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RS_1601_Critical Area Report_230316_v1.pdf
FINAL CRITICAL AREA ASSESSMENT UNIVERSITY OF WASHINGTON DEPARTMENT OF LABORATORY M EDICINE AND PATHOLOGY TESTING LAB P REPARED FOR: Integrity Energy Services 1505 NW Gilman Blvd, Unit #1 Issaquah, WA 98027 Contact: Adam Lyons, P.E., LEED AP BD+C 206.413.7693 and UW Facilities, Asset Management Ben Newton, Property Operations Manager, UW Real Estate 4002 E Stevens Way NE Seattle, WA 98195 206.221.0958 P REPARED BY: ICF 1200 6th Ave Suite 1800 Seattle, WA 98101 Contact: Ingrid Kimball 206.801.2832 March 2023 ICF. 2023. Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab. Final. March. (ICF 104635.0.001.01) Seattle, WA. Prepared for Integrity Energy Services, Issaquah, WA and UW Facilities, Seattle, WA. Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab i March 2023 Contents Page Chapter 1 Introduction ......................................................................................................................... 1 Regulatory Background .......................................................................................................................... 1 Project Description ................................................................................................................................. 1 Chapter 2 Methods .............................................................................................................................. 4 Study Area and Setting ........................................................................................................................... 4 Desktop Analysis ..................................................................................................................................... 4 Chapter 3 Results ................................................................................................................................. 6 U.S. Geological Survey Topographic Map .............................................................................................. 6 Geologic Hazards .................................................................................................................................... 6 Hydrology and Flood Hazards ................................................................................................................. 6 Wetland and Stream Inventories ........................................................................................................... 7 Fish and Wildlife Habitat ........................................................................................................................ 8 Chapter 4 Applicable Regulations ......................................................................................................... 9 Federal Regulations ................................................................................................................................ 9 National Flood Insurance Program .................................................................................................. 9 Endangered Species Act ................................................................................................................... 9 State Regulations .................................................................................................................................... 9 Revised Code of Washington—Floodplain Management Regulation.............................................. 9 Growth Management Act .............................................................................................................. 10 Local Regulations .................................................................................................................................. 10 Renton Municipal Code ................................................................................................................. 10 Chapter 5 Impacts and Mitigation Sequencing .................................................................................... 12 Alternatives Analysis ............................................................................................................................ 12 Temporary Impacts .............................................................................................................................. 12 Permanent Impacts .............................................................................................................................. 12 Cumulative Impacts .............................................................................................................................. 13 Mitigation Sequencing .......................................................................................................................... 13 Avoidance Mitigation Measures .................................................................................................... 14 Minimization Mitigation Measures ................................................................................................ 14 Chapter 6 Conclusion ......................................................................................................................... 15 Summary............................................................................................................................................... 15 Professional Qualifications of Preparers and Contributors .................................................................. 15 Chapter 7 References ......................................................................................................................... 16 Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab ii March 2023 Appendices Appendix A Site Survey and Design Plan Appendix B Agency Online Mapping Resources Appendix C WDFW Priority Habitats and Species Reports Figures Page Figure 1. Project Area ............................................................................................................................................................ 3 Figure 2. Project Study Area................................................................................................................................................ 5 Acronyms and Abbreviations ASCE American Society of Civil Engineers DNR Washington State Department of Natural Resources Ecology Washington State Department of Ecology FEMA Federal Emergency Management Agency GMA State Growth Management Act HVAC heating, ventilation, and air conditioning MEP mechanical, electrical, and plumbing NFIP National Flood Insurance Program NOAA National Oceanic and Atmospheric Administration NWI National Wetlands Inventory OHWM ordinary high water mark PHS Priority Habitats and Species project area 5.29-acre subject parcel at 1601 Lind Avenue SW in Renton, Washington RCW Revised Code of Washington RMC Renton Municipal Code study area project area and adjacent areas USFWS U.S. Fish and Wildlife Service USGS U.S. Geological Survey WDFW Washington Department of Fish and Wildlife Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab 1 March 2023 Chapter 1 Introduction Regulatory Background The Washington State Growth Management Act (GMA) of 1990 requires that comprehensive growth plans be developed by counties and cities with