Search The Oil Drum with Google
Recently on TOD:World
TOD:Local
- Streets: Utilitarian Corridors or Livable Public Space
- Summer Streets a Success!
- Plan for Hydro-Fracture Drilling for Unconventional Natural Gas in Upstate New York
TOD:Europe
- Oilwatch Monthly - November 2008
- The 2008 IEA WEO - Production Decline Rates
- The EU Strategic Energy Review: maybe not so depressing after all
TOD:Canada
- The Round-Up: October 24, 2008
- Compressed Air Energy Storage - How viable is it?
- Oil Megaproject Update (July 2008)
TOD:ANZ
Blogroll
Energy Sites
- The Coming Global Oil Crisis
- Die Off
- Dry Dipstick
- Energy Bulletin
- From the Wilderness
- Life After the Oil Crash
- Peak Oil Crisis
- Peak Oil News and Message Boards
- Powerswitch
- Rigzone
- Matthew Simmons
- Wolf at the Door
Environment & Sustainability Sites
- The Daily Green
- EcoGeek
- Eco Street
- Green Car Congress
- Green Options
- green.alltop.com
- Gristmill
- RealClimate
- Sustainablog
- Treehugger
- WorldChanging
Blogs
- The Big Picture
- Casaubon's Book
- Cleantech Blog
- Clusterf
k Nation (Jim Kunstler) - The Cost of Energy
- David Strahan
- The Energy Blog
- Entropy Production
- European Tribune
- GraphOilology
- jeffvail.net
- Mobjectivist
- Peak Energy (Australia)
- Peak Energy (USA)
- R-Squared
- Resource Insights
Finance & Economics Blogs
- Calculated Risk
- Ecological Economics
- Econbrowser
- Environmental Economics
- Infectious Greed
- The Mess That Greenspan Made
- Mish's Global Economic Trend Analysis
Organizations
“The aim of every political constitution is, or ought to be, first to obtain for rulers men who possess most wisdom to discern, and most virtue to pursue, the common good of the society; and in the next place, to take the most effectual precautions for keeping them virtuous whilst they continue to hold their public trust.”
—James Madison, FEDERALIST #57 (1787)
User login
Contact
- Content: editors at theoildrum dot com
- Tech support: support at theoildrum dot com
Personnel
- Editors: Prof. Goose, Heading Out, Stuart Staniford, Nate Hagens
- DrumBeat Editor: Leanan
- Contributors: ace, Engineer-Poet, Gail the Actuary, jeffvail, JoulesBurn, Khebab, Robert Rapier
- TOD:Local: Glenn
- TOD:Europe: Chris Vernon, Euan Mearns, Francois Cellier, Jerome a Paris, Luís de Sousa, Rembrandt, Rune Likvern, Ugo Bardi
- TOD:Canada: benk, Libelle
- TOD:ANZ: Big Gav, Phil Hart, aeldric
- Technician: Super G
License
This work is licensed under a Creative Commons Attribution-Share Alike 3.0 United States License.
GAIA Host Collective
Not making houses out of wood would be a great start to making them more efficent and better insulated. Brick and concrete is much more efficent and has way less maintanice. They cool better in the summer, and maintain their heat in the winter as well as stand up to the elements better. Clay/adobe(sp?) is also very good and last's a long time. Cost's a little more to construct, but in the long haul it pays off many times over I'm sure. I'd say hire a group to do surveys of efficency in differnt areas, and design building codes that reflec what would be most energy efficent in that area.
You have a good point about cars, especially enviromentaly when it comes to their batterys. It'd be neat to see someone bring to market and car, say a 4 passenger vehicle, that was enclosed, but also pedal powered (and single person vehicles like this, i'd ride by bike all winter, but the cold gets to me too much). I'd think you could get a pretty light carbon fiber frame that could seat 4, have pedals, and could do 35 miles per hour with 3 or 4 peole pedaling. Electric for lazy people, or people who simply can't pedal or even to back up the pedaling, but mostly pedal for us folk that actually enjoy working out while getting from point A to B.
I think a high rise appartment/condo that was constructed well would be an awesome place to live. I know some of the college dorms in Ames, IA are completly constructed with concrete (the floors and the walls) and then you can't hear your neighbors and it gives you real privacy. I think a nice big tall high rise that was basicly set in a the middle of a field w/ a nice park where the tennants worked the garden would be fabulous. You could take an area of an entire suburb, have light rail train out to the skirts of the fields for people to work and i think that would be a great way to use land. Have the buildings all connected with light rail also, have the buildings say about every 2 miles appart.
I just think localized power seems to make sense, you wouldn't have 50 million people all lose power at once.
Subsidize the creation of wind farms. i live in the midwest, and it blows my mind (pun intended) that wind is not used more. Hydrogen storage could use the excess power to make hydrogen for peak times and for days its not so windy. I think the hydrogen storage should be local also. I think it'd be neat if power basicly worked like the internet, have node stations that all feed and work together to provide fault tolerance.
ofcourse, I have no idea how we go about tearing everything down and re-building, but in my 'post peak positive dream', this is how i'd like to see it.
Wrong!
First, concrete really stinks as an insulator. Concrete gets 0.08 R/inch. Compare this with fiberglass batt at 3.14 R/inch. Brick is even worse than concrete. (Numbers come from http://coloradoenergy.org/procorner/stuff/r-values.htm).
