Improving the Energy Performance of Homes and Households Presented by: Allen Zimmerman, Professor The Ohio State University Wooster Campus and ATI students.

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Presentation transcript:

Improving the Energy Performance of Homes and Households Presented by: Allen Zimmerman, Professor The Ohio State University Wooster Campus and ATI students enrolled in the Construction Management Program

Typical Energy Use in Homes Residential energy use accounts for more than 20% of total energy consumption in the USA Appliances, Electronic Equipment, and Lighting Source: Energy Information Administration

Water Conservation

Low-flow & ultra-low-flow toilets & fixtures Efficient use of appliances Personal habits Landscaping options EPA WaterSense Program

Water Conservation Dual Flush ToiletsLow Flow Shower Head

Heated Water Energy Conservation House design & floor plans Water heater efficiency – EF Ratings Pipe insulation Temperature setting: 120°F Low-flow & ultra-low-flow fixtures Efficient use of appliances Personal habits EPA WaterSense Program

Heated Water Energy Conservation Pipe insulation

Heated Water Energy Conservation On Demand Water Heater Insulated Hot Water Tank

Heat Transfer Basics Conduction – Heat transfer through stationary building components – R values Convection – Heat transfer via moving air – Air leakage and controlled ventilation – Measured in air changes per hour or CFM – Blower door test Radiation – Heat transfer via electromagnetic radiation (EMR) – Of lesser importance, typically included with conduction

Heat Transfer Basics Conduction Convection Radiation

Heat Loss for a Typical House For a 2000 sq ft house with a natural gas furnace Annual heating requirement: 700 Therms (100 ft 3 ), $ _____ Annual AC requirement: 2600 KWH, $ _____

Heat Loss for a Well-Insulated, Tight & Properly Ventilated House For a 2000 sq ft house with a natural gas furnace Annual heating requirement: 235 Therms (100ft 3 ), $ _____ Annual AC requirement: 875 KWH, $ _____ Additional benefits: comfortable, safe, healthy, durable, and quiet

Moisture Transfer Through the Building Envelope (Via Vapor) Diffusion (5%): Water vapor transfer through materials. – Vapor retarders Air Transport (95%): Water vapor transfer via air leakage. – Air sealing Dew Point

Moisture Transfer Through the Building Envelope (Via Vapor) Representative Example – Per Heating Season

Thermal/Airtight Envelope (Shell) Design and Construction Importance of house size in energy conservation

Thermal/Airtight Envelope Design and Construction Insulation – Versus Air Barriers and Vapor Retarders – Types & Forms – Voids, Air Intrusion, Thermal Bridging – R value – Infrared (IR) Testing – Advanced Framing, Exterior Rigid Insulation, SIP, ICF

Insulation Defects tar.gov Thermal/Airtight Envelope Design and Construction

Air Sealing – Air Leakage – Versus Insulation and Vapor Retarders – Blower Door and IR Testing – Materials and Methods – Interior and Exterior – Taped Rigid Foam, Air Tight Drywall Approach, SIP, ICF, Spray Foam Controlled Ventilation – Build Tight, Ventilate Right

Thermal/Airtight Envelope Design and Construction

Controlled Ventilation Thermal/Airtight Envelope Design and Construction

Windows - Selection U-Factor: Reciprocal of R value *Measure of heat conductance Solar Heat Gain Coefficient: Values range between 0 – 1 *Higher values increase passive solar gain, lower values reduce air conditioning loads Visible Light Transmittance: Values range between 0 – 1 Air Leakage: Rated in units of CFM per sq ft of window area Energy Star Ratings Condensation Comfort

Windows - Selection

Windows – Location & Total Area Heat Loss (Winter) Heat Gain (Summer) Daylighting Solar Gain: Winter versus Summer Cross Ventilation Sound Control Safety Views Aesthetics Window Placement –Example: 40% South, 30% East, 20% West, 10% North Total Area – % of floor area

Windows – Location & Total Area

HVAC System Design and Equipment Selection Air Conditioning Contractors of America (ACCA) Manual J, Manual S, Manual D, & Manual T Right-sizing of Heating and Cooling Systems Furnaces - Annual Fuel Utilization Efficiency (AFUE) Air Conditioners - Seasonal Energy Efficiency Ratio (SEER) Heat Pumps - Heating Season Performance Factor (HSPF)or Coefficient of Performance (COP) Return Grills in Bedrooms, etc.

HVAC System Design and Equipment Selection

HVAC System Installation and Maintenance Sealed Ducts Insulated Ducts (Unconditioned Space) Programmable Thermostats High-Quality Filters Performance Testing Annual Maintenance

Sealed and Insulated Ducts HVAC System Installation and Maintenance

HVAC System Installation and Maintenance A. Leaky duct connections B. Leaky return ducts C. Furniture blocking registers D. Leaks at furnace and air filter slot and duct tape failures E. Fallen duct insulation F. Leaky supply ducts G. Kinks in ductwork restricting airflow Duct Defects

HVAC System Installation and Maintenance Unsealed vs. Sealed Ducts Places to Seal Ducts resourcecenter.pnl.gov

HVAC System Installation and Maintenance Performance Testing Programmable Thermostat

Conservation of Electricity Lighting – Selection – Efficient Use – Personal Habits – Energy Star

Compact Fluorescent Lamps (CFL) Conservation of Electricity

Light Emitting Diodes (LED) Conservation of Electricity

Motion Sensor Conservation of Electricity

Appliances – Selection – Efficient Use – Personal Habits – Energy Star

Conservation of Electricity

robert.accettura.com Conservation of Electricity

Electronic Equipment (Entertainment, Communications, etc.) – Selection – Efficient Use – Personal Habits – Standby (Vampire) Loads – Energy Star

Power Strip Conservation of Electricity

Home Heating Index (HHI) The annual heating load (BTU) divided by the floor area of the house (ft 2 ) and the heating degree days (HDD) for the locality. – Unit is BTU/ft 2 /HDD HHI Performance Ratings for Houses with Combustion Heat Sources: – Very Poor >10 – Poor – Moderate – Good – Very Good <2.5

Calculating Home Heating Index For a House with a Gas Furnace & Gas Water Heater – House Size (ft 2 ) – Heating Degree Days (HDD) – 1. Therms (100 ft 3 ) of Natural Gas used during the heating season (Oct-April) – 2. Therms of Gas required for water heating (use shoulder months as baseline) – 3. Therms of Gas required for space heating (subtract #2 from #1) – Convert therms in #3 to BTU – Calculate HHI: BTU/ft 2 /HDD

Home Electrical Energy Index (HEEI) Annual electrical consumption divided by the floor area of the house – Unit is KWH/ft 2 Representative values – Houses with gas furnaces & gas water heaters in Central Ohio: 4.4 – Houses with heat pumps & electric water heaters in Central Ohio: 9.3 – Houses with heat pumps & electric water heaters in Northern Ohio: 11.7 Data Source: Partnership for Advanced Technology in Housing

Notice Anything Unusual Or Extraordinary About This House?

Attributes of the House Shown in Previous Slides Comfortable Healthy Safe Durable Quiet Affordable and Energy Efficient!

Actual Measured Energy Performance All Electric Home (2165 ft² ) with Baseboard Electric Heat – Wayne County Home Heating Index (HHI) – 1.4 BTU/ ft²/ HDD (eight year average) Home Electrical Energy Index (HEEI) – 5.4 KWH/ ft² (seven year average)

Keys to Practical Energy-Efficient Homes Apply Building Science Plan, Design, Construct and Test Houses as a System