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AB114 -2 LEED ®- ing Your Project Into the Green Revolution

AB114 -2 LEED ®- ing Your Project Into the Green Revolution. Nick Bower, Assoc. AIA Advanced Solutions, Inc. – Technical Engineer. Presentation Agenda . Introduction and Background. After this course you will be able to: Describe the LEED EQc8.1 Daylight Credit

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AB114 -2 LEED ®- ing Your Project Into the Green Revolution

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  1. AB114 -2LEED®-ing Your Project Into theGreen Revolution Nick Bower, Assoc. AIA Advanced Solutions, Inc. – Technical Engineer

  2. Presentation Agenda

  3. Introduction and Background • After this course you will be able to: • Describe the LEED EQc8.1 Daylight Credit • Understand how Glazing Factors (GF) are calculated • Predict how the sun’s position affects glazing • Explain how the building can be analyzed in Green Building Studio and the IES Sustainability Toolkit • About the Speaker Nick Bower, a graduate of Ohio State University with a Bachelor of Science in Architecture, serves as a Technical Engineer for Advanced Solutions, Inc. with a focus on the Autodesk® Revit® Architecture and Navisworks® Manage software solutions. After graduating from Ohio State University, Mr. Bower worked in the residential design field. As a Technical Engineer for Advanced Solutions, Inc., Mr. Bower has many tasks and responsibilities, including the analysis of software solutions and the implementation of vertical base software solutions.

  4. LEED EQc8.1 Overview • 2 Sides to the Story • Prescriptive • 75% of Spaces = Ratio Requirement • 0.15 < VLT x WFR > 0.18 • Manual Calculation • Schedules • Revit Architecture / MEP • Simulation • Min 75% of Spaces = 25fc • Computer Model Analysis • Weather Data • Ecotect, GBS, IES <VE>

  5. LEED EQc8.1 Overview • Prescriptive Option Thoughts • Separate Analysis Model? • Curtain Systems or Windows? • Credit Metrics • VLT = Visible Light Transmittance • WFR = Window to Floor Ratio • Glazing Factor (GF) = VLT x WFR • Rooms = 0.15 > (GF) > 0.18

  6. LEED EQc8.1 Overview • Prescriptive Option Tips • Set up Schedules in Revit • Maximize Data Available • Create Calculated Values • Analyze the Data • Change the Design • Rinse and Repeat as Desired

  7. Achieving LEED EQc8.1 with Revit Architecture • General Model Info • Small Conceptual Model • Approximately 13,100SF • 16 Classrooms (Primary Learning) • 8 Shared Offices (Counted) • Corridors, Stairwells, Etc. (Not Counted) • Schedules Created: • Master Window Schedule • Master Room Schedule • EQc8.1 Specific Window Schedule • EQc8.1 Specific Room Schedule

  8. Achieving LEED EQc8.1 with Revit Architecture • EQc8.1 Specific Window Schedule • Parameters Added • Width • Height • Head Height • Sill Height • Project Parameter Created • Room Association • Calculated Values • Actual Window Area • Adjusted Sill Height • Adjusted Window Area Width x Height if(Sill Height < 2' 6", 2' 6", Sill Height) (Head Height - Adjusted Sill Height) * Width

  9. Achieving LEED EQc8.1 with Revit Architecture • EQc8.1 Specific Room Schedule • Parameters Added • Number, Area, Level • Project Parameters Created • Regularly Occupied Space • Window Area • VLT (Visible Light Transmittance) • Calculated Values Created • WA to FA • Glazing Factor • Applicable SF Window Area / Area WA to FA * VLT if(and(Glazing Factor < 0.18, Glazing Factor > 0.15), Area, 0 SF)

  10. Achieving LEED EQc8.1 with Revit Architecture • Understanding the Results • Total Regularly Occupied Area • 8,856SF • Total Applicable Area • 4,025SF • Area Meeting Glazing Factor • 45.4% 0.306 WFR * 0.3 VLT = 0.092GF Does Not Qualify 0.417 WFR * 0.7 VLT = 0.334GF Does Not Qualify

  11. Achieving LEED EQc8.1 with Revit Architecture SOLUTION?

  12. Achieving LEED EQc8.1 with Revit Architecture • Option 1 • Rooms 109-112 & 209-212 • Decreased SF to 24SF 0.238 WFR * 0.7 VLT = 0.167GF Qualifies • Updated Results • Total Regularly Occupied Area • 8,856SF • Total Applicable Area • 4,831SF 0.238 WFR * 0.7 VLT = 0.167GF Qualifies

  13. Achieving LEED EQc8.1 with Revit Architecture DOES THIS OPTION RECEIVE THE CREDIT? NO WHY? HOW MANY CREDITS? 75% of Reg. Occ. Spaces = 0 pts 75% of Core Learning = 0 pts 90% of Core Learning =0 pts 95% of Core Learning = 0 pts* Total0 pts* 4,831 / 8,856 = 54.5% * 95% Daylighting may be eligible for Exemplary Performance Credit