state oversight. The GMA specifically lists five critical areas for which local governments must designate and develop protection and enhancement programs. These five areas are fish and wildlife habitat, wetlands, aquifer recharge areas, flood hazard areas, and geological hazard areas. Critical areas under the City of Renton’s Critical Areas Regulations include flood hazard areas, wellhead protection areas, steep slopes, landslide hazards, erosion hazards, seismic hazards, coal mine hazards, and wetlands and habitat conservation areas (Renton Municipal Code [RMC] 4-3-050B.1). Projects in these critical areas or associated buffers and structural setbacks are required to complete relevant plans or studies to demonstrate that they would not adversely affect these critical areas, buffers, or structural setbacks (RMC 4-3-050F.2). Project Description The University of Washington is proposing a change of use from office space to laboratory facilities in an existing structure in the Commercial Office zone. This change of use requires a Conditional Use Permit be acquired from the City of Renton. The subject parcel at 1601 Lind Avenue SW in Renton, Washington is 229,238 square feet (5.26 acres) in size (project area). The building is 200,680 gross square feet and has a footprint of approximately 40,253 square feet. The entire building is currently leased by the University of Washington. The first level of the building is currently occupied by UW Medicine Testing labs through an Administrative Conditional Use Permit (LUA21-000463). The proposed Medicine Testing Lab facilities, support offices, and amenities would occupy the remaining floors (2 through 5). Renovations to the interior of the building would be required to support the technical equipment and workflow. New finishes, ceilings, interior partitions, and doors (including card access security) would be required, in addition to new electrical, data, mechanical equipment, and sinks (hand-wash and lab use). Restrooms would be added or modified to support current accessibility standards. New air handling units that would provide 100-percent outside air for lab safety are required and would be either on the upper roof or at grade. An additional 20 bike lockers bike rake with 5 stalls would be installed in the parking lot near the southwest corner of the building by the vendor parking spaces and across from the proposed additional refuse and recycling enclosure. Two exterior generators—each with an upper size limit of 258 inches long by 96 inches wide by 170 inches high—would be anchored on a concrete slab. A thicker concrete slab would replace the existing concrete patio slab, roughly 190 square feet, for better support of the exterior generators. A 12 inch thick concrete masonry unit (CMU) enclosure would surround the exterior generators to reduce changes to the visual landscape and dampen noise during generator operation (Figure 1). All new structures would be installed in areas with currently paved surfaces at grade. Exterior generators would only operate during emergencies to maintain power as well as once a month for a minimum of 30 minutes for generator load testing or maintenance. The testing lab would contain equipment to perform several tests on samples collected in other locations and couriered to the facility via small vehicles such as cars and small panel trucks. Patients requiring testing are not expected to visit the site. The expected hours of operation would be 24 hours a day, 7 Integrity Energy Services, Co Introduction Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab 2 March 2023 days a week and the lab would employ about 600 to 750 full-time staff during project operation (Appendix A, Site Survey and Design Plan). Integrity Energy Services, Co Introduction Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab 3 March 2023 Figure 1. Project Area Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab 4 March 2023 Chapter 2 Methods Study Area and Setting The project area and adjacent areas (study area) were evaluated for potential for including critical areas. The study area consists of three parcels. Parcels 334040-4006 and 334040-4004 contain a steel commercial office building and an associated asphalt parking lot owned by B H 1601 Lind Avenue LLC. Parcel 334040-4005 contains a subpower station owned by Puget Sound Energy. The total study area is 8.9 acres (approximately 387684 square feet) in the southwest quarter of Section 19, Township 23N, Range 5E and central coordinates 47.465098°-122.225913°. The study area is in a highly developed setting surrounded by Providence Health & Services to the south, a vacant building 1 to the northwest, SW 16th Street to the north, Lind Avenue SW to the east, and Raymond Avenue SW to the west (Figure 2). Desktop Analysis Potential critical areas in the study area were evaluated through a desktop analysis using the following sources. Figures generated from agency websites are provided in Appendix B, Agency Online Mapping Resources. • Aerial photographs viewed in Google Earth • City of Renton Sensitive Areas Maps (City of Renton 2012, 2014a, 2014b, 2014c, 2014d, 2016, 2020) • Washington State Department of Ecology (Ecology) Puget Sound Watershed Characterization Project (Ecology 2019) • Flood Insurance Rate Map for King County Washington Incorporated Areas, Panel 53033C0978G (FEMA 2020) • King County iMap (King County 2020) • U.S. Geological Survey (USGS) 7.5-minute series Renton, WA quadrangle topographic map (USGS 2020) • U.S. Fish and Wildlife Service (USFWS) National Wetlands Inventory (NWI) data (USFWS 2021) • Washington Department of Fish and Wildlife (WDFW) Priority Habitats and Species: Maps (WDFW 2020) • Washington Natural Heritage Program, rare and imperiled species and plant communities (DNR 2021) 1 Previously a daycare center Integrity Energy Services, Co Methods Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab 5 March 2023 Figure 2. Project Study Area Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab 6 March 2023 Chapter 3 Results The section presents the desktop assessment results for the project. The results and conclusions expressed herein represent ICF’s best professional judgment based on publicly available science and information (see Chapter 2, Methods) as well as information provided by the applicant. U.S. Geological Survey Topographic Map The study area is shown on the 7.5-minute USGS Renton, WA topographic map (USGS 2020). The study area and immediate surroundings are relatively flat, with the vicinity sloping from east to west toward the Green River. Springbrook Creek is mapped as a waterway feature to the west between the study area and the Green River; Panther Creek is mapped to the south; and wetlands are to the south and east. Geologic Hazards No geologic hazards—such as erosion hazards, landslide hazards, slope stability, or coal mine hazards—were identified in the study area by the City of Renton Sensitive Area Maps or King County iMap (City of Renton 2014a, 2014b, 2014c, 2014d; King County 2020). The closest geological hazard, according to the City of Renton Sensitive Area Maps, is roughly 0.3 mile east of the study area along a north–south greater than 40-percent slope mapped as a high landslide and erosion