""\/ ! :t.n, S' ) I" ,/ '- ($-:2..)~)( 10(;') ... z. J,. 'Z. 5'1, I I I ) Lo -J'3 D. CJt:.J I :::. -:. ..,::?-, a ~ /'I ;:::;,-;) iD'I"" ~~-'''--------- 3=3 3C.~. 0 J Lf$S. ) ~ c. L1NDBEl).!'~ ARCH~CTS 319 s. peabody, suite b, port angeles, wa 98362 360.452.6116/ fax 360.452.7064 Project: S ~r}') -='}i- ]2.crs; Dtn\J~~ Subject: t,."p. T2:1~:... c,A 1.-,"'" 1,'$ Date: IYJ, At/I 'Uo.... I ."., Project No. OOOOb By: CA~ Sheet "2. of " 'T ~ ~.~, . "'.-' G::.. ~gc: l:y'1 ' /". ""_ ,;;:;;::>f " _ /;OAO.:Q :5 r Ai ! ~ t:=O ~v l:::T ptz06 ~ LA. f2..g Se-'~jl'l[ "" '2OJ\.JS" a OI6"AO f-O~.;, f2.cOf-rl 3'5 I _1 5<;' / ~ , ~.,... J ~ , I' ~,..~ ,....j:?'\.-"'!1~...... t~~"~T"""'d JD 1'2 f:3>lT:,:;f';z.I,o/2... W A u...~ J /\.), il::tjZ- J (;> ,t:l- t'-J 4 i- L" ~ JO Stf';~)Y1 ! t:.. .&.A'5S' 5/~t::r;t:.F- ! .....- \ " ""'if"" '", (,;::;~~ ) ( ~ .~./ ) "" '0 ",' / "\ /' ) <- JD.) L )~5+'1 / ;.-, "\ / ...,. 04-8 '\ , ! _:-J; .il, ." ',-,' - ~ ~ - ) ~/ (Ii) ) ( z; z,.q zJ "" '... e;.J:. 71.~..5 . I j 15/ 54-0 2+/57.6 22. qz.o ) -:::: ~uJ:t"""--'-'-'''-'''''' I 45) 77 } I 00' j""'!P #\\;' ~...\ l..;>'V)i O.~,) -"-_...,---::-.=...:.-......( ( J f.-e) -Y-j. J ) :::?)O ~ 28) 0,2,'4./ Z. ~? I \ I W'F~ ~/..,\,1""'1,,<1 {l.;~ "-...A-'r r..r....",Fip ~ r. r' L!NDBERIt~MrrH ARC H I~ C T S 319 s. peabody, suite b, port angeles, wa 98362 360.452.6116/ fax 360.452.7064 ~ _._ ~~\''-'-'^ n".- --- Project: ~1'~ lGQ-' ;:-"~'~~ Subiect: ~-:r~.!:l. "" CAL- '"' '~ Date: rnMvl "1,,0!) Project No. OCCc.'d By: ~.p7 Sheet 3 of : '1,' I .::s .~t5Atz- W!l L.l... .:C,t ;/.,..,'" ."" ,4';;;;" f4 ~.......yqlji.l;t _ ~ IN A :...l t... ,P v ! v) ! , I , . /1- , ~ '51/1) , wt,. ) 1\1i'i _ /'" v;... , .- ~ l 1-f:Jf, 0 '?t?W It) lA p~- Ft.,.L:)ol2~ :.::;, ~ ..... ~ '-' I ~) <if-. 1.0 ! I'~ o#'~"'" ",'/ ~; ,,1M" '::J ':;;> '.?f)";;1 : I I ' ..,... J /"j'! .'"'''' 1 fc;r -r 14t ;IIfJ' ~ ~ ... r:;; ~ b~ L.q~ I 'J : 7,t)f>?;. 1'6: 3 '/2. I ! 1 ! f!} "f; 1:.' '7 g; ,.::;: ~ :t?..... -:::;J -"" ~-')~ J_"'" I ~ .'?, !P I I I I , ~::.}:23 l~~: - - I i ) ?~\ ilS': ~o~\~~ t$J :2 S '( ...., '- , i 21 $:", )4 I ~\1 jY) 1'7 G 4-0 j' dJ ~....,.--....., 1 I "3 1'J- j 1;...4 ' ~ '12.72. 3 , ?.~~ /, 7ttJ ":? II ::;;:. t,r)-?J~ ~ G ...... ~~:2 ~..~LG 404. (/)~ 4 3510.01 ~I} 1'/1 ~rc.. 52 ..., ,J : 2::',?~ S - \0". ~;f; ~ ~ ~ ';;JO .~ .. , , , i P {,.;G:lIJ?:~ ~~J.)~ A - 10 B/7, lib ~~.4~ & ?' S )~'t ft) ~~-'h; I , ::;?+. ~+; I /t;;1,OD' :3 ,. ).J D2.A ~ ~ ,~~: $ z~) t?eo. }(;; , I /- ~ .5 +-+ L G ' 414-4, IkJ I s,iJ", II "'::'OGA .- ill z,z, \ ;! ;.J,- "'\ ~ +o4'1,~; ,0 ' J j -';' -,> j oj"'" , A- ~l' /.Jp CtPA . -~" -::;,:;) ;;;", D' J I ." , ,g ;'lEE> -- I ''; fl!!'" I ""'~1'- J ~;: ~0?:./, ' O'! (!? ';?(..il';:;" .' '" ~~~;:;J~ :31, ',"Z I iSJ ... r I ~ I ' , I i :;l '~~'l,'_ -? ~ ..., -'J "'1 I ~I ,';;;;> ?/ 2.. -=315/. ~l 31\ I~:::::; Sill ",,, >-&7, ~ll,,*,"V :;>!:;;J f. , ~ .., #-, r'~/ ~6,,'i.../ ..-. 3rJ4, 1~ , , "::? 1"'- ;., I '7 : g0 ~l~L ~1 gl' .;;) r:.~ ...... I" ::?I:.:J .:- ,-. ,,?- ~:;I~ " Il l...." , "'~;:t' "".. . , ~ \ J:'" ~ 1....' {5 fJ-zp .#l:tt'" : ;tr?.;I-, ~;"$!, I.JO I-. "t.l" .' "..... r " I'. 'j~" ~, I J. J..4' "'6 io:::::> , I ;" r" ...-~ ~, .f ",.,.iJ: "7~'-'"'I /; .;; :~ ........, "if!; 8 1 'f"A':; ~;:; ,~- :;';1 ,::')1 J itP'"..-r "0' itl :? 'i'1I"1"" ''''''A 5,-'~' ;;;r I ilPe.-"" , , ~tIli,,~lu.I ;-; !.#'".., "'" ", ~ '" , , :~}); .r1 t-~ pJ'lJ-"14V"" ,...,,.,, ~.; 1 j , ~t""". .-;> C ' ..?;" "",,"., '" l~;e, .::;.. "''-:''AO ~J'...... -; \ ~ ./.4 D:2 A 7~"'" {J j~/ J ~- '.t..". -- CITY OF PORT ANGELES PUBLIC WORKS - ELECTRICAL DIVISION 321 EAST 5Tlt STREET, PORT ANGELES. WA 98362 ELECTRICAL PERMIT ISSUED: 9/05/2002 PERMIT NO 7809 OWNER/APPLICANT i PROPERTY LOCATION MIKE SOMERS 503 3RD ST W 254895 HIGHWAY 101 Lot: 18,19 Port Angeles, WA 98362 Block: 49 I Long Legal 360/452-2268 Subdivision: TPA T: S: Parcel No: 063000004970000 CONTRACTOR ARCHITECT ELECTRIC SERVICE N/A 924 DRAPER RD. PORT ANGELES, WA 98362 , 98360-0000 360/452-6424 360/000-0000 PROJECT INFO Project Type: RES. MISC. Project Value: $0.00 Occupancy Type: Construction Type: SERVICE TEMP. ~'~ Occupancy Group: Zoning Use: RS7 ~ Electrical Heat: Baseboard 0 KW i Riser ,i Underground Service · Furnace 0 KW ~ Overhead Service Voltage: 0 ~ I Heat Pump 0 KW ~i TempService Phase: · 1 · 3 I Fan Wall 0 KW Service Size: 0 Feeder Size: 0 PROJECT NOTES TEMP SERVICE ~ RECEIPT # 9594 FEES ASSESSMENT Service: $0.00 Additional Feeders: $0.00 Circuit Wiring: $0.00 Temp Service: $46.70 Misc Fee: $0.00 TOTAL FEE: $46.70 AMOUNT PAID: $46.70 BALANCE DUE $0.00 COMMtUxq'S/ACT1ON NEEDED ELECTRICAL PERMIT INSPECTION RECORD CALL 417-4735 FOR ELECTRICAL I~SPECTIONS. PLF~SE PROVIDE A MINIMUM 24 HOUR NOTICE. ITIS UNLAWFUL TO COVER, INSULATE OR CONCEAL ANY WORK BEFORE IT IS INSPECTED AND ACCEPTED. DITCH ROUGH-IN / COVER SERVICE GENERAL COMMENTS: PW-1102.15 ~4D6] CITY OF PORT ANGELES PUBLIC WORKS - ELECTRICAL DIVISION 321 EAST STH STREET. PORT ANGELES. WA 98362 ELECTRICAL PERMIT ISSUED: 8/30/2002 PERMIT NO 7802 OWNER/APPLICANT PROPERTY LOCATION MIKE SOMERS 503 3RD ST W 254895 HIGHWAY 101 Lot: 18,19 Port Angeles, WA 98362 Block: 49 Long Legal 360/452-2268 Subdivision: TPA T: S: Parcel No: 063000004970000 CONTRACTOR ARCHITECT OWNER N/A VARIOUS Port Angeles, WA 99360 , 98360-0000 206/000-0000 360/000-0000 PROJECT INFO Project Type: RES. MISC. Project Value: $0.00 Occupancy Type: Construction Type: SERVICE TEMP. Occupancy Group: Zoning Use: RS7 Electrical Heat: ~' ~ Baseboard 0 KW Riser i Underground Service ! Furnace 0 KW , Overhead Service Voltage: 0 : Heat Pump 0 KW ~ Temp Service Phase: ~! 1 i Fan Wall 0 KW Service Size: 0 Feeder Size: 0 PROJECT NOTES TEMP. SERVICE RECEIPT#9609 FEES ASsEsSMENT Service: $0.00 Additional Feeders: $0.00 Circuit Wiring: $0.00 Temp Service: $40.90 Misc Fee: $0.00 TOTAL FEE: $40.90 AMOUNT PAID: $40.90 BALANCI:'DuE $0.00 COMMENTS/ACTION NEEDED ELECTRICAL PERMIT INSPECTION RECORD CALL 417..4735 FOR ELECTRICAL IlqSPECTIONS. PLEASE PROVIDE A MINIMUM 24 HOUR NOTICE. ITIS UN. LA WFUL TO CCLV'ER, INSULATE OR CONCEAL ANY WORK BEFORE IT IS INSPECTED AND ACCEPTED. KEEP PERMIT CARD AND APPROVED PLANS AT JOB SITE 7,~ ~ DITCH ROUGH-IN / COVER SERVICE FINAL ~5~/~ ~.//c~ I ] 7~'.,~,,,% _(~t~¢s-~_ , z ,d~°-(7 GENERAL COMMENTS: .... CITY OF PORT ANGELES ~%~,~ DEPARTMENT OF COMMUNITY DEVELOPMENT - BUILDING DIVISION 321 EAST 5th STREET, PORt ANGELES, WA 98362 BUILDING PERMIT ISSUED: 8/16/2002 PERMIT NO: 12285 OWNER/APPLICANT PROPERTY LOCATION 503 3RD ST W MIKE SOMERS 254895 HIGHWAY 101 Lot: 18,19 Port Angeles, WA 98362 Block: 49 [] Long Legal 360/452-2268 Subdivision: TPA T: S: Parcel No: CONTRACTOR ARCHITECT OWNER N/A VARIOUS Port Angeles, WA 99360 , 98360-0000 206/000-0000 360/000-0000 PROJECT INFO Project Value: $175,000.00 SFD Units: 0 Commercial: 0 Project Type: SFR NEW SFD SQ FT: 0 Industrial: 0 Occupancy Type: RESIDENTIAL Garage: 0 Occupancy Group: MFD Units: 0 Construction Type: MFD SQ FT: 0 Zoning Use: RS7 PROJECT NOTES CONSTRUCT 3328 SQ. FT. THREE STORY HOUSE AND 498 SQ. FT. GARAGE ALSO 381 SQ. Ft. Of WEATHER DECK t,AJ FEES ASSESSMENT Building Permit: $1,413.75 Misc Fee 1: $0.00 Plan Check: $565.50 Misc Fee 2: $0.00 State Surcharge: $4.50 Misc Fee 3: $0.00 House Moving: $0.00 Manufactured Home: $0.00 Sign: $0.00 TOTAL FEE: $2,212.80 Plumbing: $140.00 AMOUNT PAID: $2,212.80 Mechanical: $89.05 BALANCE DUE: $0.00 Radon: $0.00 Separate Permits are required for electrical work, SE PA, Shoreline, ESA, utilities, private and public improvements. This permit becomes null and void if work or construction authorized is not commenced within 180 days, if construction or work is suspended or abandoned for a period of 180 days after the work as commenced, or if required inspections have not been requested within 180 days from the last inspection. I hereby certify that I have read and examined this application and know the same to be true and correct. All provisions of laws and ordinances governing this type of work will be complied with whether specified herein or not. The granting of a permit does not presume to give authority to violate or cancel the provisions of any state or local law regulating co.~struction or the performance of construction. Signature of Contractor or Authorized Agent Date Signature of Owner (if owner is builder) Date T:\PLANNING\FORMS\1102.15 [4/2002] BUILDING PERMIT INSPECTION RECORD CALL 417-4815 FOR BUILDING INSPECTIONS. PLEASE PROVIDE A MINIMUM 24 HOUR NOTICE. 