The Not so Blank Slate

22 07 2008

To have a truly thermally stable house, you must have a lot of thermal mass, that is heavy material like concrete, inside the building. Thermal mass has the unique ability of soaking up heat, and storing it a long time. Just as black bitumen roads get very hot in the sun, and remain so long after sunset. Therefore I had no choice but to build on a slab, and do so across the natural slope…. not easy.

To achieve this, I had to split the house down its middle, with the two floors 1200mm apart (about 4 feet) and build 6 steps to gain access between them. This is a bit of a compromise, but then what house isn’t?

The middle photo shows the slab shortly after pouring, including the step down and the bay where the steps now reside.  To add even more thermal mass, quite a few internal walls were built of concrete blocks, and core filled with yet more concrete.  In all there are some 150 tonnes of concrete in this house, and whilst I realise there is a high environmental price to pay for such heavy material, the energy savings are so great that it will pay for itself in a matter of fifty years.  Compare that to the usual brick veneereal disasters built every day around you which have just as much embodied energy in their materials, but then require considerable air conditioning energy to maintain comfort for the house’s entire life…

Notice how the high block walls which form the ‘ends’ of the building have no windows at all?  That’s because you cannot adequately control sunlight on the East and West sides, and with a long narrow house like this, enough light is available from windows that only face South and North, North being the important side (or rather the side facing the equator to universalise the concept).

Foundations like these didn’t come cheaply, but then just look at that gorgeous view… and then consider that when we have a frost outside (it went down to -6 deg C last winter!) we were still nice and cosy with no heating at all.  And last summer when the temperature hit 43 deg C, it hardly went over 30 inside.  And I hasten to add the house is still not finished, many gaps still needing to be filled to disallow entry of hot and cold air on extreme days.

In winter the sun shines into the house all day long and heats up the thermal mass which acts as a heater overnight keeping the temperature around 20 degrees oe more until the sun comes up the next morning.

In summer. the sun never enters the house, but any heat coming in through windows is soaked up by the concrete keeping the house cool.  At night the heat is vented out the clerestory windows.

The photo at right is what it all looks like finished.




One response

9 07 2010

I live in a concrete house, with a corrugated metal roof, but it didn’t have such good internal temperature control. However, the house does not have much insulation on the inside, and the airflow isn’t as good also. All entry points are not well-sealed / glazed.

By the way, talking about solar designs, I follow and they had this interesting design for heating water (which could then be used in any kind of way); the premise is simply to use solar collectors as shade providers as well by making them look better. I think this is a great idea! In fact, I think this could easily be home made using some of the same principles as the other solar collector designs on the blog.



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