Ford F834 Posted March 17, 2021 Share Posted March 17, 2021 I did not know that Safari on my iPhone still had a limit on the number of tabs you can have open. Engineering my own house plans taught me that there is a limit... and that number is 500 open tabs š . What is maybe more impressive is that I didnāt particularly want to close any of them because they were all important and relevant! So if any of you have been wondering why I have been absent on the forum, this has been my distraction. With Garyās blessing I have decided to create this off-topic project thread for anyone who shares an interest in construction or is just curious what I am up to. Two years ago our plan was to purchase a geodesic dome kit. Then came a series of medical emergencies, job changes and loss, COVID, stock market/401K crash that would fund the house, and now a doubling of lumber prices. The domes, while efficient and beautiful, are out of reach. So I sat down with a pencil and graph paper to design and engineer my own house. I cannot begin to express how badly I underestimated the complexity of the design step, but I believe I am getting close. These drawings are rough and need refined on 18āx24ā drafting paper, but it at least provides a gist of the shape and layout: I had been planning on conventional wood frame construction through the design process, but the volatile and ever climbing lumber prices made me shop around. I believe I have settled on ICCF, a composite recycled form block made by a company in Peoria AZ. āThe Perfect Blockā is more expensive than wood in terms of materials, but it is at least a superior product for the money and the price gap is shrinking. They are fire proof, termite resistant, and 700% stronger against hurricanes and tornadoes. Yes, we get tornadoes here, pic below is from last summer near the Kingman airport. The labor is also greatly reduced, and is very DIY friendly, especially since I will be working by myself through most of it. The main thing I will have to contract out is the grout fill. Note this is NOT the white block ICF construction. Here is a video that shows a little bit about it: I am hoping to go down to the Phoenix area next week where the block company has a build going on that is set up to train potential buyers/builders. The technical engineer for the company also said he would set me up with an architectural engineer to review my plans and stamp them before submission to the county. I didnāt know I needed this, but since I have a load bearing wall that is taller than 10ā from the finished floor an engineerās stamp is required. The main criticism I have received on my design is the vented crawl space foundation. I guess this is the black sheep of foundations, but I do not want to walk around on an unforgiving slab in my home. It may seem minor, but my dadās wood shop is half slab and half crawl space. When you step from one side to the other you can feel it right away, and he says he hates working on the slab side as his joints hurt more and he fatigues more quickly. I concur and I want a floor with at least some life in it. The other issue is flash flooding. We are at the base of the black mountains, and while our parcel is not in a flood zone and we are very favorably located, heavy rain and overland water flow is a given from time to time. I want a slightly elevated floor! I will only be able to vent three sides of my crawl space, as I want to add a covered porch to shade the south wall and provide some outdoor living area. I want it to be the same height as the house floor but I donāt want it to be an elevated deck where some of the Mohave desertās unfriendly creatures could hang out under it. Code allows me to vent only three sides, and this is not a climate where humidity is a big issue. Speaking of humidity... I have also received some negative feedback on the swamp coolers. However, it is very hot here, and except for a brief monsoon season the heat is coupled with relative humidity that hovers around 10% so swamp cooling is cheap, effective, and tends to feel less harsh than refrigeration. The perfect blocks ~might sway me away from them though. The 8ā block is R-24 and the 10ā block is R-32. That does not tell the whole story, as there is a thermal mass multiplier, and they have no thermal bridging. It is like living inside a Yeti cooler. While I love our swamp coolers, they pump dust into the house at an insane rate, and they crust over with mineral build up rapidly. I go through a lot of pumps too. They evaporate upward of 75 gallons of water a day (each) and we haul our water. During monsoon weather they are useless, so I still need refrigeration either way. I donāt want to pay for refrigeration year round, but with the block construction it might not be as awful as I think. I am considering mini-splits for this, rather than a central duct. They are said to be less robust and harder to repair than conventional AC, but are more efficient and most are also designed to be heat pumps. Hopefully I will get some answers next week about the blocks. They look promising but if not, life will go on with 2x6 frame walls. Thanks to anyone reading my off-topic tangent and please pitch in with and ideas or feedback you might have on my plans... as now is the time to make changes if I need to! Our Septic went in last December and I cannot wait to start digging the footings š Ā Link to comment Share on other sites More sharing options...
