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Correspondence (3) R C JV f J Engineering, Inc. X 4660 NE Belknap Court, Suite 115, Hillsboro, Oregon 97124 MAR 23 2005 (503) 640 -6808 FAX (503) 693 -9738 www.j2keng.com M axch BUILDING � v ��N • FILE COPY Page 1 of 2 804 5 - o 7 9 Mr. Brian Blalock Plans Examiner Supervisor City of Tigard, Building Division S _ �p Er3 13125 SW Hall Blvd. Tigard, OR 97223 ��2�5 Or gy PROJECT: Ashbrook Condominiums 10390 & 10420 & 10450 & 10480 SW 90` Avenue, Tigard RE: Building Design Review JOB No.: 04 - 022 - B Dear Brian, On March 2, 2005, we submitted to the City of Tigard, Building Division, four (4) sets of plans and their respective Permit Applications, for the above listed building sites. These plans sets contain a hand - written note stating: "Plans Utilize "Alternated Construction Method ": "2005 Oregon Residential Specialty Code "." Outlined below is a little more information on the intent of this statement. 1. The current Oregon One- and -Two Family Dwelling Specialty Code, Section R104.11, allows the approval of alternate materials, design and method of construction. We are requesting that these buildings be reviewed under the Code provisions of the "2005 Oregon Residential Specialty Code" (2003 IRC) which has been approved and will be effective April 1, 2005. 2. The provisions of 2005 ORSC enable us to design, permit and construct these buildings in a fashion similar to the current Oregon "Rowhouse Construction" Interpretive Ruling No. 01 -010. 3. Each of these building will be constructed with 2 -hour fire 'separation walls. This construction method also allows the buildings to be structurally dependent (2003 IRC R317.2.1, Exception #5) as presented in �l our design calculations. The detail 2 -hour separation walls are the same these utilized for the current rowhouse construction method (drawing sheets D3 and D4). 4. We intend to design the buildings per the "Townhouse" definition in Chapter 2, 2003 IRC /2005 ORSC. As these buildings are townhouses "condominiums" neither the provisions of Appendix "N" or "0" are applicable. Ashbrook Condominiums Page 2 of 2 Building Design Review JOB No.: 04 - 022 - B 5. Per Section R317.2, "Exception ".•...the common 2 -hour wall will not have plumbing, mechanical or venting within the wall cavity. 6. The common walls extend from the foundation to the underside of the roof construction. This framing also contains the 2 -hour separation wall construction In conclusion, our request to use the 2005 ORSc was made considering that the actual "approval" of the requested permits would not be issued until after April 1, 2005 when the referenced Code would be adopted. We are just trying to be ahead of the design curve with the new Code. We hope this satisfactorily addresses your questions and clarified the Code applications selected for these buildings. Please contact us if you have further questions. Sincerely, J Engineering, Inc. /o Kevin N. Clemo, P.E. President Encl. —.- "Pim; 3 CONDOMINIUM. Condominiums not built as f-84 DECORATIVE GLASS. (No Change to the townhouses or row- houses see Appendix N. text) CONFINED SPACE. (No Change) DESIGN PROFESSIONAL. (No Change) 4414 CONSTRUCTION DOCUMENTS. (No • a - Change to the text) - - - • • - fir. siagle-tfap. . .. .. .. • . b .. . • . • - .... .. [134 DIAPHRAGM. (No Change to the text) - ° " ' ° ` DILUTION AIR. (No Change) DIRECT -VENT APPLIANCE. (No Change) CONTROL, LIMIT. (No Change) DRAFT. (No Change) CONTROL, PRIMARY SAFETY. (No Change) Induced draft. (No Change) CONVECTOR. (No Change) Natural draft. (No Change) • 93.1 CORROSION RESISTANCE. (No Change DRAFT HOOD. (No Change) to the text) DRAFT REGULATOR. (No Change) [11} COURT. (No Change to the text) {R• DRAFT STOP. (No Change to the text) CRIPPLE WALL. " fra-med w°" extending fie. A framed stud wall that is less than 96 ! ' - ' ' - - - • - - •a a inches (2438 mm) in height extending from the - - - - b - -- • • top of a concrete or masonry foundation to the - ' - - - • - b • underside of floor framing for the lowest occupied . . . - floor level or from the top of a daylight basement - - - concrete or masonry foundation wall to the - :.: -; :: - :. : : - - • • underside of the framing above. • a " • - - ! • • _ T. DUCT SYSTEM. (No Change) t ie- other: • DALLE GLASS. (No Change) - a DAMPER, VOLUME. (No Change) • _ - • connecnvn, a WI DEAD LOADS. (No Change to the text) - b a WW} DECK. (No Change to the text) a' 15 DEFINITIONS SMOKE- DEVELOPED RATING. A numerical index indi- STRUCTURE. That which is built or constructed. eating the relative density of smoke produced by burning as- SUMP. A tank or pit that receives sewage or waste, located be- - signed to a material tested in accordance with ASTM E 84. low the normal grade of the gravity system and that must be SOIL STACK OR PIPE. A pipe that conveys sewage contain- emptied by mechanical means. ing fecal material. • SUMP PUMP. A pump