1TIS UNLAWFUL TO COVER, INSULATE OR CONCEAL ANY WORK BEFORE INSPECTED AND ACCEPTED. POST PERMIT IN A CONSPICUOUS LOCATION. KEEP PERMIT CARD AND APPROVED PLANS AT JOB SITE INSPECTION TYPE DATE ACCEPTED COMMENTS YES I NO FOUNDATION: FOOTINGS WALLS FOUNDATION DI~INAGE ELECTRICAL (LIGHT DEPT) SEPARATE PERMIT: # PLUMBING UNDER FLOOR / SLAB ROUGH-IN WATER LINE BACK FLOW / WATER AIR SEAL WALLS ,'- FRAMING JOISTS / GIRDERS SHEAR WALL WALLS, BooF, CEILINO DRYWALL T-BAR INSULATION SLAB WALL / FLOOR / CEILING -- MECHANICAL HEAT PUMP WOOD STOVE / PELLET / CHIMNEY HOOD / DUCTS FW UTIIblTIES / SITE WORK (Engineering Division) SEPARATE PERMIT #'s: WATERLINE / METER SEWER CONNECTION SANITARY STORM PLANNING BEPT. SEPARATE PERMIT #'s SEPA: PARKING/LIGHTING ESA: LANDSCAPING SHORELINE: FINAL INSPECTIONS REQUIRED PRIOR TO OCCUPANCY/USE RESIDENTIAL DATE YES NO COMMERCIAL DATE ACCEPTED YES NO ELECTRiCAL - LIGHT DEPT, 417-4735 ELECTRICAL ~ VORr~,%, FOR OFFIC,~I~IL USE ONLY: a'° ?~ Date Rec.: °*~% BUILDING PERMIT - APPLICATION Pc~it~: Date Approved: Date ~sued: The Building Pe~it ~pplication mu~ be~lled out compl~ely. Please ~e or print in ink. If you have any questions, please call 417-4815 Applic~t or Agent: ~ Phone: ~ ~ - 22~ Owner: ~]~?~D~ ~ Phone: Ad.ess: /~/~ ~. ~ City: ~D~'F ~L~ Zip: ~chitecffEngineer: ~ e2~/'~[ ~ Phone: Con,actor ~~, License ~:_ Exp:. Phone: Address: ~O ~ ~ ~ F~ City: (~ ~ ~ .~?~ /~ ~ Zip: ~ PRO. CT ~D~SS: ~G: LEG~ DESC~PTION: Lot: [B W I ~ mock: ~ ~ Subdivision: ~ ~ ¢<w CL~L~ CO~TY P~CEL NUMBER: Credit Card Holder Name: Billing Address: Ci~:, Credit Card ~: Exp. Date: ~SA T~E OF WO~: S~UATION: ~id~nti~] ~w Cons~. ~ ~-,oor ~ Wood-~to~, ~2~ SF. ~, /sF. =~ ~O, D M~ti-f~ly ~ Ad~fion ~ Move m G~age SF. ~ $ /SF. = $ D Comercial D Remodel D Demolition D Deck SF. ~ $ /SF. = ~ D Repair ~ Si~ D TOTAL VALUATION $ BmEFDESCmPTIONOFTHEPROJECT: fl~ q/M~'L~ ~]Ly COMMERCIAL/RESIDENTIAL: Occupancy Group:. Occupant Load: __ Conshuction Type:. No. of Stories: ~Z Lot Size:I~ X IqO% Lot Coverage: /0 % Existing Lot Coverage: ~) /sq. ft. + Proposed Lot Coverage: J '3 6'0 /sq. ft. = TOTAL LOT COVERAGE: ! ~/c~ /sq. ft. PLANNING USE ONLY: APPROVALS: PLAN Notes: BLDG. DPW FIRE ESA/Wetland(s): [] Yes [] No SEPA Checklist required? [] Yes [] No Other: OTHER BUILDING PERMIT APPLICATION SUBMITTAL: Your application and site plan must be filled out completely to be accepted for review. The Building Division can provide you with more detailed information on the application and plan submittal requirements. Your completed application, site plan (for additions) and building construction plans are to be submitted to the Building Division. VALUATION OF CONSTRUCTION: In all cases, a valuation amount must he entered by the applicant. This figure will be reviewed and may be revised by the Building Division to comply with current fee schedules. Contact the Permit Coordinator at 417-4815 for assistance. PLAN CHECK FEE: Your plan check fee is due at the time the building permit application and construction plans are submitted. All other permit fees are due at the time of permit issuance. EXPIRATION OF PLAN REVIEW: If no permit is issued within 180 days of the date of application, this application will expire. The Building Official can extend the time for action by the applicant up to 180 days upon written request by the applicant (see Section 107.4 of the Uniform Building Code, current edition). No application can be extended more than once. I hereby certify that I have read and examined this application and know the same to be true and correct, and I am authorized to apply for this permit. 1 understand it is not the City's legal responsibility to determine what permits are required; it remains the applicant's responsibility to determine what permits are required and to obtain such. Applicant:. ,.,/~ ~' ~d,~' Date: ~)//~f~ 2-. T:WORMS~APPS~Buildingpermit CITY OF PORT ANGELES DEPARTMENT OF PUBLIC WORKS ........... INSPECTION REPORT ........... REQUEST: Date /2 -/3- ~)~-~ Time Received by /~// (phone, person) Location of Work to be inspected ~ /-~ ~ y- Name of person requesting inspection Address of person requesting inspection Phone No. '/~/~/'- Type of Inspection (circle appropriate one): Permit No. /~. Sewer Foundation ~ Chimney ~.j.