Gary Lewis Posted March 17, 2021 Share Posted March 17, 2021 500 tabs! And I thought I was bad! Anyway, I like the design and I like the Perfect Block idea. It was impressive seeing that gal carry that block and put it in place. And then saw it with a hand saw. But they put rebar in the cavities and then run "grout" in that ties everything together? (I put grout in quotes as it looks more like cement.) So basically you are using the blocks both as a form as well as the insulation? So with an R32 you'd have basically the equivalent of 10" of fiberglass. But do you use the blocks to do the ceiling as well? If so, how do you get to the R38-49 that is recommended in the ceiling? As for cooling, I think I'd go refrigeration. Keeps the house cleaner, reduces your water carrying, and you don't have the crusties. Besides, with the heat pump capability you won't need another furnace. Link to comment Share on other sites More sharing options...
Ford F834 Posted March 17, 2021 Author Share Posted March 17, 2021 500 tabs! And I thought I was bad! Anyway, I like the design and I like the Perfect Block idea. It was impressive seeing that gal carry that block and put it in place. And then saw it with a hand saw. But they put rebar in the cavities and then run "grout" in that ties everything together? (I put grout in quotes as it looks more like cement.) So basically you are using the blocks both as a form as well as the insulation? So with an R32 you'd have basically the equivalent of 10" of fiberglass. But do you use the blocks to do the ceiling as well? If so, how do you get to the R38-49 that is recommended in the ceiling? As for cooling, I think I'd go refrigeration. Keeps the house cleaner, reduces your water carrying, and you don't have the crusties. Besides, with the heat pump capability you won't need another furnace. You have the right idea Gary, the blocks are a concrete form that creates a lattice work of 4āx6ā tubes on 12ā centers. Rebar is on 24ā centers with some extra at the corners and openings. It is possible to use blocks for the roof and create a house that is almost a fire brick. I wonāt be doing that, though, as you still need a wood framework to hold up the block while it is being placed and poured. The extra insulation would go in the wood part. We donāt have high wildfire threats here, so I donāt want the cost of that. My roof will be engineered I-joists that are 14ā tall. This will give me plenty of room for R-38 fiberglass and space left over to vent it. The only issue I have is the skylights in the dining area. The I-joists will be on 24ā centers and the 24ā skylights will interrupt air flow in those cells. My solution will be to perforate the I joist webs with some holes above and below the skylights so they can draw through the adjacent cells. The county plans examiner said he would accept this. There is no common attic space, and the joists span the full 26ā between walls so there is no internal load bearing from the roof. Again a lot of this is designed around being DIY friendly. I wonāt need a crane to lift the I-joists (my mom said she would come run the crank winch that they used to lift the I-joists for my dadās wood shop š. The tall vaulted ceiling is another passive approach to keeping the house cool in a hot climate. It works really well in my dadās shop. He has no cooling in it, yet is pretty comfortable all year long. Link to comment Share on other sites More sharing options...
ArdWrknTrk Posted March 18, 2021 Share Posted March 18, 2021 A few thoughts. Have you considered SIPS? They might not have the thermal mass of earth bag, adobe or rammed earth, they are tight, and mostly monolithic. Low RH means little chance that even the cheapest OSB skin will have a problem with H2O. Snakes,scorpions and Gila monsters definitely aren't getting through. You can spec them for floors too. Water for the swamp coolers is definitely a problem. It you don't see a well in the short term, then perhaps you should inquire about GSHP's. I do not know the temperature at depth in the desert SW. But as long as there is a differential you can parlay that into a 5x return on the energy you use to drive it. Sounds like you are not on firm footings far as the $$$, and I get that. Have you considered monolithic Ferro-cement domes? Even half buried to temper the fluctuations?Ā Link to comment Share on other sites More sharing options...