  14. Achieving LEED EQc8.1 with Revit Architecture • Option 2 • Rooms 201-208 • Increased VLT to 0.55 • Rooms 209-214 • Decreased SF to 22SF • Updated Results • Total Regularly Occupied Area • 8,856SF • Total Applicable Area • 8,453SF 0.306 WFR * 0.55 VLT = 0.168GF Qualifies 0.218 WFR * 0.7 VLT = 0.153GF Qualifies

  15. Achieving LEED EQc8.1 with Revit Architecture DOES THIS OPTION RECEIVE THE CREDIT? YES WHY? HOW MANY CREDITS? 75% of Reg. Occ. Spaces = 1 pt 75% of Core Learning = 1 pt 90% of Core Learning =1 pt 95% of Core Learning = 1 pt* Total4 pts* 8,453 / 8,856 = 95.4% * 95% Daylighting may be eligible for Exemplary Performance Credit

  16. LEED EQc8.1 Overview • 2 Sides to the Story • Prescriptive • 75% of Spaces = Ratio Requirement • 0.15 < VLT x WFR > 0.18 • Manual Calculation • Schedules • Revit Architecture / MEP • Simulation • Min 75% of Spaces = 25fc • Computer Model Analysis • Weather Data • Ecotect, GBS, IES <VE>

  17. LEED EQc8.1 Overview • Simulation Thoughts and Tips • Utilize the Proper Tools for the Job • Create a Building Information Model • Work Early in the Design Process (SD) • Set the Model Requirements • Maximize Glazing and VLT • Utilize Passive Design Techniques • Simulation Tools for Discussion • Autodesk Ecotect Analysis 2010 • Autodesk Green Building Studio • Integrated Environmental Solutions

  18. Ecotect Analysis 2010 • Controlling Shadows and Time of Day • Quickly Show Shadows for the Equinox • Efficiently Determine Shaded Surfaces

  19. Ecotect Analysis 2010 • Utilizing Solar Rays • Tag Several Objects as a Solar Reflector • Test Window Configurations & Solar Shades

  20. Ecotect Analysis 2010 • Utilizing Solar Rays • Determine Light Shelf Depths • Example 1 • 1’-0” Light Shelves March 21 – 12:00 September 21 – 12:00 December 21 – 12:00

  21. Ecotect Analysis 2010 • Utilizing Solar Rays • Determine Light Shelf Depths • Example 2 • 3’-0” Light Shelves March 21 – 12:00 September 21 – 12:00 December 21 – 12:00

  22. Ecotect Analysis 2010 • Material Assignments • Controls Material Properties • Sets: • VLT • Reflectivity

  23. Ecotect Analysis 2010 • Grid Analysis • Set up Grid 30” Above Floor • Visualize the Analysis Grid in Plan / Perspective

  24. Ecotect Analysis 2010 • Grid Analysis • Create 3D Analysis Grids • Run Analysis for any Day of the Year • Display Averages and Point by Point Footcandles

  25. Ecotect Analysis 2010 • Grid Analysis • Option 1 • VLT = .55 • Reflectivity = .737 • Low Ray-Tracing • Uniform Sky • March 21 @ 9:00am

  26. Ecotect Analysis 2010 • Grid Analysis • Option 2 • VLT = .85 • Reflectivity = .737 • Low Ray-Tracing • Uniform Sky • March 21 @ 9:00am

  27. Creating Light Studieswith Ecotect Analysis WHO CARES?

  28. Green Building Studio • General Thoughts • Revit MEP vs. Revit Architecture • Room vs. Spaces • Web-based Interface • User Settings Are Vital • Project Location is Very Important • Only Calculates LEED v2.2 • Calculations done for you!

  29. Green Building Studio • Set up the Project • www.greenbuildingstudio.com • Create Multiple Projects • Use Real-World Locations • Set Project Defaults

  30. Green Building Studio • User Settings • Set the North/Non-North Glazing • Limited Types • Choose Closest Type

  31. Green Building Studio • Upload the Model • Using Revit MEP? • Use Spaces • Set Space Types • Using Revit Architecture? • Use Room • CAN’T Set Room Types • Upload the Model from Revit • Run Multiple Iterations

  32. Green Building Studio • Analyze the Results • Determine if the Project Passes • Analyze Individual Rooms • Make Design Changes and Re-run

  33. IES <VE> Sustainability Toolkit • Overview • Multi-Analysis Tool • LEED EQc8.1 (2009 & 2.2) • Add-On to Revit Architecture & MEP • Intuitive • Run Multiple Iterations

  34. IES <VE> Sustainability Toolkit • Set up the Analysis • Create gbXML Automatically in Revit • Set Space/Room Types & Location • Choose the LEED Analysis • Exclude Non-Occupied Spaces • Run the Analysis

  35. IES <VE> Sustainability Toolkit • Analyze the Results • View Room by Room Results • Average Footcandle Level • Average Daylight Factor

  36. IES <VE> Sustainability Toolkit • Final IES Thoughts • IES <VE> is a stand alone solution • GAIA for LEED • Faster Analysis Results

  37. Final Thoughts

  38. Questions?

  39. Please Complete Class Survey at KioskEnter to win a free pass for AU 2010

  40. Thank younbower@advsolinc.com

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