Looking Through Windows — Part 5

first_imgSmall changes in the SHGC matterWhich gets to what I call the importance of “two-decimal place accuracy” on window performance specifications.This table (Window Comparison) compares the performance specifications for the four windows we seriously considered for EdgewaterHaus. Look at the SHGC for the triple-pane windows, which range from a low of 0.5 for the standard Unilux glazing to a high of 0.64 for the Thermotech. That’s a spread of only 0.14. How can such a tiny change in heat gain have much of an impact, you ask? I was just as puzzled.So here’s a simple summary of Marc Rosenbaum’s PHPP heat-load analysis that compares the net heat flux for all Unilux windows within the building envelope (e.g., it excludes windows in the garage and three-season room). Net heat flux is the average annual solar heat gain during the day for our geographic location less the heat loss in the evening. All numbers are positive, signifying that the windows admit more solar gain than they lose (Passivhaus buildings rely on windows to heat the home, so this should not be surprising):7,716 KBTU/year using Unilux 0.5 SHGC windows prior to the above changes.10,075 KBTU/year with the above changes but retaining 0.5 SHGC windows.14,817 KBTU/year with the above changes, including the higher 0.61 SHGC glazing on main floor south facing windows, standard 0.5 SHGC on all other windows.The benefit of higher SHGC glass outweighs the slightly poorer glazing U-factors. For the Unilux windows, the high-SHGC glass has a U-factor of 0.109, while the standard glass has a U-factor of 0.088 (lower U-factors indicate better peformance). That’s because the higher SHGC allows more heat to enter than the poorer U-factor loses.The table also suggests why the Pella Proline windows which we previously considered and liked so much fared so poorly in the PHPP analysis. Pella offers a much less competitive SHGC of 0.0558 AND poor U-factor of 0.171Although both Pella and Unilux are wood-framed windows, the Unilux window incorporates a proprietary thermal break within the wood core (see the photo above) of the frame and sash, substantially improving the U-factor compared to the Pella window. The first article in this series was Kicking the Tires on a Passivhaus Project. Roger Normand’s construction blog is called EdgewaterHaus. We need R-118 insulation and more south-facing glassSo how did we get to the 4.74 KBTU/sq. ft./year? There were a few enhancements to the building envelope and a concerted effort fine-tuning the windows.To improve the overall building thermal performance, our architect, Chris Briley, added more south-facing glass and reduced the roof overhang above these windows to eliminate any winter shading. Chris assures us that the vegetative trellis he has designed along the south facade will preclude overheating in the summer. (Don’t architects guarantee the integrity of all aspects of their design?) The vegetation will die in the winter, allowing full sun to enter the home.Marc Rosenbaum then added 10 inches of cellulose insulation, raising the ceiling R-value from R-76 to — gasp — R-118.But Chris had to literally stumble onto two key changes to the Unilux windows, overcoming initial “no can do” from the Hancock team: specifying (1) “direct glazing” and (2) optional higher SHGC glazing.Normally two adjacent windows each have their own frames and sash surrounding the glazing. But sashes at ~ R-1 have a much lower insulating value than does the triple-pane glazing at R-5 or higher. Direct glazing allows a single sash to hold two adjacent pieces of glazing. Eliminating one sash between two abutting windows means more higher performing glass, less poorly insulating sash, and thus better overall performance for the entire window assembly.The Hancock Unilux team initially said that direct glazing was not possible. Kudos to Chris for his persistence in getting confirmation from Unilux that direct glazing was indeed possible and beneficial. [Editor’s note: Roger and Lynn Normand are building a [no-glossary]Passivhaus[/no-glossary] in Maine. This is the ninth article in a series that will follow their project from planning through construction.]Strike up the band: we have – finally – achieved the Passivhaus standard with Unilux windows!Marc Rosenbaum, our energy consultant, ran the Passive House Planning Package (PHPP) energy modeling software and arrived at a heat load of 4.74 KBTU/sq. ft./year, a mere 0.01 below the 4.75 limit. Talk about a photo-finish squeaker!Yes, being just 0.01 below the limit is too close for comfort. Marc has entered several PHPP assumptions that, upon review by a still-to-be determined independent Passive House certifier, may be modified or disallowed. I will discuss in a future blog additional steps we can consider to further lower the annual heat load and provide flexibility for the certification review. Still, we are very pleased that the EdgewaterHaus design is sufficiently robust to meet the Passive House heat load standard, which is much harder to attain in a northern climate than the primary energy criteria. An arm and a