Monday, September 05, 2005

Week 6

VERNACULAR RESPOSES TO ENVIRONMENTS

What sort of issues were raised in the last two lectures by byron lamont and peter little that could colour the way you look at the built environment?

Cities are warmer due to surfaces (concrete etc) absorbing the heat...trees should be planted to reduce the overall temperature.

In suburbia, the avergae block size in decreaing, but the average house souze in increasing. The average house size has increased from 150m2 to todays average of 230m2, while the occupancy rate has decreased from 2.5 to 2.3 persons. This means that there are more buildings and less land-space for vegetation, causing problems like incresed temperatures and CO2 levels.

Aim:
To examine principles and the 'know-how' of vernacular architecture (builders of the past).

Definition of Vernacular Architecture:
- Anonymous, indigenous, naive, primitive, locally based.
- Maximises the use of local materials and skill through trial and error.

http://www.natcap.org is a publicaation about sustainability in all areas of architecture.

Principles of Vernacular Design:
- The structures are highly efficient
- They are only constructed to meet demand
- They are durable and versatile
- The structures were thermally comfortable with the minimum use of energy
- There was little differentiation between rich and poor dwellings.

In Perth city, the average office building life-span is 25 years, meaning buildings are not constructed to be adabtable or long-term...severly wasting resources and energy in the name of modernisation.

Polar Climates

Igloos:
- blocks of ice were a readily available resource used for insultion.
- the tunnels were created to enter through so the interior was protected from the elements, and it was low down so that no heat was lost.
- it was possible to invcrease the interior temperature by around 20 DegC.

Arctic Climates

Yurts:
- easily constructed and mobile.
- protected from wind with a 'chimney'-like structure so a fire could be built in the centre of the building and used for warmth.
- skins were used for insulation on the exterior.

Cold mountainous Climates

Northern Norway
- used readily available rocks as the building material.

- rooves were made steep enough to have fast water run-off but sloped shallowly enough so snow collected in the very cold months, and insulated the building.
Tibet
- the building material was small enough to cart up the side of the mountain
- were built into the side of the mountain that was exposed to the sun the most, to gain as much solar heat as possible.
- the ground was used as a termperature stabiliser.

Desert

Loyang, Northern China
- Built into the ground to stabilise indoor temperatures.
- They had to adapt to the lack of trees for shelter or heating (firewood).
Siwa, Egypt
- made use of the sand and soil for the building construction, not only temperature regulation.
North Africa & Pueblo, New Mexico
- the building material was the very reily available clay
- they were designed with flat rooves to absorb the sun's heat (whilst sheilding the interior), which could then be used to sleep on at night when the rooves were still warm.

Warm/Cold Temperature Climates

Cave Dwellers:
4th Century Majishan cave station
- easily securable, minimal entrances to the complex
- similar to the tibettan houses where they are located with the entrance facing the sun for maximum warmth in winter.
Goreme Cones, Southern Turkey & Pantialica, Sicily
- used ropes made from local flora as transportation from one dwelling to another.
- were up to 18 stories high

Truli Houses, Southern Italy & Santorini, Italy
- performed by the same principles as cave dwellings...
- faced the sun, built on mountain sides etc
Danish houses
- very steep roves for fast water run-off, reducing rotting.
- rooves were made from readily available straw hatching which also proved very useful for insulation.
Hyderabad, West pakistan
- Tilted rooves at the top of a tower to direct the regular afternoon breeze down the tower, past clloing waterbags and down into the dwellings below.

Hot and Humid

- the dwellings were airy and spacious
- lifted off the ground to increase circulation under the building
- completely shaded from the sun wherever possible.

Summary:
Different buildings formed from people understanding their clumate and the resources avilable to them.

If Sustainability was to become an integral part of design rpinciples, how would construction change?

http://www.strawbalefutures.org.uk/pdf/strawbale guide.pdf

Tuesday, August 30, 2005

Mental Landscape

As much as I'd like to write a wonderful submission saying how this reading relates to society...I think I'd have a bit of trouble as I believe it is quite irrellevant in today's society. By saying that there isn't enough space in the world for the human race to have separate 'resident' and 'explorer' personalities, i think is completely missing the point. As a baseline, there is no way that the entire world is going to change their way of living...even slowly by altering today's design methods to become more ecologically sustainable. So even the suggestion of transforming our way of living or transportation to the 'outdoor living room' from older european cities is similar to comparing Stone-henge with a modern piece of sculpture: their reasons for existance and context were so far apart they had no relevance other than what could be interpereted to fit a certain agenda.
They lived like they did due to lack of transportation and lived in small communities because communication was very limited so they could walk down the street and bump into people they knoew, whereas the chances of having cities or any type of even remotely similar set-ups in today's socity where people bumped into each other and knew them is so far from likely i don't believe it's even worth the thought.
Because technology is such a prevalent part of today's socity, and it itself is so fast moving, i don't believe it is possible to map out how society should be, because by the time it is able to be put into effect society will have, once again, changed so considerably it will be ineffective. As an example; the way we mix different areas of our life (in response to the idea of having the 'jekyl' completely separate from the 'hyde') is becoming more and more based on technology and so many different areas of our lives are being integrated. mobiles mean we are contactable by work 24/7, or vice versa, by family at work or wherever we are, we can do the washing while dinner is cooking, and also you can have an automated vaccuum cleaner and the creepy crawly looking after cleaning, the hot water heats itself, and we have all the information on the latest news, weather forecasts and celebrity updates as well as our shopping online at the click of a button (or two). There is no longer that distincltion of 'resident' and 'explorer' possible; as things in our daily life become easier, we do not get lazier, life just gets busier and we fit more things in (for the average person that is....granted, there are those who do simply become fat and lazy.)
And the idea of 'combining' motorists with residents by building a village is not successful, it is more nullifying the motorist and making them fit in with the resident, which i believe is ineffective and defeats the reason for the motorist.
I think that instead of creating idealistic lifestyles we should find changes we can make to our own, using methods that are plausable and understandable in the average person's eyes.