~mu._~u Final Sewer Excav. Other INSPECTION NOTES: Inspected: Date / ~- ' '~ ~ ~ Time By · Remarks:. RESTORATION REQUIRED ...... YES NO SURFACE RESTORATION: SURFACE TYPE: [] Unimproved [~]Gravel I~Asphalt []PCC []Other [] Repaired by City Work Order # [] Repaired by Permittee [] COMPLETE []No Damage Found [] INCOMPLETE (Continue on reverse side if necessary) STREET SUPERINTENDENT (DATE) CITY OF PORT ANGELES DEPARTMENT OF PUBLIC WORKS ........... INSPECTION REPORT ........... REQUEST: Date /*~'?;-.,~'~**'~ Time //~/~'*~ ~,~ Received by~~¢z--~ (phone, person) Location of Work to be inspected ~-~-~"~ ~ ~] ~' ~ Name of person requesting inspection ~ // .~ ?~. ~ . , .~ ~_')m~ ~ ~'~> ~ ~ Address of person requesting inspection Phone No. ~/- Type of Inspection (circle appropriate one): Permit No. Sewer Foundation Framing Chimney Plumbing ?F~ewer Excav. Other INSPECTION NOTES: /~ 'C/~ ~ ' ~ ' ~'~ Inspected: Date -~/~,Z~---~' Time. By Remarks: RESTORATION REQUIRED ...... YES. NO SURFACE RESTORATION: SURFACE TYPE: [] Unimproved []Gravel []Asphalt []PCC []Other [] Repaired by City Work Order # [] Repaired by Permittee [] COMPLETE [] No Damage Found [] INCOMPLETE (Continue on reverse side if necessary) STREET SUPERINTENDENT (DATE) CITY OF PORT ANGELES DEPARTMENT OF PUBLIC WORKS ........... INSPECTION REPORT ........... REQUEST: Date _~ /J.-/~-~ ~ Time /// ." ~O ~'J~//Received by ~,~-*-~ ~{pho~, person) Location of Work to be inspected ~_~---{~_p ~ ~ -'~ Name of person requesting inspection ~/Y~ ~ ~ ~ ~,'~ ~ -~ ~ ~, Address of person requesting inspection Phone No. ,~//o/-~/-~ Type of Inspection (circle appropriate one): Permit No. Sewer Foundation Framing Chimney Plumbin war Excav. Other INSPECTION NOTES: Inspected: Date /7/ '-/~--~-~'~ Time By Remarks: RESTORATION REQUIRED ...... YES_ NO SURFACE RESTORATION: SURFAC£TYPE: [] Unimproved [~Gravel []Asphalt I--IPCC I-']Other [] Repaired by City Work Order # [] Repaired by Permittee L-~ COMPLETE ~1 No Damage Found [] INCOMPLETE (Continue on reverse side if necessary) STREET SUPERINTENDENT (DATE) CITY OF PORT ANGELES DEPARTMENT OF PUBLIC WORKS ........... INSPECTION REPORT ........... REQUEST: Date ~1 -- Q~f- cT '.~ Time ~'~'- /~')~) Received by ~__<~,~' (phone, person) Location of Work to be inspected ~-'~ *~ ~t~ '~ r- d Name of person requesting inspection --~J ~1 ~ $~ ('~-(~ ~/ -~ ~L Address of person requesting inspection Phone No..~/~/ Type of Inspection (circle appropriate one): Permit No. Sewer Foundation Framing Chimney Plumbing Final SewerExcav.~//'Oth~r~/~]~c)? INSPECTION NOTES: ~ Inspected: Date / '- ~- (~ ~ Time By Remarks: RESTORATION REQUIRED ...... YES. NO SURFACE RESTORATION: SURFACE TYPE: [] Unimproved []Gravel []Asphalt []PCC []Other [] Repaired by City Work Order # ~-I Repaired by Permittee ~ COMPLETE [] No Damage Found [] INCOMPLETE (Continue on reverse side if necessary) STREET SUPERINTENDENT {DATE) CITY OF PORT ANGELES DEPARTMENT OF PUBLIC WORKS ........... INSPECTION REPORT ........... REQUEST: Date ~ ~-~- 6 ~_- Time Received by ~> ~/~ (phone, person) Location of Work to be inspected ~(~--'~ Name of person requesting inspection Address of person requesting inspection Phone No. Permit No. Type o~ircle appropriate one): Sewer~ Foundatior~--'Fr~aming Chimney Plumbing Final Sewer Excav. Other INSPECTION-NOTES: inspected: Date Time By Remarks: RESTORATION REQUIRED ...... YES NO SURFACE RESTORATION: SURFACE TYPE: [] Unimproved ~--JGravel [~Asphalt I--IPCC []Other [] Repaired by City Work Order # [] Repaired by Permittee L-~ COMPLETE []No Damage Found [] INCOMPLETE (Continue on reverse side if necessary) STREET SUPERINTENDENT (DATE) CITY OF PORT ANGELES DEPARTMENT OF PUBLIC WORKS ........... INSPECTION REPORT ........... REQUEST: Date~ ~/'~'- (~'~'~ Time Received by [~/ (phone, person) Location of Work to be inspected Name of person requesting inspection Address of person requesting inspection Phone No. Permit No. Type o~rcle appropriate one): Sewe~ F. ou~Framing Chimney Plumbing Final Sewer Excav. Other INSPECTION NO~ES: , Inspected: Date ~ ~ , Time By Remarks: RESTORATION REQUIRED ...... YES NO SURFACE RESTORATION: SURFACE TYPE: [] Unimproved [~Gravel I-~Asphalt []PCC ~]Other [] Repaired by City Work Order # ~--1 Repaired by Permittee [] COMPLETE []No Damage Found [] iNCOMPLETE (Continue on reverse side if necessary) STREET SUPERINTENDENT (DATE) LOT I~ LOT 15 UJEST T~}{VD STREET A. PLYWOOD OR O.S.B. SHEAR WALLS . 