hazard (Appendix B, Figures A–C). The nearest coal mine hazard was documented by the City of Renton and King County iMap a little over 0.3 mile southeast of the study area (Appendix B, Figure D). Based on this, there are no known or mapped surface indications or history of unstable soils in the immediate vicinity of the study area. In addition, the study area is relatively flat with no fill, and the project proposes no excavation or grading. The proposed generators would be in an existing paved area. Therefore, there should be little to no degree of risk by the project on or from geologic hazards. Hydrology and Flood Hazards The study area is in the Duwamish/Green Watershed (Water Resource Inventory Area 9, Lower Green River subwatershed, hydrologic unit code 17110013) (USGS 2019). The Green-Duwamish River is the largest surface water drainage in Water Resources Inventory Area 9, flowing over 93 miles from the Cascade Mountains and draining into Elliot Bay (King County 2016). Historically, this area was almost entirely valley bottom forests with associated floodplain wetlands (Collins et al. 2003). After European settlement in 1851, much of the watershed was logged and converted to agricultural use. From 1945 onward, agricultural land was replaced with residential, commercial, and industrial properties. From 1895 to 1980, the Green-Duwamish River was channelized and diked for channel navigation and flood control (King County 2016). The Green River and its watershed’s biotic integrity are classified as impaired (Ecology 2014). The study area is covered by the Green River Temperature Watershed total maximum daily load (Ecology 2011). The City of Integrity Energy Services, Co Results Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab 7 March 2023 Renton holds a phase II stormwater permit (WAR04-5559), which regulates how much of the regulated pollutant it contributes through its discharges, in accordance with the Clean Water Act National Pollutant Discharge Elimination System. On a more local scale, the study area is in the Black River drainage basin. The upper basin largely drains the City of Kent to the south. The lower portions of the Black River drainage, where the study area is located, are mostly developed and characterized by humanmade drainages, ditches, and flood-control features, such as retention ponds (King County 2015).The study area is not in a regulatory floodway, an aquifer protection area, or wellhead protection area, and the nearest mapped Zone 2 2 is roughly 0.25 mile to the northwest (Appendix B, Figure F) (City of Renton 2020). In addition, the proposed project would not withdraw any groundwater from a well for any purpose, nor would any water or waste material be discharged to groundwater during project construction or operation. Therefore, the proposed project should not pose a risk to the City aquifer(s) or wellhead protection area. The part of the study area that would contain the proposed external generators is in the 100-year floodplain, or Zone AE, which is defined as having a 1-percent annual chance of flooding with a determined base flood elevation, based on the Federal Emergency Management Agency (FEMA) Flood Insurance Rate Map for King County Washington and Incorporated Area (FEMA 2020) (Appendix B, Figure G–I). Further discussion of potential effects related to the floodplain are discussed below. Wetland and Stream Inventories There are no mapped wetlands or streams in the study area (City of Renton 2016; USFWS 2021; King County 2020). The nearest wetland feature mapped by the City of Renton Surface Water Classifications and Wetlands and the NWI is a seasonally flooded freshwater emergent wetland roughly 200 feet southeast of the study area in a vacant commercial lot (Appendix B, Figures J–K). This feature is not mapped in the King County iMap (Appendix B, Figure E). Springbrook Creek, which is designated as a shoreline of the state by the City of Renton, is the closest mapped surface waterway and is roughly 780 feet to the west of the study area. Rolling Hills Creek, a non-fish-bearing stream, is piped 680 feet to the south. No work would occur over, In, or adjacent to Rolling Hills Creek, Springbrook Creek, or any other waterway or drainage during project construction or operation. In addition, no fill or dredge material would be placed in or removed from surface water or wetlands during project construction or operation. Finally, project construction and operation would not require any surface water withdrawals or diversions. Therefore, it is expected that the proposed project would pose little to no risk to wetlands or streams. 2 Aquifer protection area zones are delineated relative to the amount of contamination risk, with Zone 1 having the highest level of risk, followed by Zone 1 modified, and then Zone 2 (City of Renton 2020). Integrity Energy Services, Co Results Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab 8 March 2023 Fish and Wildlife Habitat The WDFW Priority Habitats and Species (PHS) map does not contain any documented priority wildlife habitat or species within or migrating through the study area (WDFW 2020). The PHS map documents steelhead (Oncorhynchus mykiss), Chinook salmon (Oncorhynchus tshawytscha), and residential coastal cutthroat trout (Oncorhynchus clarki) occurring and migrating in Springbrook Creek (noted as the Black River in the WDFW PHS report; Appendix C), with the creek also used for breeding by Coho salmon (Oncorhynchus kisutch). Coho salmon and residential coastal cutthroat trout were also documented as occurring and migrating in Panther Creek 0.4 mile south of the study area. Ecology’s Puget Sound Watershed Characterization Project maps the study area as providing poor salmonid and terrestrial habitat, with nearby open spaces providing little ecological integrity (Appendix B, Figures L–M) (Ecology 2019). Finally, according to the Washington Natural Heritage Program, no threatened or endangered plant species are documented within or near the area (DNR 2021). However, common reed (Phragmites australis) and poison hemlock (Conium maculatum) are considered Class B noxious weeds by King County and are mapped roughly 140 feet north of the study area (King County 2020). Based on the results of the desktop analysis, habitat for federally listed species does not occur within the project area, and the nearest occurrence of a federally listed species occurs 0.4 mile away. Net loss of ecological function and impacts on federally listed species and their habitat are not anticipated. Therefore, there is little to no risk to fish or wildlife and their associated habitats, and a Biological Assessment is not required. Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab 9 March 2023 Chapter 4 Applicable Regulations Federal Regulations National Flood Insurance Program FEMA is primarily responsible for managing the National Flood Insurance Program (NFIP), which allows communities that develop in floodplains to purchase insurance based on an agreement that they will mitigate future flood risk through appropriate ordinances and enforcement. Under NFIP, any development in floodways within Zone AE is regulated so that the development is kept free of new or additional encroachments, whereby, when flooding does occur, it would not result in a substantial increase in flood heights to the floodplain or the surrounding area (no rise certification). As described in Hydrology and Flood Hazards in Chapter 3, Results, the study area is in a Zone AE floodplain but not in a floodway. FEMA recommends that critical facilities located in the floodplain develop operations plans and evacuation routes to mitigate risk during a flood event. FEMA is not responsible for land use decisions or actions not connected with NFIP. In Washington State, federal floodway management regulations are often eclipsed by more stringent development requirements mandated at the state and local levels. Endangered Species Act In the Puget Sound region, the National Marine Fisheries Service–issued NFIP Biological Opinion, which protects endangered species occurring in floodplains, provides additional protective measures that are required and must be considered during development within a floodplain (NOAA 2008). As described in Fish and Wildlife in Chapter 3, Results, habitat for federally listed species does not occur within the study area, and the nearest occurrence of a federally listed species is 0.4 mile away. Net loss of ecological function and impacts on federally listed species and their habitat are not anticipated. Therefore, there is little to no risk to fish or wildlife and their associated habitats, and a Biological Assessment is not required. State Regulations Revised Code of Washington—Floodplain Management Regulation Floodplain management in Washington State is regulated under the Revised Code of Washington (RCW) 86.16.020, which establishes that local governments are responsible for meeting NFIP requirements; state requirements must meet the minimum requirements set under the federal NFIP; and the state may issue regulatory orders. RCW 86.16.020 is applicable to the planning, Integrity Energy Services, Co Applicable Regulations Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab 10 March 2023 construction, and operation of any project that may adversely affect a stream or body of water or affect life and property due to flood water. Growth Management Act As discussed previously, the GMA requires local counties and cities to develop, review, and update ordinances and regulations regarding frequently flooded areas to ensure public safety and habitat conservation. Local Regulations Renton Municipal Code Flood hazard areas are regulated under the City of Renton’s Critical Areas Regulations (RMC 4-3-050). Projects within mapped flood hazards are required to complete relevant plans or studies to demonstrate the proposed project would not adversely affect the floodplain (RMC 4-3-050F.2). The proposed project would be designed, installed, and operated to comply with the standards and requirements under RMC 4-3-050G.4 discussed below. General Standards New construction must comply with general standards listed under RMC 4-3-050G.4.c, which requires proposed developments to be: • Anchored in such a way as to prevent them from “flotation, collapse, or lateral movement of the structure resulting from hydrodynamic and hydrostatic loads including the effects of buoyancy. (Ord. 5977, 8-10-2020).” o The proposed exterior generators would be anchored to a concrete slab to prevent flotation, collapse, or lateral movement resulting from hydrodynamic and hydrostatic loads, including the effects of buoyancy during a 100-year flood event. The generators would be sealed in compliance with the Renton Municipal Code Flood Hazard Area regulations for anchoring all new construction (RMC 4.c.i). Similarly, the new concrete slab would be installed so that they are anchored to the existing paved surface in such a way as to prevent flotation, collapse, or lateral movement resulting from hydrodynamic and hydrostatic loads, including the effects of buoyancy during a 100-year flood event. • Constructed using materials, utility equipment, methods, statutes, codes, rules, regulations, and practices that minimize flood damage. o The exterior generators would be anchored to the concrete slab using a minimum of four 0.5-inch-diameter by 3-inch-long stainless steel expansion anchor bolts. The concrete slab would be reinforced with a steel rebar grid running 16 inches on center throughout. The rebar would be set at least 1 inch deep from the surface. To ensure a level surface, the concrete slab would have a height variance of 0.25 inch across the existing grade (Appendix A). This has been designed by a professional architect to meet the flood-proofing methods Integrity Energy Services, Co Applicable Regulations Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab 11 March 2023 for nonresidential structures per 4G4diii(a). Specifically, the concrete slab would be elevated more than 2-feet above base flood elevation - as required by the ASCE 24 minimum elevation for Category IV, emergency generator, occupancy category - and the proposed generators would not be below the lowest floor. • Designed and/or elevated to prevent flood water from entering or accumulating within electrical, heating, ventilation, plumbing, air conditioning, or other service facilities. o The concrete slab would be a supportive protective structure for the new external generators. The exterior generators would be installed and anchored to be flush with the concrete slab preventing any debris or water that may otherwise accumulate under the generators. The concrete slab elevation would be roughly 4.5 feet above the base flood elevation (further discussion provided below). No modifications or changes would be made to the existing building exterior; therefore, the current engineering designs that prevent flood water from entering or accumulating within the building’s electrical, heating, ventilation, plumbing, and air conditioning systems would still apply. In addition, the applicant must work with the City of Renton to obtain a development permit and confirm that all permit requirements have been met (RMC 4-3-050G.4.c.vi). • A Conditional Use Permit, building permit, and applicable mechanical, electrical, and plumbing (MEP) permits would be obtained. Specific Standards Specific standards (RMC 4-3-050G.4.d.iii.a.1) for Zone AE require new construction and substantial improvement of any commercial, industrial, or other nonresidential structure to have the lowest floor elevated at least 1 foot above the base flood elevation or as required by American Society of Civil Engineers (ASCE) 24, whichever is greater. • The proposed project would be designed, installed, and operated to comply with the general standards listed under RMC 4-3-050G.4.d. Specifically, the FEMA flood map 53033C0978G shows the flood elevation for Zone A, or 100-year floodplain, at 20 feet above sea level (Appendix A and Appendix B, Figures G–I). Based on the survey conducted in February 2023, the existing patio elevation, where the new exterior generators and concrete slab would be installed, is roughly 24.5 feet above sea level using the North American Vertical Datum of 1988 (NAVD 88) (Appendix A). Therefore, the new exterior generators would be 4.5 feet above the base flood elevation. This is above the 2-foot exceedance as required by the ASCE 24 minimum elevation for Category IV, emergency generator, occupancy category. Compensatory Storage The proposed project must not reduce or alter the effective base flood storage volume within the floodplain (RMC 4-3-050G.4.g). • The proposed installation of the exterior generators is not anticipated to raise the base flood elevation, decrease the base flood storage volume, or affect adjacent properties. No new structures would be built below the base flood elevation; therefore, the project would not reduce or alter the effective base flood storage volume within the floodplain. Therefore, it is anticipated that compensatory storage would not be required. Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab 12 March 2023 Chapter 5 Impacts and Mitigation Sequencing Alternatives Analysis The proposed generators are part of the necessary operations of the UW laboratory facilities and are required for staff health and safety. They provide necessary emergency backup power systems for critical equipment in the labs and emergency lighting and egress systems. Emergency power would be provided for “H” accessory occupancy storage rooms, cabinet exhaust ventilation, detection systems, emergency alarm, and temperature control systems. BSL-3 labs would also require emergency power for heating, ventilation, and air conditioning (HVAC); ventilation; and exhaust systems. Exhaust fans serving chemical fume hoods to prevent the release of hazardous substances in the general laboratory spaces would be on backup power systems. An in-building generator system is not practical due to the overall size, diesel fuel capacity, ventilation, and exhaust requirements. Sound and vibration requirements of laboratory microscopes and other sensitive equipment were also considered in evaluation of in-building generators. The 100-year floodplain zone covers much of the property, and a limited area is available to place generators outside of the zone. Areas outside of the flood zone would require remote location of generators far away from the building, creating more site disturbance, and would situate them close to either adjacent properties or public way. Ideally, the generators should also be installed as close as possible to the building’s electrical room to minimize the conduit runs. Temporary Impacts Noise during construction from the use of vehicles and equipment is anticipated between 5:00 am and 2:00 pm Monday through Friday for approximately 11 months. The majority of project construction noise would be contained within the interior of the building. Emissions from construction vehicles and equipment may also temporarily affect local air quality during construction of the project. Though emissions quantities have not been estimated, they are not expected to exceed local emissions standards. No construction vehicles would be refueled on site, and the quantity of hazardous materials contained in fuel or fluid reservoirs of construction vehicles would not exceed 20 gallons. Finally, based on the early start, some additional light would occur during construction between 5:00 am and 2:00 pm, Monday through Friday. Permanent Impacts Project operations would include a research and testing facility. Laboratory equipment and associated laboratory reagents would be appropriately stored and used on site to perform tests on samples. There would be no onsite hazardous substance processing and handling, or hazardous waste treatment and storage. All chemical waste would be collected and disposed of (i.e., it would not enter the plumbing waste system). Integrity Energy Services, Co Impacts and Mitigation Sequencing Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab 13 March 2023 Emissions from the exhaust of laboratory fume hoods—as well as exhausted environmental air from the lab and office spaces—would occur. Laboratory fume hoods would provide a ventilated enclosure that would trap and exhaust vapors, gases, and nanoparticles generated during project operation as well as pull in fresh air, via building duct work. The exact chemicals that would require use of a fume hood are still being determined and would vary between medical labs or departments. Grossing stations would handle formalin, xylene, and alcohol. Generators, which would only be used in case of power outages, would emit nitrogen oxides, carbon monoxide, particulate matter, and hydrocarbons. Roof-mounted mechanical equipment would generate noise during testing and start up. Exterior generators would generate noise when operated, which would be only during emergencies to maintain power and once a month for a minimum of 30 minutes for generator load testing. In addition, exterior generators would be placed in a sound attenuation enclosure in the form of a 12 inch thick CMU wall on four sides. Finally, the new exterior generators would be within the 100-year floodplain (FEMA 2020). The proposed exterior generators would be installed and anchored on a concrete slab in currently paved surfaces. Both the generators and concrete slab would be installed at least 2 feet above the base flood elevation and would be anchored to prevent flotation, collapse, or lateral movement. Therefore, these new structural elements are not expected to increase flood hazard in the vicinity. As there are no changes to the existing building and parking lot storm drainage system, stormwater would continue to be collected on site to an existing catch basin before being conveyed to the city stormwater system. The project would not alter or otherwise affect drainage patterns on or in the vicinity of the site. Cumulative Impacts Cumulative impacts from the project were considered. The project would have minimal impacts on floodplains or other critical areas as a result of project elements. The new exterior structures would be relatively small in comparison to the currently developed area and would be installed more than 2 feet above base flood elevation. Therefore, this project—when combined with all other existing development—is not expected to increase the water surface elevation of the base flood more than 1 foot at any point within the community (Ord. 5977, 8-10-2020; Ord. 6084, 11-14-2022). Mitigation Sequencing Potential impacts from construction and operation of the project have been considered during the project design process. Any impacts that cannot be avoided, addressed by construction design, or minimized would require further mitigation. The subsections below discuss mitigation sequencing of temporary and permanent impacts through avoidance, minimization, and—if necessary—compensatory mitigation as required under RMC 4-3-050G.4.g.i. Integrity Energy Services, Co Impacts and Mitigation Sequencing Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab 14 March 2023 Avoidance Mitigation Measures The project has been designed to avoid any work within wellhead/aquifer protection areas, steep slopes, landslide hazards, erosion hazards, seismic hazards, coal mine hazards, streams, wetlands, or habitat conservation areas. No in-water work or work within a waterway or wetland footprint is required or would occur. Therefore, no temporary filling, dredging, or discharge into any waterbody or wetland would occur as part of project construction. No ground