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BPI WRITTEN EXAM
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Section 1 Building Science Fundamentals
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1a. Basic Terms & Definitions
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1. Airflow in Buildings
2. Equipment Efficiencies
3. Power and Energy
4. Effective Leakage Area
5. Area Weighted R-Value
6. Baseload / Seasonal Energy Use
7. Driving Forces (Including Natural and Mechanical)
8. Behavior of Radiation
9. Thermal Resistance / Transmittance: R and U Values
10. Latent / Sensible Heat
11. Total Equivalent Length
12. Dehumidification / Humidification
13. Convert Pressure Units
14. Thermal Bridges
15. Pressure Boundary
16. Stack Effect
17. Exfiltration and Infiltration
18. Natural / Mechanical Ventilation
19. Net Free Area
20. Input & Output Capacity
21. Peak Electrical Demand
22. Permeability and Perm Rating
23. Standby Loss
24. IAQ (indoor air quality): Moisture, CO, Dust
1b. Principals of Energy, Air & Moisture Thermodynamics
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1. Thermodynamics: Conduction, Convection, Radiation, ΔT
2. Factors That Affect Insulation Performance
3. BPI certification online with BPI practice exams and study guides.
4. Heat Gain / Loss
5. Power and Energy
6. Moisture Transport Mechanisms
7. Identify Areas of Highest Relative Humidity
8. Principles of Combustion
1c. Combustion Safety
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1. Combustion Analysis
2. Carbon Monoxide (CO) Testing
3. Combustion Appliance Venting, Draft, Combustion Air & Sizing
4. Understand Combustion Safety Issues
Section 2 Buildings and Their Systems
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2a. Building Components
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1. Identify basic duct configurations and components
2. Identify Basic Hydronic Distribution Configurations and Components
3. Identify Basic Structural Components of Residential Construction
4. Thermal Boundaries and Insulation Applications
5. Basic Electrical Components and Safety Considerations
6. Basic Fuel Delivery Systems and Safety Considerations
7. Basic bulk water management components (drainage plumbing gutters sumps etc)
8. Vapor barriers/retarders
9. Radiant Barrier Principles and Installations
10. Understand Fenestration Types and Efficiencies
11. Understand Issues Involved With Basements, Crawlspaces, Slabs, Attics, Attached Garages, Interstitial Cavities, and Bypasses
12. Understand Issues Involved With Ventilation Equipment
13. Understand Basic Heating / Cooling Equipment Components Controls and Operation
14. Understand Basic DHW Equipment Components Controls and Operation
15. Identify Common Mechanical Safety Controls
16. Identify Insulation Types and R-Values
17. Understand Various Mechanical Ventilation Equipment and Strategies: Spot, ERV, HRV
2b. Conservation Strategies
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1. Appropriate Insulation Applications and Installation Based On Existing Conditions
2. Opportunity for ENERGY STAR Lighting and Appliances
3. Identify Duct Sealing Opportunities and Applications
4. Understand Importance of Air Leakage Control and Remediation Procedures
5. Blower Door-Guided Air Sealing Techniques
6. Water Conservation Devices and Strategies
7. Domestic Hot Water (DHW) Conservation Strategies
8. Heating & Cooling Efficiency Applications
9. Proper Use of Modeling to Determine Heating and Cooling Equipment Sizing and Appropriate Energy
10. Understand the Use of Utility History Analysis in Conservation Strategies
11. Appropriate Applications For Sealed Crawlspaces Basements and Attics
12. Identify / Understand High Density Cellulose
13. Appropriate Applications for Fenestration Upgrades Including Modification or Replacement
2c. Comprehensive Building Assessment Process
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1. Determine Areas of Customer Complaints / Concerns in Interview
2. Understand / Recognize Need For Conducting Appropriate Diagnostic Procedures
3. Interaction Between Mechanical Systems, Envelope Systems and Occupant Behavior
2d. Design Considerations
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1. Appropriate Insulation Applications Based On Existing Conditions
2. Understand Fire Codes as Necessary to Apply Home Performance in a Code-Approved Manner
3. Understand / Recognize Building Locations Where Opportunities for Retrofit Materials
4. Understand Climate Specific Concerns
5. Understand Indoor Environment Considerations for the Environmentally Sensitive
6. Understand Impact of Building Orientation, Landscape Drainage, and Grading
7. Opportunity Potential Renewable Energy Applications: Geothermal, Photovoltaic, Wind
8. Understand Impact of Shading on Heating / Cooling Loads
9. Awareness for Solar Gain Reduction / Solar Gain Opportunities
10. Understand Need for Modeling Various Options For Efficiency Upgrades
Section 3 Measurement & Verification of Building Performance
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Section 3a Measurement & Verification of Building Performance
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1. Air Leakage Test Results
2. Understand Building Shell / Envelope Leakage
3. Apply Fundamental Construction Mathematics and Unit Conversions
4. Calculate Building Tightness Levels (Minimum Ventilation Requirements)
5. Calculate Heating Degree Days and Cooling Degree Days
6. Identify Proper Appliance and Combustion Appliance Venting
7. Ventilation calculations and strategies
8. Proper methods for identifying / testing fuel leaks
9. Blower door setup, accurate measurement and interpretation of results
10. Combustion Appliance Zone (CAZ): depressurization, spillage, draft, Carbon Monoxide (ambient and flue)
11. Carbon Monoxide (CO) evaluation: ambient
12. Proper applications and use of temperature measuring devices
13. Pressure pan and room to room pressure diagnostics
14. Recognize contributing factors to comfort problems
15. Inspect for areas containing moisture or bulk water in undesirable locations
16. Understand and inspect for basic electric safety (e.g. frayed wires, open boxes, etc)
Section 4 BPI National Standards & Project Specifications
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1. Understand applicability content and intent of BPI National Standards – Do no harm, make buildings more healthy, comfortable, durable and energy efficient
2. Recognize need for a professional local/state/national codes evaluation
3. Be able to specify appropriate materials and processes needed for building performance projects
Section 5 Analyzing Buildings Systems
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1. Recognize need for air sealing measures and their impact on other building systems
2. Recognize need for mechanical equipment improvements
3. Understand blower door use for identifying critical air sealing areas
4. Apply blower door test results and Building Tightness Limit (minimum ventilation requirements) in development of improvement strategies
5. Using combustion analysis and safety testing results to develop appropriate recommendations
6. Determine appropriate method for assessing wall insulation levels
7. Equipment control strategies for maximizing occupant comfort and minimizing energy consumption
Section 6 Conduct and Communications
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6a. Conservation strategies
6b. Personal Safety & Work Practices
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1. Locations in which to identify indoor air quality issues
2. Material Safety Data Sheets
3. Isolation procedures for household pollutants
4. Practice building science within your limits of professional competency
5. Precautions when working around chemical biological and other potential hazards
6. Understand role and responsibilities of the building analyst professional
BPI FIELD EXAM
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How To Put The House Under Worst Case & CAZ
What's What? Pa, CFM, CFM50, CAZ, Draft, Room Pressure
What To Know In The Attic
What To Know In The House
BLOWER DOOR TEST
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Manometer Setup
BPI BUILDING ANALYST STANDARDS
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BPI Standards Decoded
ESSENTIALS
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