1. MAXIMUM SHEAR = 250 P.L.F, USE %" SHEAT1NG - ONE SIDE OF WALL. NAIL ALL EDGES WITH 8d NAILS AT 6" O.C. FOR'FRAMING, USE DF NO.2. PROVIDE %" DIAMETER ANCHOR BOLTS AT 32" O.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMiNG~SHEAR WALL PLANS. 2. MAXIMUM SHEAR = 315 P.L.F, USE %" SHEATING - ONE SIDE OF WALL. NAIL ALL EDGES WITH 8d NAILS AT 5" O.C. FOR FRAMING. USE DF NO.2. PROVIDE %" DIAMETER ANCHOR BOLTS AT 32" O.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING/SHEAR WALL PLANS. 3. MAXIMUM SHEAR = 375 P.L.F. USE %" SHEATING - ONE SIDE OF WALL. NAIL ALL EDGES WITH 8d NAILS AT 4" O.C. FOR FRAMING, USE 3X DF NO.2. PROVIDE %" DIAMETER ANCHOR BOLTS AT 24" O.C. MAXIMUM SPACING AT THE FOUNDATION· FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING/SHEAR WALL PLANS. 4. MAXIMUM SHEAR = 490 P.L.F, USE %" SHEATING - ONE SIDE OF WALL. NAIL ALL EDGES WITH 8d NAILS AT 3" O.C. FOR FRAMING, USE 3X DF NO.2. DOUBLE SO'FrOM PLATESARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 5/8" DIAMETER ANCHOR BOLTS AT 32" O.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT'EACH END OF THE WALL, SEE FRAMING/SHEAR WALL PLANS. 5. MAXIMUM SHEAR = 560 P.LF. -~ USE ~" SHEATING - ONE SIDE OF WALL. NAIL ALL EDGES WITH 10d NAILS AT 3" O.C. FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM PLATES ARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 5/8" DIAMETER ANCHOR BOLTS AT 24' O;C. MAXIMUM SPACING AT THE FOUNDA¥iuN. FO~ , ~ bOYvmS Al EACH t:ND uF ~ HE WALL, Sl~t: FRAMING/SHEAR WALL PLANS. 6. MAXIMUM SHEAR = 685 P.L.F. USE ½" SHEATING - ONE SIDE OF WALL. NAIL ALL EDGES WITH 10d NAILS AT 2 1/2' O.C. STAGGERED. FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM PLATES ARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 5/8" DIAMETER ANCHOR BOLTS AT 20" O.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING/SHEAR WALL PLANS. 7. MAXIMUM SHEAR = 770 P.L.F. USE W' SHEATING - ONE SIDE OF WALL. NAIL ALL EDGES WITH 10d NAILS AT 2" O.C. STAGGERED. FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM PLATES ARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 5/8" DIAMETER ANCHOR BOLTS AT 18" O.C, MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS' AT EACH END OF THE WALL, SEE FRAMING/SHEAR WALL PLANS. 8. MAXIMUM SHEAR = 870 P.L.F. USE ~" SHEATING - BOTH SIDE OF WALL. NAIL ALL EDGES WITH 8d NAILS AT 3 1/2' C.C. FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM pLATES ARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 3/4' DIAMETER ANCHOR BOLTS AT 20" C.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING/SHEAR WALL PLANS. 9. MAXIMUM SHEAR = 980 P.L.F. USE %" SHEATING - BOTH SIDE OF WALL. NAIL ALL EDGES WITH 8d NAILS AT 3" C.C. FOR FRAMING, USE 3X DF NO.2. DOUBLE BO~-~OM PLATES ARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 314" DIAMETER ANCHOR BOLTS AT 18" C.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING/SHEAR WALL PLANS. 10. MAXIMUM SHEAR = 1,200 P.L.F. USE %' SHEATING - BOTH SIDE OF WALL. NAIL ALL EDGES WITH 10d NAILS AT 3" C.C. STAGGERED. FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM PLATES ARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 3/4' DIAMETER ANCHOR BOLTS AT 14' C.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING/SHEAR WALL PLANS. 1I. MAXIMUM SHEAR = 1,540 P.L.F. USE ~" SHEATING - BOTH SIDE OF WALL. NAIL ALL EDGES WITH 10d NAILS AT 2" C.C. STAGGERED. FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM PLATES ARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 3/4" DIAMETER ANCHOR BOLTS AT 11" C.C. MAXIMUM SPACING ATTHE FOUNDATION. FOR TIE DOWNS AT EACH END OF THE WALL, SEE FRAMING/SHEAR WALL PLANS. 