disturbance activities would occur, so there is no expected increased risk from geologic hazards. Minimization Mitigation Measures Best management practices and construction techniques would be implemented to reduce possible temporary impacts from noise and light. Impacts from noise would be reduced by starting and ending project construction early during the workday to reduce the likelihood that people would be near the project site early in the day (commercial area). Increased lighting would be outside of residential or aquatic or wildlife habitat settings. Therefore, no light or glare impacts from project construction are anticipated. During operations, impacts from chemicals, hazardous waste, or fumes would be mitigated through engineer design and best management practices, including appropriate storage, handling, and disposal of chemicals as well as installation and use of fume hoods. Occasional increased noise from mechanical equipment and generators would be reduced by the location of equipment and use of sound-attenuating enclosures for the external generators. Any increase in the flood hazard due to new structures in the FEMA 100-year floodplain has been minimized through engineering design. These measures include installing the new exterior project elements at least 2 feet above the base flood level as well as mounting anchors to the exterior generators and corresponding concrete slab to prevent buoyancy. Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab 15 March 2023 Chapter 6 Conclusion Summary Based on this assessment, the proposed project would not adversely affect any critical areas. The proposed project would not affect wellhead/aquifer protection areas, steep slopes, landslide hazards, erosion hazards, seismic hazards, coal mine hazards, streams, wetlands, or habitat conservation areas because there are no such areas in or immediately adjacent to the project area. The project is located outside a designated floodway; therefore, a no-rise certification under FEMA is not required. The project is located above the base flood elevation; therefore, no compensatory storage is required. Based on the design, installation, and operation of the exterior generators and concrete slab, the proposed project would comply with federal, state, and local floodplain management requirements and would have a negligible effect on flood risk. No additional impervious surfaces would be created from project construction. Therefore, changes to the existing surface water, groundwater, runoff water, and drainage pattern impacts are not anticipated. Based on distance from fish-bearing waterways or wildlife habitat—and because there are no known occurrences of threatened or endangered species in the study area—the proposed project would not affect state- or federally listed special-status species. Therefore, no compensatory mitigation, short-term or long-term monitoring, contingency plans, or security requirements are necessary. Professional Qualifications of Preparers and Contributors This critical area assessment was prepared by Ingrid Kimball and Lisa Allen of ICF. Ms. Kimball is a professional wetland scientist who has completed wetland work throughout the Pacific Northwest. She has experience working in the Mountain West and has conducted ordinary high water mark (OHWM) determinations and wetland delineations for infrastructure improvements and restoration projects in Clark, King, Kitsap, and Snohomish Counties. Ms. Kimball graduated from the University of Washington's Wetland Science and Management Program in 2019. She has provided permitting support for projects within wetlands, waters of the United States, and buffers through federal, state, and local agencies. Ms. Allen is a senior wildlife biologist with over 10 years of professional experience in California and Washington, the last 5 years being focused on conducting OHWM determinations, wetland delineations, and regulatory permitting. Ms. Allen has supported permitting for projects within wetlands and waters of the United States through federal, state, and local agencies in both Washington and California. Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab 16 March 2023 Chapter 7 References City of Renton. 2012. Effective FEMA Flood Insurance Rate Map. Available: https://p1cdn4static. civiclive.com/UserFiles/Servers/Server_7922657/File/City%20Hall/Administrative%20Services/Information%20Technology/GIS/Flood%20Hazard.pdf. Accessed: February 3, 2022. City of Renton. 2014a. City of Renton Sensitive Areas Erosion Hazard. Available: https://p1cdn4static.civiclive.com/UserFiles/Servers/Server_7922657/File/City%20Hall/Administrative%20Services/Information%20Technology/GIS/Erosion%20Hazard.pdf. Accessed: February 3, 2022. City of Renton. 2014b. City of Renton Sensitive Areas Landslide Hazard. Available: https://p1cdn4static.civiclive.com/UserFiles/Servers/Server_7922657/File/City%20Hall/Administrative%20Services/Information%20Technology/GIS/Slide%20Hazard.pdf. Accessed: February 3, 2022. City of Renton. 2014c. City of Renton Sensitive Areas Steep Slopes. Available: https://p1cdn4static. civiclive.com/UserFiles/Servers/Server_7922657/File/City%20Hall/Administrative%20Services/Information%20Technology/GIS/SteepSlopes.pdf. Accessed: February 3, 2022. City of Renton. 2014d. Coal Mine Hazards Map. Available: https://p1cdn4static. civiclive.com/UserFiles/Servers/Server_7922657/File/City%20Hall/Administrative%20Services/Information%20Technology/GIS/Coal%20Mine%20Hazard.pdf. Accessed: February 3, 2022. City of Renton. 2016. Surface Water Classifications and Wetlands. Available: https://p1cdn4static. civiclive.com/UserFiles/Servers/Server_7922657/File/City%20Hall/Administrative%20Services/Information%20Technology/GIS/WaterClass%20and%20Wetlands.pdf. Accessed: February 3, 2022 City of Renton. 2020. Aquifer Protection Area Map. Available: https://p1cdn4static. civiclive.com/UserFiles/Servers/Server_7922657/File/City%20Hall/Administrative%20Services/Information%20Technology/GIS/Aquifer%20Protection.pdf. Accessed: February 3, 2022 Collins, B.D., D.R. Montgomery, and A.J. Sheikh. 2003. Reconstructing the Historical Riverine Landscape of the Puget Lowland. Available: https://pdfs.semanticscholar.org/5d32/ 1ac2e6483788a464ddd0bc9725717ef7dc75.pdf?_ga=2.236212290.2131284613.1587992964-1054833396.1587992964. Accessed: April 14, 2020. Federal Emergency Management Agency (FEMA). 2020. Flood Insurance Rate Map for King County Washington Incorporated Areas, Panel 53033C0978G. Effective February 3, 2022. King County. 2015. Black River Needs Assessment and Capital Improvement Planning King County, Washington. Task 4 – Fish Migration Facility Review. Technical Memorandum. March 2015. King County. 2016. Stream Report, Green River-0311. Available: https://green2.kingcounty.gov/ streamsdata/watershedinfo.aspx?locator=0311. Accessed: February 3, 2022. Integrity Energy Services, Co References Critical Area Assessment for the University of Washington Department of Laboratory Medicine and Pathology Testing Lab 17 March 2023 King County. 2020. iMap Home. Available: https://gismaps.kingcounty.gov/iMap/. Accessed: February 3, 2022. National Oceanic and Atmospheric Administration (NOAA). 