Wednesday, August 24, 2005

Week 4

The amount of risk involved in life determins the majority of our actions.

Trees transpire and use up heat, unlike air-conditioning which simply re-located the heat out of a certain area.

The standard household should be able to store 95,000L of water to be self-sufficient with water supply.

This equates to around 260L a day.

18-26 DegC is the perfect living temperature.

The average temperature of soil beneath the surface of earth is 21.6 DegC.

Trees can process 20 tonnes of dust per hectare.

You should always understand the history and make-up of soil before you build on it.

If you moitor wind, it is possible to yield a better crop when growing organic crops.

The catchment area covered by your roof can be put to use by planting useful fauna around the run-off areas so that the rain nourishes these plants, and isn't wasted.

Saturday, August 20, 2005

Tree Planting

My vehicle (according to the www.menofthetrees.com.au ... a site recommended to us by one of the organisers on our tree planting expedition) produces around 5,500 kgs of Carbon Dioxide emissions each year. To absorb these emissions, I must plant 35 trees that will grow for around 30 years.

If the average lifespan of an australian is 85 years, we each will need to plant around 2975 trees that will grow for 30 years to cover our life's production of C02 emissions. On our tree planting expedition, i probably planted around 40 trees...which means I only need to plant 2935 more!

Tuesday, August 16, 2005

Week 3



Photosynthesis converts water + carbon dioxide to oxygen and an organic substance.
Photosynthesis also requires additional nutrients (such as magnesium).


Efficency of converting light into dry matter varies...

Ecosystem Productivity


Perrennial crop
Annual Crop
Evergreen Forest
Deciduous Forest
3-8 kgs dry matter/m2/year
2-3 kgs dry matter/m2/year
2 kgs dry matter/m2/year
1.5 kgs dry matter/m2/year



Perspiration, decomposition and combustion.

Special Environmental features of WA... (North to Monkey Mia, South to Esperance)
- mediterranean climate: mild, wet winter; Hot, dry summer.
- unique flora and fauna with unusual biology
-> highly susceptible to invasive pests and Diseases
- Extremely impoverished soils, highly saline lowlands (ancient landscape)
- fire prone: exploited by aborigines
- low elevation: no mountains
- rivers dry up in summer
- unpredictable: droughts/floods etc

Challenges for european farmers in australia...
- crop failures: infertile soils, low productivity due to rabbits, roos, droughts, salinty.
- stock losses: aboriginal hunting, poisoning, dingoes, drought, flooding.
- property losses: fire, cyclones.

Ecological consequences...
- 90% of the wheatbelt was cleared killing off over 90 plant species
- wind erosion destroys topsoil
- weed invasion
- crops not adequately using soil, therefore rising water table levels.

Ecological consequences of clearing native vegetation for agriculture...
- reduced rainfall
- increased salinity
- increased wind and water erosion

Smaller sized plants in crops do not reduce the wate table as large trees do, resulting in salinity etc.

Friday, August 12, 2005

Ecological Footprint

In my past post on readings..."The Precautionary Principle", I said that I didn't think government systems were taking the time to assess precautionary measures in regard to ecological sustainability. However, it seems there is a way that is being adopted by Australian state governments which without being a direct precautionary measure, addresses sustainability. An Ecological footprint is a physical way of measuring society's resource consumption rate. This weeks reading stated that "the State Government has recently committed to developing an Ecological Footprint account for South Australia's a priority action for the South Australian State Strategic Plan." This shows that Australian Governments are beginning to realise that sustainability is a problem that needs addressing, even if it isn't a problem here and now. It is a problem that is best avoided at all costs because the ramifications are unknown and could be catastrophic in later generations.
One major issue i think we should be addressing with regard to ecological footpints is the situation in china. A good description of them I heard recently was a 'black hole". I think that if their ecological footprint was calculated they would be using a considerable amount more than other societies, purely due to the severly large population they support. And with the economy unstable under the influence of oil production being stilted from the cyclone in south america, I think it will be interesting to see how severly it affects our way of life as we know it.

Tuesday, August 09, 2005

Week 2

1987 Report of the world commission on environment and devlopment.

"Our Common Future"

Development that could meet present needs without compromising the existance of future generations.

Ecological Footprint
The amount of productive land and water to produce all the resources consumed and absorb all waste generated using prevailing technology.

Australia's global Ha usage is 7.7Ha per person.

References:
Wright, R 2004 A Short History of Progress, House of Anansi Press Inc., Toronto.