'i2. MAXIMUM SHEAR = 1,740 P.L.F. USE 5/8" SHEATING - BOTH SIDE OF WALL. NAIL ALL EDGES WITH 10d NAILS AT 2" C.C. STAGGERED. FOR FRAMING, USE 3X DF NO.2. DOUBLE BOTTOM PLATES ARE REQUIRED, BOLT THROUGH BOTH PLATES WITH ANCHOR BOLTS. PROVIDE 3/4" DIAMETER ANCHOR BOLTS AT 9" C.C. MAXIMUM SPACING AT THE FOUNDATION. FOR TIE DOWNS ATEACH END OF THE WALL, SEE FRAMING/SHEAR WALL PLANS. pORTANGEI. ES WASHINGTON, U.S.A. DEPARTMENT OF COMMUNITY DEVELOPMENT May 28, 2002 Mr. Mike Somers 422 East Front Street port Angeles, WA 98M~. RE: 503 West Third Street ~ ~D-e~ Mike: After review of the letter from Zenovic and Associates dated May 22, 2002, and received by this _if) Department on May 24, 2002, the proposed setback from the 105' elevation contour of 22' is approved. The revised setback appears to be consistent with the requirements of the City's '~"J Environmentally Sensitive Areas Ordinance (Section 15.20 PAMC) which requires that a geologic engineer certify the proposed setback as appropriate for the site. % If you have any questions, or ifI can provide further assistance, please don't hesitate to contact ~O0 me at 417-4751. '1 Sincerely, '~ Brad Collins Director 321 EAST FIPTH STREET ® PO BOX 1150 ® PORT ANGELES, WA 98362-3206 PHONE: 360-417-4750 ® FAX: 360-417-4711 * TTY: 360-417-4645 E-MAIL: pIANNING~CI.PORT-ANGEI_ES.WA.US OR PeRMITS~CI.POF~T-ANGELES.WA.US A S S 0 C I A T E S 519 South Peabody Street, Suite 22 .................... on 98362 F; 3( 417 0514 ~II~Y 2 4. ~l: zer ~ ,mpus.net May 22, 2002 Ctl~ OF PORT ANGELES Mr. Brad Collins, Director COMMUNITY DEVELOPMENT City of Port Angeles Department of Community Development P.O. Box 1150 Port Angeles, WA 98362 Re: Proposed Single Family Residence for Mike and Debbie Somers Lots 18 & 19, Block 49, TPA (West Third Street) Dear Brad: Attached is a sketch showing the proposed footprint for the referenced project for your review. The Somars are intending to excavate for the foundation down to an elevation of 105.0 so that they may locate the house as shown. This office has surveyed the location of the top of the bank as well as the topography of the bank in the critical areas in front of the house. The placement of the house is based on those surveys and the requirements of the Environmentally Sensitive Areas Decision (Mamh 20, 2001) that states "A setback for the foundation of the proposed dwelling or garage shall be placed no less than the angle of repose as set forth in the approved Geotechnical Report". The Geotechnical Report prepared by Coastal Geological Services sets this point at 22 feet from the top of the bluff, assuming that the structure will have a nominal footing depth of 12 inches as required by the Uniform Building Code. By increasing the depth of the footing to approximately 4.5 feet below grade, the distance from the angle of repose line to the top of the bluff is reduced by the slope angle times the depth. The conservative angle of repose for this location, as recommended the Coastal report, is 34 degrees (65%). As such, the location of the angle of repose line at a depth of 4.5 feet below surface (3.5 feet below conventional foundation depth) is approximately 5.2 feet closer to the top of the.bluff. That line is indicated on the sketch. I have also shown the 22-foot setback line from the 105.0 elevation contour on the sketch; this line is reasonably consistent with the adjusted angle of repose setback line. Given these facts, I believe that the proposed location of the residence is in conformance with the requirements of the Environmentally Sensitive Areas Decision. Please give me a call if you have any questions. Sincerely, Zenovic & Associates, Inc. S t~e'p.~ ~n//~. ,Z ~cco~ic ,' p. E. Principal Engineer Enclosures Fc: JN 99106 ENVIRONMENTALLY SENSITIVE AREA REASONABLE USE DEVELOPMENT EXCEPTION WAIVER OF LIABILITY AGREEMENT Name: Mike Somers Date: August 16. 2002 Address: 503 West Third Street Phone: In consideration of approval of the following described work: a building permit to allow the construction of single family residence on a t~roperty that is in an environmentally sensitive area for the purpose of building and/or other site improvements in or near an environmentally sensitive area of geographical hazard area and in recognition that the property owner is aware of the geologic hazard associated with the building site as identified in the applicant's geotechnical r~ort, the undersigned property owner and his heirs and assigns, hereby agrees to defend, indemnify and hold the City of Port Angeles and its officials, employees and agents harmless against any claims and/or lawsuits for personal injury and/or property damage arising out of, or in any way connected with, the above described proposal except for injuries or damages caused by the sole negligence of the City. Dated this 16th day of August 20 02. (Signature) SUBSCRIBED and sworn to me this~'~ d~aay of L/~ cy//,-x~'~ 20~'.