2008. Endangered Species Act – Section 7 Consultation Final Biological Opinion And Magnuson-Stevens Fishery Conservation and Management Act Essential Fish Habitat Consultation. Available: https://ecology.wa.gov/DOE/files/56/56d82d6b-5a68-411e-97d5-5a432aec30c1.pdf. Accessed: February 8, 2023. U.S Fish and Wildlife Service (USFWS). 2021. National Wetland Inventory Mapper V2. Updated: December 1, 2021. Available: https://www.fws.gov/wetlands/data/mapper.html. Accessed: February 3, 2022. U.S. Geological Survey (USGS). 2019. Boundary Descriptions and Names of Regions, Subregions, Accounting Units and Cataloguing Units, Region 17, Pacific Northwest Region. Available: https://water.usgs.gov/GIS/huc_name.html#Region17. Accessed: February 3, 2022. U.S. Geological Survey (USGS). 2020. Renton Quadrangle, King County, Washington 7.5-Minute Series. Available: https://ngmdb.usgs.gov/topoview/viewer/#4/40.01/-100.06. Accessed: February 3, 2022. Washington Department of Fish and Wildlife (WDFW). 2020. Priority Habitats and Species: Maps. PHS on the Web. Available: https://geodataservices.wdfw.wa.gov/hp/phs/. Accessed: February 3, 2022. Washington State Department of Natural Resources (DNR). 2021. Washington Natural Heritage Program Element Occurrences – Current. Available: https://www.dnr.wa.gov/NHPdata. Updated: July 20, 2021. Accessed: February 3, 2022. Washington State Department of Ecology (Ecology). 2011. Green River Temperature Total Maximum Daily Load: Water quality Improvement Report. Available: https://apps.ecology.wa.gov/publications/documents/1110046.pdf. Accessed: February 4, 2022. Washington State Department of Ecology (Ecology). 2014. Washington State Water Quality Assessment: 303(d)/306(b) List. Available: https://apps.ecology.wa.gov/ApprovedWQA/ApprovedPages/ApprovedSearch.aspx Accessed: February 4, 2022. Washington State Department of Ecology (Ecology). 2019. Puget Sound Watershed Characterization Project. Available: https://ecology.wa.gov/Water-Shorelines/Puget-Sound/Watershed-characterization-project. Accessed: February 3, 2022. Appendix A Site Survey and Design Plan DDDDDSDDDD“”“”DWS98007 BUSH, ROED & HITCHINGS, INC. 15400 SE 30TH PL SUITE 100 BELLEVUE, Washington LAND SURVEYORS & CIVIL ENGINEERS (206) 323-4144 1-800-935-0508 TOPOGRAPHIC SURVEY UNIVERSITY OF WASHINGTON 1601 LIND AVENUE SOUTH RENTON KING COUNTY WASHINGTON SW 1/4, SEC. 19, T23N, R5E, W.M.02/17/202302/17/2023 F L O OD Z O NE "X " F L O OD Z O NE "A E" F L OOD Z ONE "AE " F L OOD Z ONE " X " OWNER: PROVIDENCE HEALTH SYSTEMO/H EO/H E O/H E O/H E LIND AVE. SWS.W. 16TH STREET 10.4'45.0'800707046480070704648007070464 8008200077 40'45' 40'45' N89°34'32"E 32.54' N89°34'32"E 412.79'S01°19'23"W403.71'N89°49'54"W 502.07' S01°22'05"W 5.00'20.0'20.0' FRONT SETBACK SIDE SETBACK CONC WALK IS 1.32' OUTSIDE EASEMENT APPROXIMATE FLOOD ZONE BOUNDRY PER FEMA FLOOD MAP (21)(21) (22) (23) (2 2) (2 2 ) (22) (22)(23)(23)(23)(23)(24)(23)(23)(24)(24)(23)(22)(24)(24)(23)(2 2 ) (2 2 )(22)(24)( 2 4 ) (24)(24)(22) (22)(23)(23)(22)(24)(21)(24)(23) (22) (26) (26)(22)(22) (22) (2 1 )(25)(25)(25)(25)(25)(25)(20)(20)(25)(2 5 ) (2 5 )(25)(25)ID #85 ID #150 2"DEC (TYP.) 6"DEC ID #101 4"DEC 4"DEC 6"DEC ID #96 8"DEC 6"DEC2"DEC 8"DEC 6"DEC6"DEC6"DEC6"DEC6"DEC8"DEC 8"DEC ID #1 ID #2 ID #3 ID #4 ID #5 ID #6 4"DEC 6"DEC 6"DEC ID #104 ID #103 ID #98 4"DEC2"DECID #48ID #137 4"DEC ID #130 ID #131 ID #132 ID #7 ID #8 ID #9 ID #10 ID #11 ID #12 ID #13 ID #14 ID #15 ID #16 ID #17 ID #18 ID #19 ID #20 ID #21 ID #22 ID #23 ID #24 ID #25 ID #26 ID #27 ID #28 ID #29 ID #30 ID #31 ID #32 ID #33ID #34ID #35ID #36ID #37ID #38ID #39 ID #40 ID #41 ID #42 ID #52 ID #53ID #54ID #55ID #57 ID #58 ID #59 ID #60 ID #61 ID #62 ID #63 ID #64 ID #65 ID #66 ID #67 ID #68 ID #69 ID #70 ID #71 ID #72 ID #73 ID #74 ID #75 ID #76 ID #77 ID #78 ID #79 ID #80 ID #81 ID #83 ID #82 ID #84 ID #86 ID #87 ID #126 ID #88 ID #89 ID #90 ID #91 ID #92 ID #93 ID #95 4"CON ID #116 ID #117 ID #149ID #148ID #147ID #146 ID #145 ID #144ID #133 ID #135 ID #134 ID #136 ID #127 ID #128 ID #129 ID #138 ID #139 ID #141 ID #142 ID #143 ID #51 ID #97 ID #115 ID #114 ID #106 ID #107 ID #102 ID #99 ID #100 ID #113 ID #108 ID #109 ID #110 ID #112 ID #111 ID #118ID #119ID #121ID #125ID #124ID #122ID #153ID #47ID #46ID #151ID #50ID #123ID #120ID #43 ID #44 ID #45 ID #152CROSSWALKYELLOWSTRIPESTOP BAR LOADING DOCK STRIPE ENTRANCE SIGN "RIGHTTURN ONLY""BUS STOP" "RIGHT TURN ONLY""NO RACINGZONE"""NOTRESSPASSING""FAA" SIGN "15 MIN PARKING" HANDICAP PARKING "H/C""VAN POOL""H/C" "BUS STOP" "BUS STOP""FLOOD EVAC. ROUTE" (6) "H/C PARKING" SIGNS STREET SIGN "NO TRESPASSING" SIGN "CCTV SURVEILANCE" "VISITOR/ BUILDING ENGINEER PARKING ONLY" CRW CRW CRW39' DWY30' DWY 6'CONC. WALK 6'CONC. WALK 6'CONC. WALKSPEED BUMP SPEED BUMP SPEED BUMP17 P.S.24 P.S 20 P.S. 17 P.S.17 P.S. 8 P.S. 21 P.S 16 P.S. 14 P.S. 16 P.S. 17 P.S. 16 P.S. 9 P.S. 7 P.S. 12 P.S. 13 P.S.11 P.S."MAIL TRUCK PARKING ONLY" 33 P.S. NO PARKING 18 P.S. 2 P.S. 2 P.S. D D D D D S D D D D 23.06 21.65 21.23 21.3 0 21.2 9 23.48 19.6 3 19.94 19.44 19.30 25.08 22.65 23.51 23.67 23.53 N89°34'32"E 1027.81'N01°19'23"EN01°20'40"E460.23'PROJECT SITE: 1601 LIND AVE SW CURRENT USES (EXISTING BUILDING): LABORATORIES: RESEARCH, DEVELOPMENT AND TESTING - LEVEL 1 OFFICES, GENERAL - LEVELS 1-5 PROPOSED USES: PRINCIPLE USE: LABORATORIES: RESEARCH, DEVELOPMENT AND TESTING - LEVELS 1-5 ACCESSORY USE: OFFICE, GENERAL - LEVELS 1-5 PARCEL NO: 3340404006 FLOOR NET AREA (EXISTING): 197,446 SF APPROX LOT AREA: 229,238 SF (5.263 AC) PRIMARY ENTRANCE ENTRANCE / EXIT ENTRANCE / EXIT ENTRANCE / EXIT EXISTING GENERATOR w/ FUEL TANK REMOVED EXISTING GENERATOR REMOVED EXISTING FUEL TANK REMOVED EXISTING ELECTRICAL TRANSFORMER REMOVED EXISTING FENCE ENCLOSURE PROPERTY LINEEXISTING REFUSE, COMPOST & RECYLCING LOCATION NOTE: ALL INFORMATION ON SITE PLAN REQUIRES VERIFICATION 319 SF 1,487 SF PROPOSED ADDITIONAL REFUSE & RECYLCING LOCATION WITH 6' FENCE ENCLOSURE (4-4-090.C9) EXISTING FFE = 25.01' (11 BIKES) HATCHED AREA: 10 STALLS RESERVED FOR COURIER/ VENDOR 20 LOCKABLE BIKE LOCKERS. 12 SINGLE & 4 DOUBLE UNITS 77'-3"19'-3"46'-6"6'-4"6'-0"12'-8"6'-0"6'-4"5'-0"13'-0"AS102 A5 FEMA BASE FLOOD ELEVATION = 20' AS102 A2 GENERATOR GENERATOR 188'-2"24'-1" 3 4 2 1 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 37 38 39 40 41 42 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 85 84 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 181 182 183 184 185 186 187 188 189 239 238 240 241 242 243 244 245 246 167 168 169 170 171 172 173 174 175 176 177 178 179 180 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 280281282283284285286287288289290291 304 303 302 301 298 297 296 295 294 293 292 247248249250251252253254255256257258259260261262263264265266267268269270271272273274275276277278279 305306 308 307 309310 311312 314 313 315 300 299250'-2"PSE SUB-STATION PARKING LOT (COMMERCIAL) 37'-0" 223 YALE AVENUE NORTH SEATTLE, WASHINGTON 98109 PHONE 206 223 5555 www.nbbj.com PROJECT NUMBER PROJECT ARCHITECT SHEET NAME SHEET NUMBER PROJECT MANAGER: STRUCTURAL ENGINEER: MEP: REVISIONS MARK DATE DESCRIPTIONB 1 2 A C D E 3 4 5 6 1 2 3 4 5 6 F B A C D E F CBRE 1420 5TH AVE, SUITE 1700 SEATTLE, WA 98101 WSP USA 1001 FOURTH AVE., SUITE 3100 SEATTLE, WA 98154 WSP USA 1001 FOURTH AVE., SUITE 3100 SEATTLE, WA 98154 LAB