1986F150Six Posted March 18, 2021 Share Posted March 18, 2021 A few thoughts. Have you considered SIPS? They might not have the thermal mass of earth bag, adobe or rammed earth, they are tight, and mostly monolithic. Low RH means little chance that even the cheapest OSB skin will have a problem with H2O. Snakes,scorpions and Gila monsters definitely aren't getting through. You can spec them for floors too. Water for the swamp coolers is definitely a problem. It you don't see a well in the short term, then perhaps you should inquire about GSHP's. I do not know the temperature at depth in the desert SW. But as long as there is a differential you can parlay that into a 5x return on the energy you use to drive it. Sounds like you are not on firm footings far as the $$$, and I get that. Have you considered monolithic Ferro-cement domes? Even half buried to temper the fluctuations? It is always good to hear from you, Jonathan! Link to comment Share on other sites More sharing options...
Ford F834 Posted March 19, 2021 Author Share Posted March 19, 2021 A few thoughts. Have you considered SIPS? They might not have the thermal mass of earth bag, adobe or rammed earth, they are tight, and mostly monolithic. Low RH means little chance that even the cheapest OSB skin will have a problem with H2O. Snakes,scorpions and Gila monsters definitely aren't getting through. You can spec them for floors too. Water for the swamp coolers is definitely a problem. It you don't see a well in the short term, then perhaps you should inquire about GSHP's. I do not know the temperature at depth in the desert SW. But as long as there is a differential you can parlay that into a 5x return on the energy you use to drive it. Sounds like you are not on firm footings far as the $$$, and I get that. Have you considered monolithic Ferro-cement domes? Even half buried to temper the fluctuations? Thanks for the input Jim! I did look into SIPās but they seemed really expensive, and difficult to DIY. It appears that you pay a lot to have them custom fabricated for your exact design, and in most cases you need a crane to place them. I know any method can be done right or wrong, but i read that SIPās are prone to spectacular failures if not sealed just exactly right, and they are not great regarding termites and fire resistance. Mostly it was cost that made me pass them up. Back when I was looking at the wooden geodesic dome kits, I also looked at the monolithic cement domes. They are neat homes, but expensive and somewhat limited in size. To get a large number of square feet you pretty much need to conjoin two or more domes. The main thing is price. I need a design that I can save $ by doing as much of the labor myself as possible. I see alternative building methods described as ācomparableā to the cost of wood framing, but this is only true if you factor in the labor. As far as a well... I definitely want one! But here you are pretty much looking at a depth of 1,000ā+ and even that is sketchy regarding flow rate and water quality. Iām not quite willing to drop $15K to ātryā when we donāt yet have a proper house to live in. Many have done this and hit nothing more than damp sand. This will have to be another day. As far as GSHP, the water in our aquifers comes out very warm. I think I remember hearing 94*F? Our haul water isnāt straight out of the aquifer, but our first year here we went all summer without a working water heater! It wasnāt until October when showering became uncomfortable and I got around to replacing it. So Iām guessing that GSHP might do something for heating, but probably not for cooling. A partially buried design is a bit scary because of our flash flooding. We donāt get much rain here, but when we do it can come all at once and be very destructive! The blocks I am looking at have a lot of the best features shared with SIPās and ICF, as well as being ready as-is to apply stucco to the outside and plaster on the inside, or drywall if preferred. The only downsides I can really see are cost and inflexibility to remodel or add on later. After itās poured you pretty much have what you have. Link to comment Share on other sites More sharing options...
ArdWrknTrk Posted March 19, 2021 Share Posted March 19, 2021 Thanks for the input Jim! I did look into SIPās but they seemed really expensive, and difficult to DIY. It appears that you pay a lot to have them custom fabricated for your exact design, and in most cases you need a crane to place them. I know any method can be done right or wrong, but i read that SIPās are prone to spectacular failures if not sealed just exactly right, and they are not great regarding termites and fire resistance. Mostly it was cost that made me pass them up. Back when I was looking at the wooden geodesic dome kits, I also looked at the monolithic cement domes. They are neat homes, but expensive and somewhat limited in size. To get a large number of square feet you pretty much need to conjoin two or more domes. The main thing is price. I need a design that I can save $ by doing as much of the labor myself as possible. I see alternative building methods described as ācomparableā to the cost of wood framing, but this is only true if you factor in the labor. As far as a well... I definitely want one! But here you are pretty much looking at a depth of 1,000ā+ and even that is sketchy regarding flow rate and water quality. Iām not quite willing to drop $15K to ātryā when we donāt yet have a proper house to live in. Many have done this and hit nothing more than damp sand. This will have to be another day. As far as GSHP, the water in our aquifers comes out very warm. I think I remember hearing 94*F? Our haul water isnāt straight out of the aquifer, but our first year here we went all summer without a working water heater! It wasnāt until October when showering became uncomfortable and I got around to replacing it. So Iām guessing that GSHP might do something for heating, but probably not for cooling. A partially buried design is a bit scary because of our flash flooding. We donāt get much rain here, but when we do it can come all at once and be very destructive! The blocks I am looking at have a lot of the best features shared with SIPās and ICF, as well as being ready as-is to apply stucco to the outside and plaster on the inside, or drywall if preferred. The only downsides I can really see are cost and inflexibility to remodel or add on later. After itās poured you pretty much have what you have. Domes can be great at passive cooling but the odd shape and non-vertical walls make it challenging to furnish them and divide up space into rooms. Monolithic domes are just a swimming pool on its head. I'd think shotcrete construction would fare well in the desert if it had a layer of foam in the build-up. "Fluffernutter construction" And they don't have to be domes. That's just the way to enclose the most volume with the least material, because it is inherently strong like an egg shell. ICF's aren't without their problems. Had a hand in building one on the shore a few years back. While they are hurricane resistant, they can become waterlogged and are near impossible to dry out. Also, the one we built had wood floor framing. As it was multi storey and basements are common here. Hopefully things are progressing on those fronts, and I realize entirely different if your water table is 1,000' down. If you want to do the labor yourself and bonding plaster is a method you'd consider I'd think my first choice would be the ceramic foam blocks we see all over Europe. Cut them with a handsaw, stack and then grout rebar in place. There must be plenty of acceptance for stucco homes in the southwest. The tool to channel out for electrical runs is an upfront cost with one purpose, but you could sell it on after completion, and it is SO much easier than 'saw & chisel'. I understand the water quality problems with so much perc and all the alkaline salts, phosphates in the desert. Hopefully the superduty and big cistern will make water less of a chore.Ā Link to comment Share on other sites More sharing options...
Ford F834 Posted March 19, 2021 Author Share Posted March 19, 2021 Domes can be great at passive cooling but the odd shape and non-vertical walls make it challenging to furnish them and divide up space into rooms. Monolithic domes are just a swimming pool on its head. I'd think shotcrete construction would fare well in the desert if it had a layer of foam in the build-up. "Fluffernutter construction" And they don't have to be domes. That's just the way to enclose the most volume with the least material, because it is inherently strong like an egg shell. ICF's aren't without their problems. Had a hand in building one on the shore a few years back. While they are hurricane resistant, they can become waterlogged and are near impossible to dry out. Also, the one we built had wood floor framing. As it was multi storey and basements are common here. Hopefully things are progressing on those fronts, and I realize entirely different if your water table is 1,000' down. If you want to do the labor yourself and bonding plaster is a method you'd consider I'd think my first choice would be the ceramic foam blocks we see all over Europe. Cut them with a handsaw, stack and then grout rebar in place. There must be plenty of acceptance for stucco homes in the southwest. The tool to channel out for electrical runs is an upfront cost with one purpose, but you could sell it on after completion, and it is SO much easier than 'saw & chisel'. I understand the water quality problems with so much perc and all the alkaline salts, phosphates in the desert. Hopefully the superduty and big cistern will make water less of a chore. Jim, my friend Jan from Czech Republic tried to talk me into the aerated concrete blocks, but they are very rare and hard to find here (and expensive!). It is also not standard in the code books and must be designed by an engineer. I donāt know if you watched the video on the ICCF, but it is essentially identical to aerated concrete construction except that you have to pour in the voids similar to white block ICF. The blocks I want to use are 12āx48ā and 8ā thick. They weigh 43 lbs. you can cut them with a handsaw. Once built, you cut in the electrical channels and box cut outs with a cheap electric chainsaw and tack them into place with foam adhesive. The water quality from our county source is actually extremely good. I am surprised at the mineral build up because it has no salty or mineral taste out of the tap. The F-Superduty will really help bring down our net cost and reduce the time spent hauling. I still want a well since I love gardening, but the house is first! Link to comment Share on other sites More sharing options...
ArdWrknTrk Posted March 19, 2021 Share Posted March 19, 2021 Jim, my friend Jan from Czech Republic tried to talk me into the aerated concrete blocks, but they are very rare and hard to find here (and expensive!). It is also not standard in the code books and must be designed by an engineer. I donāt know if you watched the video on the ICCF, but it is essentially identical to aerated concrete construction except that you have to pour in the voids similar to white block ICF. The blocks I want to use are 12āx48ā and 8ā thick. They weigh 43 lbs. you can cut them with a handsaw. Once built, you cut in the electrical channels and box cut outs with a cheap electric chainsaw and tack them into place with foam adhesive. The water quality from our county source is actually extremely good. I am surprised at the mineral build up because it has no salty or mineral taste out of the tap. The F-Superduty will really help bring down our net cost and reduce the time spent hauling. I still want a well since I love gardening, but the house is first! Yep, it's the Poles and Ukrainian's I work with that laugh about "the cardboard houses in Amerika" who give me this idea. There are also thinset bonding blocks like Ytong. But surface bonding mortar tackles two tasks at once. I will a deeper look at those ICCF videos. I realize that it is a promotional video with crap production music that makes me want to stab my ear drums out with a pencil, but when I see idealized claims like "4,000 DEGREES!!!" and know that a simple propane torch is likely less than half that, it gets me thinking what other specious claims they're making.Ā Link to comment Share on other sites More sharing options...
Gary Lewis Posted March 19, 2021 Share Posted March 19, 2021 Domes can be great at passive cooling but the odd shape and non-vertical walls make it challenging to furnish them and divide up space into rooms. Monolithic domes are just a swimming pool on its head. I'd think shotcrete construction would fare well in the desert if it had a layer of foam in the build-up. "Fluffernutter construction" And they don't have to be domes. That's just the way to enclose the most volume with the least material, because it is inherently strong like an egg shell. ICF's aren't without their problems. Had a hand in building one on the shore a few years back. While they are hurricane resistant, they can become waterlogged and are near impossible to dry out. Also, the one we built had wood floor framing. As it was multi storey and basements are common here. Hopefully things are progressing on those fronts, and I realize entirely different if your water table is 1,000' down. If you want to do the labor yourself and bonding plaster is a method you'd consider I'd think my first choice would be the ceramic foam blocks we see all over Europe. Cut them with a handsaw, stack and then grout rebar in place. There must be plenty of acceptance for stucco homes in the southwest. The tool to channel out for electrical runs is an upfront cost with one purpose, but you could sell it on after completion, and it is SO much easier than 'saw & chisel'. I understand the water quality problems with so much perc and all the alkaline salts, phosphates in the desert. Hopefully the superduty and big cistern will make water less of a chore. Jonathan - You answered a question I was going to ask about electrical, and I assume, plumbing. Do you run conduit? And will you use PEX for the water? And since you'll be on a crawl space, I assume everything comes up from below? If so, how high did you say the crawl space is? How easy will it be to run things later or will you do it first and frame around it? Link to comment Share on other sites More sharing options...
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