|
|
|
|||||
| information | consulting | bookstore | seminars |
|
|||
  |
|||||||
| Home | About BSC and Services | BSC Team | Careers | Presentation Calendar | Recent Presentations | Contact Us | |||||||
|
|
||
|
Designs That Work
Cold Climate
The Basic House - Energy Analysis Overview
An energy analysis was done for the house plan to examine the energy consumption of the building. With any energy analysis a start point for comparison is required.
The Building America Benchmark Definition Version 2005 along with recent revisions was used as a template for performance evaluation between the advanced building system (Prototype) and the reference building system (Benchmark). The Benchmark Definition requires hourly building energy simulation.
The Building America Benchmark Protocol is generally consistent with mid 1990's house construction. As apposed to other rating performance systems, the Building America Benchmark includes not only heating, cooling and hot water, (which accounts for roughly 50% of total energy consumption of the home), but also energy consumption from lighting, appliances, and other miscellaneous loads.
The following table highlights the differences between the Building America Benchmark House design characteristics and the Prototype design characteristics that were incorporated into this house design.
| Benchmark | Prototype | |
| Building Enclosure | R-21, 16" oc + R-3 Sheathed Walls | R-19, 24" oc + R-5 Sheathed Walls |
| R-35 Roof Insulation | R-38 Attic, R-35 Cathedral Ceiling | |
| Low E Windows (U=0.39, SHGC=0.32) | Low E Windows (U=0.33, SHGC=0.28) | |
| R-15 Basement Insulation | R-10 Walls on Conditioned Basement | |
| BM Airtightness (~5"/100 sf) | BSC BA Airtightness (2.5 ins/100 sf) | |
| Mechanical | 78% AFUE Gas Furnace | 92% AFUE Gas Furnace |
| R-5 Ducts, 15% Leakage | Ducts in conditioned space | |
| 0.54 EF Gas Tank Hot Water | 0.82 EF Tankless Hot Water Heater | |
| ASHRAE 62.2 Exhaust Fan | ASHRAE 62.2 Ventilation by FanCycler | |
| Appliances and Lights | Incandescent Lighting | Fluorescent Lighting |
| Regular Appliances | ENERGY STAR Appliances |
The simulation program used to run the energy model was EnergyGaugeUSA version 2.42 from the Florida Solar Energy Center.
The areas of consideration fall under three main categories, the Building Enclosure, Mechanical Systems, and Appliances and Lights. A parametric whole house energy analysis was done for the case study house design to illustrate the relative importance of the upgrade strategies in each of the three main areas.
The case study model design achieved a whole house 38.6% energy reduction when compared to the Building America Benchmark.
Table 1: Parametric Analysis Results
Note that the estimated cost of change column is a net change, giving credit back for the replaced components. For example, the Benchmark mechanical system includes standard duct installation, standard efficiency heat pump, and hot water heater. Crediting the standard system, the high efficiency system with more air tight ducting and higher efficiency water heater would add $1000 over the cost of the standard equipment.
Figure 4: Total Source Energy Consumption Reduction Graph
On the basis of BTU/sf/yr of site energy, the above calculations yield the following:
Figure 5: Building Section
 |
 |
| Drainage |
Air Barrier |
 |
 |
| Vapor Management | Thermal Resistance |
|
|
| Copyright © 1999- Building Science Corporation | Conditions of Use | Contact Us | Sign Up for Our E-Newsletter |