CONSULTING MANAGER: WESTLAKE CONSULTING GROUP 2825 EASTLAKE AVE. E, SUITE 350 SEATTLE WA 98102 LAB PLANNING: WSP USA 3340 PEACHTREE ROAD NE, SUITE 2400 ATLANTA, GA. 30326 3/3/2023 11:47:27 AMAutodesk Docs://102987.00 - UW DLMP R22/ARCH_UW DLMP_TI.rvt102987.00 S.LAZEN ARCHITECTURAL SITE PLAN AS101 UW DLMP CENTRAL LABS TINOT FORCONSTRUCTIONDD-PROGRESS PRINT February 21, 2023 A1 ARCHITECTURAL SITE PLAN DN D 22.10 22.24 22.8322.42 22.24 23.02 22.6322.61 23.15 23.06 2 3.6 8 23.58 23.51 23.14 23.17 22.90 22.88 22.91 22.75 23.38 22.29 2 2.8 6 2 5.10 24.64 24.77 24.95 26.51 23.44 2 3.4 6 24.86 2 4.7 2 26.47 2 4.4 6 2 4.5 8 26.43 22.94 22.55 22.30 2 2.8 2 24.50 25.00 2 4.3 0 23.31 N01°20'40"E460.23'F L OOD Z ONE "AE " F L OOD Z ONE " X " (23) (22)(23)(2 1 )6"DEC6"DEC8"DEC 8"DEC ID #1 ID #2 ID #3 ID #4 SPEED BUMPNO PARKING 18 P.S. AE201 A1 2 A D E F 1 B C PUBLIC UTILITIES EASEMENT PUBLIC UTILITIES EASEMENTPUBLIC UTILITIES EASEMENTEASEMENT PUBLIC UTILITIES PSE EASEMENT PSE EASEMENTPSE EASEMENT48" CORRUGATED METAL PIPE EXISTING CATCH BASIN 48" CORRUGATED PIPE (25')(24') (23') (24' ) (22' ) (23' ) (24') (25') (23') TO COMBUSTIBLE 10'-0" CLEAR TO COMBUSTIBLE10'-0" CLEAR10" WATER MAIN 10" WATER MAIN 3'-0" CLEAR TO NON-COMBUSTIBLE MAIN ELECTRICAL ROOM NON-COMBUSTIBLE RECLADDING6'-0"4'-1 1/8"4'-1"7'-4 5/8" GENERATOR & FUEL TANK GENERATOR & FUEL TANK FUEL FILL STATION 3'-6"3'-4"8'-0"8'-0"3'-4"4'-0" 4'-4 5/8"MTS 1 MTS 2 34'-9 7/8"32'-1 3/8"24'-1" EXISTING REFUSE, COMPOST & RECYLCING LOCATION - NO PROPOSED CHANGES 319 SF 1,487 SF PROPOSED ADDITIONAL REFUSE & RECYLCING LOCATION WITH 6' FENCE ENCLOSURE (4-4-090.C9) HATCHED AREA: 10 STALLS RESERVED FOR COURIER/ VENDOR 20 LOCKABLE BIKE LOCKERS. 12 SINGLE & 4 DOUBLE UNITS 77'-3"19'-3"46'-6"310 309 307 308 306 305 279 RESTRIPE AREA FOR NO PARKING 223 YALE AVENUE NORTH SEATTLE, WASHINGTON 98109 PHONE 206 223 5555 www.nbbj.com PROJECT NUMBER PROJECT ARCHITECT SHEET NAME SHEET NUMBER PROJECT MANAGER: STRUCTURAL ENGINEER: MEP: REVISIONS MARK DATE DESCRIPTIONB 1 2 A C D E 3 4 5 6 1 2 3 4 5 6 F B A C D E F CBRE 1420 5TH AVE, SUITE 1700 SEATTLE, WA 98101 WSP USA 1001 FOURTH AVE., SUITE 3100 SEATTLE, WA 98154 WSP USA 1001 FOURTH AVE., SUITE 3100 SEATTLE, WA 98154 LAB CONSULTING MANAGER: WESTLAKE CONSULTING GROUP 2825 EASTLAKE AVE. E, SUITE 350 SEATTLE WA 98102 LAB PLANNING: WSP USA 3340 PEACHTREE ROAD NE, SUITE 2400 ATLANTA, GA. 30326 3/3/2023 11:47:29 AMAutodesk Docs://102987.00 - UW DLMP R22/ARCH_UW DLMP_TI.rvt102987.00 S.LAZEN ARCHITECTURAL SITE PLANS - ENLARGED AS102 UW DLMP CENTRAL LABS TINOT FORCONSTRUCTIONDD-PROGRESS PRINT February 21, 2023 1/8" = 1'-0"A5 ARCHITECTURAL SITE PLAN -ELECTRICAL YARD 1/8" = 1'-0"A2 ARCHITECTURAL SITE PLAN -REFUSE/RECYCLE USLUSLUSLUSLUGPUGP UGP UGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPUGPLASTINGcreativity | results | relationshipscoffman.comfax 206.624.3775ph 206.623.0717Seattle, WA 981011101 2nd Ave., Suite 4003/3/2023PRELIMINARYNO T FO R CO N S T R U C T IO N Design DevelopmentUW DLMPCENTRALLABS TI1601 Lind Ave SWRenton, WA 98057ELECTRICAL DRAWINGS ©2023 PRIME ELECTRIC,ALL RIGHTS RESERVEDEE101ELECTRICALSITE PLANELECTRICAL SITE PLAN 2 B C D 1 1 2 3 3 9 S107 REINFORCING PER PLAN COMPACTED SUBGRADE 5/8" MINUS CRUSHED ROCK CAPILLARY BREAK MATERIAL /3 S107 GENERATOR PER PLAN AND ELECTRICAL DRAWINGS GENERATOR BASE RAIL ANCHOR GENERATOR TO SLAB WITH STAINLESS STEEL EXPANSION ANCHORS AT MFR'S REQUIRED LOCATIONS 4' - 0"2' - 0"TOP OF WALL 15' -0" CAP AT TOP OF WALL PER ARCH. BOND BEAM AT GRADE, TOP OF WALL, AND 48" OC. BETWEEN, REINFORCE WITH (2) #5 (2) #6 AT 16" OC. HOOKED DOWELS TO MATCH WALL VERTS. THICKENED SLAB AT EDGE OF GENERATOR YARD SLAB ON GRADE PER PLAN, EXTEND REINFORCING INTO THICKENED SLAB REINFORCE BOTTOM OF THICKENED SLAB WITH (5) #6 LONG AND #4 AT 32" TRANSVERSE 223 YALE AVENUE NORTH SEATTLE, WASHINGTON 98109 PHONE 206 223 5555 www.nbbj.com PROJECT NUMBER PROJECT ARCHITECT SHEET NAME SHEET NUMBER PROJECT MANAGER: LAB CONSULTING MANAGER: STRUCTURAL ENGINEER: MEP: LAB PLANNING: REVISIONS MARK DATE DESCRIPTIONB SHEET OF 250 1 2 A C D E 3 4 5 6 1 2 3 4 5 6 F B A C D E F CBRE 1420 5TH AVE, SUITE 1700 SEATTLE, WA 98101 WESTLAKE CONSULTING GROUP 2825 EASTLAKE AVE. E, SUITE 350 SEATTLE WA 98102 WSP USA 3340 PEACHTREE ROAD NE, SUITE 2400 ATLANTA, GA. 30326 WSP USA 1001 FOURTH AVE., SUITE 3100 SEATTLE, WA 98154 WSP USA 1001 FOURTH AVE., SUITE 3100 SEATTLE, WA 98154 NOT FOR CONSTRUCTION 3/7/2023 3:32:33 PMAutodesk Docs://102987.00 - UW DLMP R22/STRU_UW DLMP_TI.rvt102987.00 JT GENERATOR YARD PLAN AND DETAILS S107 UW DLMP CENTRAL LABS TI CONDITIONAL USE PERMIT MARCH 13, 223 SCALE: 3/16" = 1'-0"7 STRUCTURAL PLAN - GENERATOR YARD 1 8" SLAB ON GRADE WITH #4 AT 16" OC. EACH WAY, TOP AND BOTTOM. PROVIDE THICKENED SLAB AT EDGE PER SECTION REFERENCED ON PLAN. 2 12" REINFORCED AND SLOID GROUTED CMU WALL. REINFORCE WITH (2) #6 AT 16" OC. AND BOND BEAMS WITH (2) #5 AT GRADE, TOP OF WALL, AND 48" OC. BETWEEN. TOP OF WALL EQUALS 15'-0" ABOVE SLAB. 3 GENERATOR PER ELECTRICAL DRAWINGS. ANCHOR TO SLAB PER DETAIL KEYNOTES:GENERAL NOTES: A. SEE ARCHITECTURAL AND / OR SITE DRAWINGS FOR DIMENSIONS NOT SHOWN. B. APPROXIMATE GENERATOR PAD ELEVATIO EQUALLS 24.75'. SCALE: 1" = 1'-0"4 TYP. SLAB ON GRADE SCALE: 1" = 1'-0"3 GENERATOR ANCHORAGE SCALE: 1" = 1'-0"9 MASONRY WALL SECTION Appendix B Agency Online Mapping Resources Appendix B Agency Online Mapping Resources B-1 Figure A – City of Renton Erosion Hazards. Study Area indicated by red box. (City of Renton 2014a) Figure B – City of Renton Landslide Hazards. Study Area indicated by red box. (City of Renton 2014b) Appendix B Agency Online Mapping Resources B-2 Figure C – City of Renton Steep Slopes. Study Area indicated by red box. (City of Renton 2014c) Figure D – City of Renton Coal Mine Hazard Areas. Study Area indicated by red box. (City of Renton 2014d) Appendix B Agency Online Mapping Resources B-3 Figure E – King County iMap Environmentally Sensitive Areas. Project Area indicated by orange box. (King County 2020) Figure F – City of Renton Aquifer Protection Areas. Study Area indicated by red box. (City of Renton 2020) Appendix B Agency Online Mapping Resources B-4 Figure G – City of Renton Flood Hazard Areas. Study Area indicated by red box. (City of Renton 2012) Figure H – King County iMap Flooding Information. Study Area indicated by red box. (King County 2020) Appendix B Agency Online Mapping Resources B-5 Figure I - Flood Insurance Rate Map for King County Washington and Incorporated Area. Project area indicated by red pin. (FEMA 2020) Figure J – City of Renton Surface Water Classification and Wetlands. Study Area indicated by red box. (City of Renton 2016) Appendix B Agency Online Mapping Resources B-6 Figure K – Wetlands and waterways as mapped in NWI. Project Area indicated by red box. (USFWS 2021) Figure L – Ecology’s Puget Sound Watershed Characterization Project Local Salmon Habitat Index. Project area indicated by black box. (Department of Ecology 2019) Appendix B Agency Online Mapping Resources B-7 Figure M - Ecology’s Puget Sound Watershed Characterization Project Fish and Wildlife Habitat Assessment. Project area indicated by black box. (Department of Ecology 2019) Appendix C WDFW Priority Habitats and Species Reports Study Area Study Area