installed to empty a sump. These SOLAR HEAT GAIN COEFFICIENT (SHGC). The solar pumps are used for removing storm water only. The pump is se- heat gain through a fenestration or glazing assembly relative to lected for the specific head and volume of the load and is usual - the incident solar radiation (Btu/h • ft • °F). ly operated by level controllers. SOLID MASONRY. Load- bearing or nonload - bearing SUNROOM ADDITION. A one -story structure added to an construction using masonry units where the net cross - sectional existing dwelling with a glazing area in excess of 40 percent of area of each unit in any plane parallel to the bearing surface is the gross area of the structure's exterior walls and roof. not less than 75 percent of its gross cross-sectional area. Solid SUPPLY AIR. Air delivered to a conditioned space through masonry units shall conform to ASTM C 55, C 62, C 73, C 145 ducts or plenums from the heat exchanger of a heating, cooling or C 216. or ventilating system. STACK. Any main vertical DWV line, including offsets, that SUPPORTS. Devices for supporting, hanging and securing extends one or more stories as directly as possible to its vent ter- pipes, fixtures and equipment. minal. SWEEP. A drainage fitting designed to provide a change in Di- [B] STACK BOND. The placement of masonry units in a bond rection of a drain pipe of less than the angle specified by the pattern is such that head joints in successive courses are verti- amount necessary to establish the desired slope of the line. cally aligned. For the purpose of this code, requirements for Sweeps provide a longer turning radius than bends and a less stack bond shall apply to all masonry laid in other than running turbulent flow pattern (see "Bend" and "Elbow "). bond. TEMPERATURE - AND PRESSURE - RELIEF (T AND P) STACK VENT. The extension of soil or waste stack above the VALVE. A combination relief valve designed to function as highest horizontal drain connected. both a temperature - relief and pressure- relief valve. STACK VENTING. A method of venting a fixture or fixtures TEMPERATURE - RELIEF VALVE. A temperature -actu- through the soil or waste stack without individual fixture vents. ated valve designed to discharge automatically at the tempera - STANDARD TRUSS. Any construction that does not permit lure at which it is set. _ the roof /ceiling insulation to achieve the required R -value over THERM.AL ISOLATION. A separation of conditioned the exterior walls. spaces, between a sunroom addition and a dwelling unit, con- - STATIONARY FUEL CELL POWER PLANT. A self -con- sisting of existing or new wall(s), doors, and /or windows. tained package or factory- matched packages which constitute THERMAL RESISTANCE, R- VALUE. The inverse of the • an automatically- operated assembly of integrated systems for time rate of heat flow through a body from one of its bounding generating useful electrical energy and recoverable thermal en- surfaces to the other for a unit temperature difference between ergy that is permanently connected and fixed in place. the two surfaces, under steady state conditions, per unit area STORM SEWER, DRAIN. A pipe used for conveying rain-(h • ft'- °F/Btu). water, surface water, subsurface water and similar liquid waste. THERMAL TRANSMITTANCE, U- FACTOR. The coeffi- cient of heat transmission (air to air) through a building enve- [B] STORY. That portion of a building included between the lope component or assembly, equal to the time rate of heat flow upper surface of a floor and the upper surface of the floor or per unit area and unit temperature difference between the warm roof next above. side and cold side air films (Btu /h • ft • °F). [B] STORY ABOVE GRADE. Any story having its finished TOWNHOUSE. A single - family dwelling unit constructed in floor surface entirely above grade, except that a basement shall a group of three or more attached units in which each unit ex- I be considered as a story above grade where the finished surface tends from foundation to roof and with open space on at least of the floor above the basement is: two sides. 1. More than 6 feet (1829 mm) above grade plane. Z. More than 6 feet (1829 mm) above the finished ground TRAP. A fitting, either separate or built into a fixture, that pro - level for more than 50 percent of the total building pe Fides a liquid seal to prevent the emission of sewer gases with - level rimeter. out materially affecting the flow of sewage or waste water through it. 3. More than 12 feet (3658 mm) above the finished ground level at any point. TRAP ARM. That portion of a fixture drain between a trap STRUCTURAL INSULATED PANELS (SIPS). Factory weir and the vent fitting. fabricated panels of solid core insulation with structural skins TRAP PRIMER. A device or system of piping to maintain a of oriented strand board (OSB) or plywood. water seal in a trap. typically installed where infrequent use of 2003 INTERNATIONAL RESIDENTIAL CODES 19