Second, concrete and brick have large embodied energies compared to wood products. (Numbers at http://www.greenhouse.gov.au/yourhome/technical/fs31.htm.)
I participate in a couple of mailing lists that focus on natural, green, and straw-bale construction. Much of the discussion at those sites is on minimizing concrete use because of its massive embodied energy.
Concrete and brick have their places in construction (footings, basement walls) and there are new concrete products (like autoclaved concrete foam) that are really interesting, but conventional concrete is definitely not a good replacement to wood as it is used in conventional north-american homes.
I'd be a concret shell, but the inside wall on the living space would not be concrete.
That would not be more efficent than wood? And last a whole lot longer?
By contrast, there are 200-year-old wood houses that are still in great shape.
As far as light bulbs: Most of the non-dimmed lights in my house are fluorescent. When dimmable fluorescents or LED's become available, I'll gladly switch to them. I have looked, and even with Google and Ebay, they're near-impossible to find; I'd have to buy a 12-pack for $150 or something like that.
Dimmable CFLs currently don't work that well based on the one I purchased. On top of that, they are $13 each.
Concrete in housing will last longer than concrete that is subjected to the stress of being part of the road system.
Some of the most environmentally fundamentalist straw-bale and natural home builders (ie. my friends) still use concrete but only for footings. Even then, they often use rubble (field stone, miscellaneous rock, recycled pieces of concrete) to minimize the amount of new concrete they use. But as a footing material, concrete is hard to beat.
Seriously, you really don't need a concrete slab for a home. A well done earth floor is beautiful, functional, has a low environmental impact, and inexpensive. You can even insulate an earth floor (underneath and on the sides) to use it for passive heat-storage or passive cooling, not to mention active heating.
And concrete isn't necessarily as long-lived as you might think. Like all building materials, improperly used, installed, or maintained, it's rather short-lived.
A concrete slab with tubes for water heating on 0,2 - 0,3 m (8-12") layer of plastic foam.
The floor heating uses low water temperatures with is favorable for a heat pump or deep cycling of a heat accumulation tank connected to a wood or pellet boiler.
Walls made of wooden framework with crossed beams to avoid heat leakage thru the wood, insulated with 0,2 - 0,25 m (8-10") mineral or glass wool giving a u-value of about 0,22.
Two or three pane often argon filled and IR-surface treated windows with a u-value of about 1.3, summer cottages etc often use old style two pane windows with u-value 2.5.
And below the roof very often about 0,5 m of loose fiber isulation.
The most popular ventilation system is to have a fan sucking out air and most often a heat pump to recover the energy in the ventialtion air and heat hot water with it and take some of the general heating load. Fresh air is sucked in thru vents in most rooms, it is often combined with old style radiators. I suspect that ballanced mechanical ventilation with a heat exchanger will get more common since they use much less electricity.
Most new small houses have 1 or 1,5 floors and cellars have become uncommon since they are a little to expensive to build. The living area is usually between 110-200 m2. (1200 - 2100 square feet? )
The current main heating systems for small houses are with VERY rough
numbers:
Direct electricity 40% (shrinking fast)
Heat pumps 23% (growing fast)
Oil 9% (shrinking fast)
District heating 9% (growing)
Wood and wood pellets 18% (growing fast)
The abnormal ammount of electric heating is due to overinvestment in nuclear power during the 70:s and 80:s giving a long lasting dumping of cheap electricity. This is ending now due to increasd onsumption and export to other european countries.
Air conditioning is uncommon but is becomming more popular, mostly as a feature on air-air heat pumps for heating during spring, autumn and not so cold winter days.
The achilles heel is the electrical heating and electrical water circulation. The heavy concrete floor stores enough heat for about 24h during cold winter days before the house freezes. Long lasting grid breakdowns during cold spells is the most likely major disaster. The building standard has been driven by a wish for comfort and energy efficiency. Comfort is important since people have invested to have the houses comfortable during very cold -20 C (-4 F) days when most of the winter is more like -5 C ( 25 F) (Varies between locations. )
(I hope I got all the "funny units" right)
How do this compare to new built housing in different parts of USA?
State code in Oregon requires as a minimum: (R = 1/U)
Walls R-21 via 2x6 walls
Ceilings R-38
Floors R-25
Windows U-0.40
There might be additional codes for each city.
The State encourages building or renovating a house beyond the minimums specified. They also provide tax incentives to add solar hot water, solar PV and/or wind if appropriate.
The radiant floor system you mention is becoming somewhat more popular, but still a novelty.
The majority of houses are wood framed. 2300 sqft average? (but you see lots of the 3000+ sqft on 5000 sqft lots)
Some of the 3-5 story multi-family bldgs are using steel instead of wood.
Heating is mainly electrical, with older houses using oil and usually converted to natural gas (also prevalent in new homes as well).
There is only one district heating system I know of in the state.
There has recently been some downward trends in insulation thickness, house customers have to keep asking for thick insulation or the house builders build with less to get better margins or a lower price. I suspect one of the limiting factors are the banks, they often include the running cost in the calculation on giving a loan or not and they know that a better built house is worth more to them if their customer defaults.
It would seem easier to level a tax at the state or local level.
For a given level of lumens, no more than X watts can be used. Above that threshold the tax kicks in. And have the tax increase every two years making it more expensive to purchase lighting that doesn't meet the lumens/watt requirement.
Use the money to assist low-income households switch their lighting to CFLs, LEDs or whatever the next lighting tech is.