legWondering whether these Unilux windows are expensive? With its exquisitely engineered high-tech framing, heavy-gauge aluminum exterior cladding, interior stained wood, triple-pane glazing with optional (read more costly) high SHGC glazing that still manages to easily open and close on robust door quality hinges, the answer is unequivocally “yes.”At a cost of $113 per square foot of glazing, that is just short of outrageous, and seriously challenges our checkbook. We could save perhaps $20,000 by going with triple-pane Thermotech Fiberglass or Schüco windows. We would get equivalent performance, at least initially. But having examined the Thermotech and Schüco windows very closely, I am certain we would not get the long term durability, nor the esthetic beauty of the Unilux windows.It’s a shame that the technical skills of the local Unilux distributor are not on par with the premium Unilux window they are selling. Hopefully, Hancock Lumber is now be better informed to help future clients. The Unilux sales brochure boldly proclaims that the window we selected, the UltraTherm 3, “exceeds the Passive House standard.” So when we first saw the window and liked it very much, we figured it would easily meet our needs for EdgewaterHaus. After three tortuous months of fitting and fine-tuning these windows to our situation, I can offer a qualified “Yes, but…”We failed to notice an early clue of the challenge ahead: notwithstanding the Unilux claim, the UltraTherm 3 window does NOT carry a Passivhaus certificate like the Schüco window we also considered. (The Passivhaus Institut in Germany tests and certifies certain products like windows and heat-recovery ventilators on their suitability for use in Passivhaus buildings.) Certified products feature exceptional energy performance, making it easier for a designer to select key building components to attain the Passivhaus standard. (But only if the designer can read German! You see, the Passivhaus Institut and the Passive House Institute U.S. have been so busy feuding with each other that neither has taken the time or effort to offer users an English translation for certified products!) Hmm.center_img Are the windows Passivhaus-certified?A Passivhaus building relies on the sun as the primary engine to heat the house. South-facing windows play a critical role. Today’s blog explores why using Unilux windows has been so challenging, and how changes of just one tenth or even a few hundredths of a percent in window performance specifications, changes seemingly so minute that they would appear to be inconsequential except in judging the performance of an Olympic athlete, yield significant energy performance consequences. RELATED ARTICLES Window woesAdding to the challenge was the poor technical support we have received from Hancock Lumber, the local distributor for Unilux windows. Following my previous blog on “window woes,” we met with the president of Hancock Lumber to discuss our concerns about the firm’s lack of technical product knowledge and lengthy turnaround times, but unfortunately that meeting has not led to a discernible improvement.We have had 10 repricings on windows over some four months, most of which I believe could have been avoided if the Hancock team were true salespeople who grasped what our needs were and had the depth of product knowledge to recommend what Unilux configuration would best serve our purposes.To this day, I don’t believe the Hancock window team realizes that it’s not just about sizing glass to fit into a wall opening, but engineering a high-performance window solution to heat a home. Is high-solar-gain glazing available?Similarly, Chris had to ask why Unilux could not provide higher SHGC glass like that offered by some of their competitors. (Note: the Solar Heat Gain Coefficient measures how much solar gain penetrates the windows. A high SHGC allows more of the solar radiant heat to pass through the glass into the house. A high SHGC is desirable for northern climates, while a low SHGC is better for southern climates where cooling is more important than heating.) Remember that a Passivhaus building is designed to use south-facing windows as the primary heat source for the home.Of all the adjustments that were made, specifying higher 0.61 SHGC glass vs. the Unilux-supplied 0.5 had the greatest impact on building performance; yes, more important than even the U-factor or the 10 inches of additional cellulose insulation in the ceiling.Higher SHGC is not a standard Unilux option, but Unilux was willing to obtain and install this glazing in our windows. I find it surprising that a premium European window manufacturer like Unilux does not include high-SHGC glazings in its repertoire. Kicking the Tires on a Passivhaus ProjectGoodbye Radiant FloorSelecting a General ContractorPlans and Pricing for Our House in MaineLooking Through Windows — Part 1Looking Through Windows — Part 2Looking Through Windows — Part 3Looking Through Windows — Part 4Looking Through Windows — Part 6Looking Through Windows — Part 7last_img

Leave a Reply

Your email address will not be published. Required fields are marked *