Technology in Architecture

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Presentation transcript:

Technology in Architecture Lecture 15 Waste & Vent Systems Waste & Vent Sizing Procedure

Waste & Vent Systems

Fundamentals Siphon action can drain water Trap blocks sewer gas Vent breaks siphon M: p. 1006, F.22.8

Air Gaps Eliminate the potential for cross contamination M: p. 1009, F.22.11

Bathroom Design Considerations ADA compliance ANSI Standard A117.1 1986 Wheel chair access Grab bars Counter top/fixture heights Visual privacy Acoustical privacy

Vents and Stacks Circuit vents Soil stack Vent stack Stack vent Note: Drain fittings are 45º Individual vents Circuit vents Soil stack Vent stack Stack vent “Wet stack” Vent through roof (VTR) M: p. 1008, F.22.10

Drains & Sewers House sewer Storm drain Clean outs House traps Note: Drain fittings are 45º House drain House sewer Storm drain Clean outs House traps Fresh air inlet M: p. 1007, F.22.9

Waste & Vent Sizing Procedure

1. Identify waste & soil locations Clusters are more efficient M: p. 1014, F.22.17

2. Layout system vertically & horizontally Grouped fixtures can be stacked in a vertical riser M: p. 1027, F.22.31

3. Size Traps Trap size is used when connecting to main M: p. 1017, T.22.2

4. Calculate Drainage Fixture Units (DFU) Pipe sizes based on DFU M: p. 1017, T.22.2.2

5. Determine loads Fixture location may control size M: p. 1022,

6. Determine slope and size of horizontal drains Slope may be constrained by depth of floor cavity M: p. 1020, T.22.5

7. Verify maximum vent length Measured from plans M: p. 1022, F.22.24

8. Size vents according to DFU and length Calculate for each vent load and developed length M: p. 1019, T.22.4

9. Verify space requirements and adjust design Common adjustments “Wet” walls  6” cavity Slope and ceiling exposure Cleanout access