-~- P~LIC in ~ for the State of NOTARY ~Jtllllllt~llll/~. Washington, residing in--Po~ Angeles. S ~/~ ~ ~ ~X* ~ My Commission expires 'L~ c:Xwp~formsShoi~a~-~~' ~ . t ~ ~ pOR .fikNGELES WASHINGTON, U.S.A. FIRE DEPARTMENT November 1, 2000 Mr. Mike Somers 254895 Highway 101 Port Angeles, WA 98362 Dear Mr. Somers, This letter is a follow-up to the site visit conducted by myself at 503 West 3~d to determine poss~le fire sprinkler requirements due to inadequate fire department access for a proposed single family residence. Based upon the site visit, the Fire Department has determined a residential fire sprinkler system will not be required. Per our conversation, it is important to ensure access is provided around the residence, with adequate area(s) provided for ladder access to required egress windows on the second floor. I appreciate your assistance in working with the fire department, specifically, taking the time to 0ssist with the site visit. If you need any additional help or have any questions, you can contact me at 417-4651. Sincerely, Dan McKeen, Fire Chief Port Angeles Fire Department DM/ow pc: Lou Haehnlen, City Building Official 102 E/~ST fIFTH STREET · PORT ANGELES, WA 98362-3014 PHONE: 360-477-4655 · FAX: 360-417-4659 · E-MAIL: PAFIRE~CI.PORT-ANGeLES.WA.US ...... Pa~e ii From: Treina Funston To: Roger Vess Date: 4/29/03 4:20PM Subject: final 503 W 3rd ok to final permit 1338 for mike somers S "iiiiii.... ELECTRICAL PERMIT APPLICATION Faa OFFICIAL USE ONLY """"'~ PcrmilW; DateAppruvrd: om 1auaI: The Electrical Per'mit Application must be filled out comDlotIIlv. Property Owner: Address: Please type or reprint In ~If you have any questions, ploase call (360) 417-4735 7 ao .,. r (() Fax number: (360) 417-4711 {,/ G-- ( CI.\.ll.t ~ t(. ers- REQUESTlNSPECTION [ Phone: Lff;2 - 226 Y Fax: o..e\ Q. e fhktdc5 Phone: 5~(' Zip: Electrical Contractor. License #: Exp: Phone: Address: INSTALLATION WIRED BY: di<6'WNER City: o ELECTRICAL CONTRACTOR Zip: Credit Catrl Holder Name: t( 2.2 r. rmrf sr. Billing Address: City: Credit Catrl Number: Exp. Date: Zip: VISA: PROJECT ADDRESS: 503 Lu "3d Me TYPE OF WORK: Check ilII that apply: ft(iiiew 0 Alteration/Addition ~sidental 0 Multi-family 0 Commercial 0 Mobile,Home Sq. Ft Remote Meter 0 Detached garage ~ot Tub 0 Swim Pool 0 ~PtiC Pump 33()l) o Low Voltage 0 Telecom. 0 Number of Circuits added or altered: Tbn;? SU/Z-i/ I CL DESCRIPTION OF THE ELECTRICAL PROJECT: . . ") PERMIT FEEt 1'0 . <J 0 it ;?UtVfJT II c;'07 Service Infonnatlon Electrical Heat Load Additions o Baseboard ~nace !H'fieat Pump o Fan-Wall KW .l.S: KW _TON KW LRA o Overhead Service j;{T~p Service r?3r"'dnderground Service Voltage: Phase: 0 1 0 3 Service Size: Feeder Size: PAMC 14.05.060(B): For Industrial, commercial, & residential projects larger than a duplex, a one -line drawing of the Electrical Service Feeders, bul~ing size (sq. ft.), load calculations, and the type & of conductors andfor raceway Is required and shall accompany the ElecIt Permit application. I hereby certify that I have read and examined this application and know that same to be true and correct, and I authorized to apply for this permit. I understand it is not the City's legal responsibility to determine what permits required; il remains the applicants responsibility to determine what permits are required and to obtain such. Credit C,ard Holder's Signature: I , Owner or Elec. Cont. Signature:~~" Q. ~ C:/ELECTRlCALPERMIT APPLICATION tk c &L___. 8j3t>/~Z- Date: Date:~ The Electrical Permit Application must be filled out comDletelv. FOR OFFICIAL USE ONLY Oato'Rcc: Pennie": Date Approved Date Iuucd: ELECTRICAL PERMIT APPLICATION Please type or reprint In~lfyaU have any questions, please call (360) 417-4735 r (() Fax number: (360) 417-47t 1 Sl C\A.llt \ t(. EYS" REQUEST INSPECTION 0 OwnerarElec Contractor Agent: .