Give Her Walls

August 31, 2010 by Joey Conover

Here are a bunch of photos raising a first floor wall. I thought some of you might like to see a bit more detail on how we frame up a wall with no panelization (we built these on site) or cranes. Note that we are using 2×4 framing on this house as the homeowner wanted to maintain as much interior width as possible, as we are very limited on space. The lot is 30′. With 5′ setbacks on each side and an extra 6″ on each side for siding and error, we were left with 19′ wide on the exterior dimension.

Apart from one house built of SIPs (Structural Insulated Panels), we have stuck with stick framing in general as it allows us to control scheduling and reduce over-framing that is common with off-site build panels (excess material leads to increased thermal breakage). With blown cellulose insulation, open-cell blown foam in all the joists and band boards, and 1″ of rigid foam on the exterior of the OSB sheathing, we will be able to get the house extremely tight and have an R-value of 18.5.

On this job, we (actually, Airflow) are also installing a geothermal system (ground- vs air-source heat pump). We are excited that the client found the tax credits and potential energy savings sufficient to make this choice, as it is our first. I will get some photos up here, as they will have to drill vertical cores on the tight City lot. Luckily, there is an alley in back for access.

Project: Hinton Avenue · Tags: , , , · Leave a comment

Cable Me

June 23, 2009 by Jeff Erkelens

So.  We love that cable rail. We love metal, we love horizontal lines, we love the simplicity of the look.  Honestly, I also think part of it’s allure is you actually don’t see it that much in the flesh. You see it a lot in magazines, some in commercial buildings, so I find people really want to reach out and grab it when they see it in a house.

Did I mention that it can be used as a musical instrument? Tom knows how to play both the theme to Jeopardy and The Facts of Life.  I know how to play the first part of the theme to Jaws.  The part where the shark is coming.

So, we were honestly a little timid when it first came to the cable rail thing.  Mainly because of price as the proprietary systems cost a fortune.  We have to thank Moriah for making it seem easy as he turned us on to a method of doing it with material right off the shelf of Lowes.  Since then, we’ve trolled the internet and our currently spending our time at e-rigging.com (cable and ferrules) and mutualscrew.com (You have a dirty mind! That’s where we are getting the turnbuckles and eye hooks).

So here’s the system:  One end you have a small eye-hook. You thread a cable through that and create a loop that is crimped with two ferrules. The first ferrule is what locks the two cables together. The second ferrule is cosmetic and is what caps the wire off as you run it maybe only halfway through the ferrule.  You could get away with one ferrule, but you should really take the extra time to crimp carefully. Then, the wire runs along and at the other end you make another loop with two ferrules that runs through the eye end of a 4″ turnbuckle. The jaw end of the turnbuckle runs through another small eye hook. We are complete.

So, obviously the big difference is that the proprietary systems are much more streamlined: The rail at one end slips into a small tube that is anchored to the post and has small little allen screws digging into the wire to lock it in to place. The other end has another little tube scenario that swivel up a threaded rod to get taut.  Ours has more components and is a bit more chunky.  But, if done right, looks great.

A few keys to success:

Take the time to really cut all the wires exactly the same length and to crimp all the ferrules in the same place, so that the loops are all the same.  Take the time to make sure that when you put on the turnbuckles, they are slack to the same degree. That way when you add tension, all the components line up over each other and it doesn’t distract the eye.

Spend twelve bucks and buy a portable drill press attachment for your cordless drill cause you are not free handing all those posts. Except if you trying to recreate the album cover to whatever Joy Division record that is.

Code says no 4″ ball can ever pass through it.  So that means not spacing your cable more than 3 1/2″ apart tops. For, if you can put your hand in between two cables and flex it such that the cable moves to get that 4″ gap, you fail. And, you would have to add a crazy amount of tension to not make those cables move much.  So, give yourself some breathing room.

If you’re inside, it’s all super cheap as you can get all aluminum zinc plated.  If you’re outside, you got to not skimp. Go with stainless steal over galvanized, particularly for the wire as that will rust pretty easily.

Project: Rockland Avenue · Tags: , , · Leave a comment

the kitchen…

June 5, 2009 by Jeff Erkelens

Kitchen is coming together. I feel like I waxed on about the design a little to heavy in a previous post, so thought I would stick to some practical construction aspects of actually building the thing.

So, I had this vision of the stainless base cabinets with the butcher countertop contrasted with grey concrete counter and wood cabinets for island. Had the kitchen layout and sizing designed.  Framed up the house, plumbing and electrical were in place, drywall, paint ect. Time came to run the Ikea gauntlet. Found out at the store that the stainless cabinets only come in a few select sizes. I was able to rework some things on the fly, but they don’t make a stainless corner cabinet, which I had to have. It’s a 2 hour drive up there and I needed to come home with some cabinets. Sheeeeeeit (Clay Davis style)

A lot of terrible solutions came to mind like reversing the kitchen where the stainless and butcher would be the island. But, I saw the island as the place where the magic happens and really wanted a surface that you could put hot pots on or roll out pie crusts and not be a pain in the ass to clean.

Anyway, bought the stainless and bought a white corner cabinet and figured I’d come up with something.  Long story short, bought some 4′ x 8′ sheets of brushed stainless steel via the internet and worked with the awesome folks at Martin Roofing and sheet metal.  They bent some pieces to clad the corner cabinet along with bending some stainless for my backsplash. Also, Ikea doesn’t make a stainless toe kick. I didn’t want to leave it open and create a fantastic home for crumbs and dust, so made some stainless toe kicks as well. It’s a nice touch.

Another thing I like is the the little ledge shelf that it’s in the kitchen. Great place to put herbs, vases, whatever. That comes from my idea of wanting to use 4′ superior walls, but instead of building a floor on top and having a crawl space, we would pour a slab inside (that way the slab is encased in insulation and protected from the elements) and stack regular 8′ walls on top of the foundation.  That way when you step down into the slab, you’ve got 12′ ceilings. By stacking 2 x6 walls on a 11″ foundation, you are left with this great opportunity. So, the ledge shelf detail carries around the dining room and the living room. My personal motto: always need to have a place to set your g & t in case you need to gesture wildly. 

For the shelf we actually used stair treads that had yet to be cut for steps and were 16′ long. That way they were a really good grade and had a nice rounded nose on the front.

I also really dig the lights. You have to see it in person as they are all different heights and it’s pretty dramatic. I like it because it gives the feel of dropping the ceiling and making the kitchen feel more intimate.

Thinking about the ceiling (you can see the plywood ceiling in one of the photos): It’s a mosaic of 16″ wide by 8′ long pieces that I really like the look of. A little thing I’m proud of: We ripped 4′ wide pieces into thirds on the table saw (made a ton of sawdust for Jesse’s chickens as I recall). We made three separate piles that way each sheet of plywood being ripped in third would be in a separate stack. Then, when we installed it, we pulled from one stack completely before moving onto the next. That way we got a ton of variation and contrast between pieces and never put two of the same pieces next to each other. These are the things I enjoy thinking about.

Also plugged in the fridge. Ice cold lemonade from here on out.

Project: Rockland Avenue · Tags: , · 1 Comment

Concrete Countertops

May 11, 2009 by Jeff Erkelens

Kitchen is starting to come together. We have a fairly large kitchen island that we decided to pour a concrete top for. It’s been a few years since we’ve gotten to do one, so it was exciting to go through the process.  Of course, I say this before having to lift it off the floor into place.

Like most people that have done a diy concrete countertop, I just  bought Fu Tu Chengs Concrete Countertops and followed the instructions. This was pretty easy as there were no sink cut outs or anything fancy.

I just love the texture and tone of finished concrete. It’s such a great material as it take the form of whatever you use to make your mold out of. We used melamine board, which is perfectly smooth, so hopefully when we flip it the top will be completely smooth to the touch.

The only thing I’ve really come up on my own is how to vibrate the concrete to get out any air pockets and voids. They sell mini portable concrete vibrating snakes, but their really expensive. So, I just use a palm sander with no sanding pad and put a plastic bag over the concrete so it doesn’t get on the sander.

I’d like to think I’ve made a lot of progress in terms of thinking about passive solar design on this house. Besides the window orientation, great insulation and large roof overhangs, we have gone with a concrete floor on the first floor as a way to capture that solar gain in the winter time, such that it can be released at night.  In the kitchen, we have a large south facing window, but the combination of the height of the window and the cabinets in the kitchen will probably prevent a lot of the sun from striking the floor.

Now, I’m not just saying this as I actually believe the concrete countertop is large enough and properly placed to actually capture heat from the sun and radiate heat.

Project: Rockland Avenue · Tags: , , , , · Leave a comment

Moving Indoors

April 1, 2009 by Jeff Erkelens

For us, it’s always a milestone when we can pack up the scaffolding and haul it away from the job site. It was a beautiful day to wrap up the siding on Monday. Today it rained and we worked on mosaic tile in the bathrooms.

Quickly on the siding: I’d have to say one of the most important things to me is building a house that will last and will require minimal maintenance.  We keep evolving and improving, but I’m really happy with the exterior trim detailing for this reason.

Besides using a prepainted hardiplank that has the paint baked on for maximum durability, we’ve moved away from any sort of painted trim on the corners, fascia, soffit ect. All the trim is galvalume that we get bent specifically for the house. I like the lines it creates and I also like the bursts of cedar that add some warmth.

The big thing to note is that we put all the siding on firring strips. We started doing this just with porch ledgers as I had read and witnessed how that starts to block water running down and rot away. So, by getting the siding off the house with an air gap it just gives me tremendous peace of mind that no moisture is going to collect leading to mold or rot.

One happy accident we learned is that the hardiplank actually warms a lot in the sun and heats up that air gap behind the siding creating a process of convection. So, we’ve started leaving a little gap at the top for the hot air to escape.

I’m a little hesitant to show a picture of the front of the house as it is missing the front porch, which we have to wait to build until after final grade. I think the porch will add a lot of dimension to the front elevation and tie a bunch of elements together.

Project: Rockland Avenue · Tags: , , · Leave a comment

Foamed in

March 29, 2009 by Jeff Erkelens

Well, Weatherseal Insulation Company just spent the last two days spray foaming, caulking, and firestopping the house in anticipation of drywall. So, I thought I would take a second to talk about the various insulation strategies used in the house.

First off, let’s start with the biggest limitation: this house is a traditional wood framed house. When people think about insulation, they generally think about what’s in between the studs (fiberglass, cellulose, foam, ect), but not actually the studs themselves. For instance, a 2×4 stud wall can have an r value of 13 for the insulation, but the studs themselves have only an r value of about 4. Cumulatively, all those studs are like a big hole in your house.

So, there are great technologies out there, if installed properly, that don’t give you that thermal breakage. We just finished a S.I.P framed house (which is foam sandwiched between osb on the inside and outside). There is also thermasteel panels, superior walls and ICFs among other options.

But, again, we did not use any of these options for the simple reason of cost.  I hope as these there options gain more and more market share, the cost will come down, but it still can be a little prohibitive.  The SIP manufactures make the pitch that it is about the same cost, for the extra material cost is covered by how much you save in labor costs. But, honestly, I build relatively small houses, and the three of us have become pretty efficient in framing up a house.

Anyway, to counteract this limitation, we do a bunch of things: One is to wrap the entire exterior in 1/2″ rigid foam board, which acts kind of like a blanket over the entire house and doubles the r value of all those studs.

Another thing we do is value framing techniques, which I feel most builders around here are pretty hip to these days. I took all these pictures to show what that means, but I think I’m going to hold back on posting them as this post is probably dry and boring enough.

But, in a nutshell, it means limiting the amount of wood in the exterior wall as much as possible to increase the whole house r value of the house. Some of the strategies weuse include ladder blocking, stacked framing, 24″ on center stud spacing, insulated headers, minimized cripples, one stud corners. Again, thankfully, a lot of builders have made this the norm. 

Another consequential item when it comes to framing is that we are building are roof systems out of manufactured wood i joists (tjis). These have the same profile of a steel I joist, in which you have  a top and bottom wide flange separated by a long narrow vertical member. In the case of the TJIs, the vertical member is only a 1/2″ thick meaning the roof system has an extremely low level of thermal breakage when you spray all the foam in there.

As far as actual insulation, we have been using an open cell foam spray foam for the walls and roof. While the idea of recycled newspapers (cellulose), or recycled blue jeans (demim batt insulation) sounds cool, I just don’t think you can beat the performance of foam. Anecdotaly, our experience is the difference is night and day. Basically, spray foam expands and hardens and fills every crack and void to make an air impermeable barrier. Cellulose or fiberglass works by trapping and slowing air movement.

The only other thing to add on the foam is that not all foams are the same. To be honest, I’m still trying to increase my awareness, but we have been using a polyurethane foam rather than a polyiso as it has a much higher r value per inch.  The big thing is it maintains it’s air barrier, vapor barrier and r value properties over time. For example, celullose can settle leaving holes up top.

The product claims it is made sustainably made from renewable resources, but if you dig deeper, only about 20% is renewable (namely vegetable oil), so it seems like there is room to grow in that regard. Another reason we have switched to 2×6 walls instead of 2×4 is that we don’t have to spray the whole 2×6 wall cavity with foam to get an extremely high performance house. (Basically a 5.5″ thick wall is only 2 percent more effective than a 3.5″ thick wall at heat flow reduction). The upshot is if properly installed there should be no waste if done right. However, in a 2×4 wall, they have to overspray and then trim back the foam flush meaning you end up with all these garbage bags full of extra foam. Honestly, we did a house where this technique was used and the installer probably left with 20 garbage bags of trash, which is extremely disheartening.

When it comes to indoor air quality, I do know the foam contains zero formaldehyde, cfcs, hcfcs, hydrocarbons, or penta bde. Also, the one material I use when building a house and that most builders use is the OSB sheathing (the chip board stuff that goes on top of the studs and give shear strength) and honestly, I just think that stuff really off gases. But, by sealing in the wall cavaties with foam it should stop any offgassing to the inside of the house.

I’ll try and write a post about indoor air quality at some point, but we have a bunch of strategies to maintain a healthy house.

Alright, running out of steam. Really quickly: The Weatherseal company has had superb attention to detail on my houses, including caulking any piece of framing that touches one another as well as where framing touches the ceiling and floor to prevent air infiltration. To some extent, this is redundant in my system with the exterior taped foam board, but it’s nice insurance.

We are also using high performance low e-4 Andersen windows. The only bad thing I have to say has nothing to do with the performance but that the exterior is vinyl, which in terms of the manufacturing process, is pretty bad for the environment. Contrast that with Pella, Marvin, Jeldwen, Loewen which are all wood aluminum clad. My only defense is that I bought all the windows from two separate builders that screwed up their order (wrong color), so  I see it as effective reuse.

Lastly, the first floor has a concrete slab in order to capture, store and emit heat collected from the sun as were trying to do more and more with each house with passive heating and cooling strategies. The big thing to say about that is that concrete will slowly leach the heat. So, even though the slab is at at minimum 18″ below ground already and the exterior of the slab is completely insulated, we laid 2″ rigid foam board under the entire the slab.

The other big heat loss for concrete slabs is around the perimiter.  To solve this, we used the Superior Wall XI foundation system (www.superiorwallsva.com) around the perimiter of the house.  This precast concrete foundation has 2″ of rigid foam imbedded into it.  We then poured the non loadbearing concrete slab inside of that, avoiding any heat loss. The other bonus of this foundation system is that it is wider than our walls and is 3’6″ off the concrete floor. So, we plan on building  a little ledge on top of it around the 1st floor, which will be a great place to set drinks down or maybe have small sculptural pieces of art.

 

I think that’s it for about now. More power to you if you actually read all this. Hopefully, moderately coherent.

Cheers, Jeff

Project: Rockland Avenue · Tags: , , , , , , , · Leave a comment