~'~~~ Phone: L(~2-22{'Y Fax: PropertyOWllElr. ~ ~ W\\:cl.o..e\ R.. ~evS Phone: 5hw.( Address: ~3 ~ :1- City: Gwr-A-MtdcS Zip: 1F 7801 Electrical Contractor: License #: Exp: Phone: Address: INSTALLATION WIRED BY: dl6WNER City: o ELECTRICAL CONTRACTOR Zip: Credit Card Holder Name: B/lling Address: q n r. :frorrf Sf: Credit Card Number: City: Exp,Date: PROJECT ADDRESS: 563 Lv. '3d Zip: VISA: MC: TYPE OF WORK: Check all that apply: ft;rNew 0 Alteration/Addition ~sidental 0 Multi-family 0 Commercial 0 Mobile Home Sq. Ft Remote Meter 0 Detached garage ~ot Tub 0 Swim Pool 0 Septic Pump 3360 o low Voltage 0 Telecom. 0 S Number of Orcuils added or altered: DESCRIPTIONOFTHEELECTRICALPROJECT: -to W0)\..J('()'lJ S:z(!iV<C(.. "POOl. ft- . <;, lU60 ::PfrlJ. tL.<{ YJ.. ~,)<'/)Me. o Baseboard D-F.JHnace 01ieat Pump o Fan-Wall KW ~~N KW . .~~ PERMIT FEE: 87, 'It) ,.. fi~pr #- 9"ID Service Infonnatlon '? Electrical Heat load Additions lRA o Overhead Service o T~ Service [Jt(lnderground Service Voltage: .) 'It> Ii .z 0 Phase: .t&.1 / 0 3 Service Size: ~t'T'> Feeder Size: PAMC 14.05.()6()(B): For industrial, commercial, & residential projects larger than a duplex, a one - line drawing of the Electrical Service & Feeders, bui~ing size (sq. ft.), load calculations, and the type & of conductors and/or raceway is required and shall accompany the Electric Permit application. I hereby certify that I have read and examined this application and know that same to be true and correct, and I a authorized to apply for this permit. I understand it is not the City's legal responsibility to determine what permits c required; it remains the applicants responsibility to determine what permits are required and to obtain such. Credit Card Holder's Signature: I Owner or Elec. Cont. Signature:---$ ~ p. ~ C:/ElECTRICAlPERMIT APPLICATION Date: Date: g(')~/O 'l- tM. C Q4<^<____ 5/~O/PL FROM : Ele:ctric7S Qj FRX NO. : 4525424 Sep. 04 2002 07:48RM Pi ELECTRICAL PERMIT APPLICATION FQI\ UFFrC'^L lJSF: ONl Y DlLlo'f(~"I:: ...._. ~~~:=~~:.:~- .~~.~~- Z-~Tk<.. ~: Su~ 5D"3. l..J B.....& CII\': ~~~~C- ~.J.... UClln"#:~T~"32"exp: f3 2- l\~ V~ f...1.. -City. \.:t't-'l ~ INSTALLATION WIReD BY; 0 OWNER ~RICAL CONTRACTOR Credit Card HOlder Nllme: Owner or 1;'00. Co ec Aeont ProP"1t\' Owt.,r. \'-\ \ ~ The Electrical Permll Apphca~on ~ fHlRd out earnalet&I'(, Plo.salype Or roprlnl in Ink. If ~OU no," "ny qU".~Dn.. pl..... call (380) 4'7...173~ Fax nU",bor: (36Il}4n-4711 REQUEST INSPECTION [ 7801 I ...-i..-. Phon.: -f ')'1..-<" L'T' Fk: L.l ~":L-'-"4t..""'" l.j <;1--"Z. Z '-''I Addresa; Phone: Eloctrlca' Colltractor: Zip; Addr....: PIlon.: ">i!.~v.!' Zip: qf"?, ~ ~ CJ"" 'CJty~, Crudlt Card Numb.r: &p. D.,.: Billing Address: Zip: V1SA:~ PROJECT ADDRESS: 50.3 w .3 I^<::l Check WI that apply: G New o Alteration/Addition TYPE OF WORK: ORes/dental 0 MultI-family o Commercial 0 Mobile Home Sq. Ft Remote Meter 0 Detached garage 0 Hot Tub 0 Swim Pool 0 Septic Pump N"mber of Circuits added or altered: o Low Vollage 0 Telecom. 0 : DESCRIPTION OF THE ELECTRICAL PROJECT: -+<--OO~ o Baseboard o Furnace o Heat Pump o Fan.Wall t<m ~N -TON ='rCVV PERMIT FEEl-fJ; .10 ~/Jrp 'frS'Jr'" IlIIrvlce InfoMnatlDn Eleetrieal H~at load Additions LRA o Ovemead Servlce t:l Temp Service o Underg~und S.rvice Voltage: Pha.e: :J 1 0 3 Service Size: Feedet Size: PAMe 14.05.060(8): Fer industrial. commercial, & residential projects larger Ihan 8 duplax, a one -line drawing of the Electrical Service ~ Feeders. building size (sq. ft.), IDed calcula;;ons. and tile tYIlB & of conductors and/or raceway is requIred and shall aceompany the Electr;. Permi! application. I hereby certify that J have read and examined this application and know that same to be true and correct, and I a authorized to apply for this permit. J understand it is not the City's legal responsibility to determine what permits I required; It remains the applicants responsibility to determine what permits are requif9d and to obtain such. Credit Card Holder's Signature: ~.fLO Oat- ~_ Date: qh , ~( 1 Owner or Elec. Cont. Signature: C:IELECTRICALPERMlr APPLICATION Date: