Showing posts with label Northern River. Show all posts
Showing posts with label Northern River. Show all posts

Monday, 19 February 2024

That Australia faces rising air, land & sea surface temperatures is a situation that can no longer be denied and yet federal, state and local governments are not fully addressing the thermal mass of subdivision & individual residential dwelling design

 

The fact that ambient air temperature, lad surface and sea surface temperatures are rising across the Australian continent can no longer be denied.


GRAPH: Australian Bureau of Meteorology






In New South Wales generally average maximum temperatures in the month of January 2024 ranged from around 24°C to 36-39°C, spiked by days on end of heatwave temperatures which often broke temperature records for individual localities.


MAPPING:  Australian Bureau of Meteorology






In the north-east coastal zone of the state the minimum air temperature was 1°C higher and maximum air temperature 1-2°C higher than they were between 1981-2010.


In January the highest Northern Rivers region minimum & maximum recorded daily temperature range was:


Evans Head 24.838°C

Grafton 24.537.6°C

Yamba 25.637.2°C

Murwillumbah 27.1—36.2°C

Casino 27.1—36.2°C

Lismore 24.5—35.6°C

Tabulam 23.0—34.9°C

Byron Bay 25.6—32.7°C

Ballina 24.934.2°C

Note: These are the nine official Bureau of Meteorology weather stations in the Northern Rivers region.



Yet despite all this new subdivision schemes and housing designs are paying little more than lip service to sustainability and mitigating the thermal load of both the internal road networks of these subdivisions or the collective & individual loads of dwelling contained there in.


Apparently, multi-dwelling structures that increasing look like a collection of boxes are skating through BASIX requirements on the presumption that each individual box within these boxes will be fully air conditioned at some point before occupation or that if ceiling fans are fitted to some of the rooms then this will mitigate heat.


An assumption which:

(i) takes no account of the increasing stress air conditioning places on a household's cost of living. Because the price per kilowatt hour & associated charges of residential electricity supply continues to rise and commonly these multiple dwelling boxes are not built with any rooftop solar power grid to mitigate cost;

(ii) completely ignores the increasing risk of destructive storms causing levels of damage to power supply infrastructure that cuts power supply to both collections of streets or entire towns for days/weeks at a time. As occurred in heatwave conditions in 2024; and

(iii) appears to leave the thermal load of closely clustered internal roads out of the equation completely.


I expect the latest collection of boxes being considered by Clarence Valley Council will also get the nod because I have yet to see this local government apply the full suite of climate change policies to every development application before deciding consent. The heat footprint of an application rarely rates a mention in Council-in-the-Chamber debates or elicits questions to senior staff attending. Neither are there many mentions of the heat island affect caused by new roads, pavements and driveways. Nor does the wind resistance factor of a proposed building arise - and given the entire Clarence Coast is now in a cyclone risk zone that borders on the negligent when assessing new development applications.


Artists impression of street view of 6 Yamba Road, Yamba proposed subdivision. IMAGE: BDA


Set out below are some basic facts about how the freestanding houses, town houses, duplexes, units and flats we live in attract and retain heat.


Australian Government, Your Home, retrieved 19 February 2024:


Passive Design


What is thermal mass?

In simple terms, thermal mass is the ability of a material to absorb, store and release heat. Materials such as concrete, bricks and tiles absorb and store heat. They are therefore said to have high thermal mass. Materials such as timber and cloth do not absorb and store heat and are said to have low thermal mass.


In considering thermal mass, you will also need to consider thermal lag. Thermal lag is the rate at which heat is absorbed and released by a material. Materials with long thermal lag times (for example, brick and concrete) will absorb and release heat slowly; materials with short thermal lag times (for example, steel) will absorb and release heat quickly.


Thermal mass


Thermal mass, or the ability to store heat, is also known as volumetric heat capacity (VHC). VHC is calculated by multiplying the specific heat capacity by the density of a material:


  • Specific heat capacity is the amount of energy required to raise the temperature of 1kg of a material by 1°C.

  • Density is the weight per unit volume of a material (ie how much a cubic metre the material weighs).


The higher the VHC, the higher the thermal mass.


Water has the highest VHC of any common material. The following table shows that it takes 4186 kilojoules (kJ) of energy to raise the temperature of 1 cubic metre of water by 1°C, whereas it takes only 2060kJ to raise the temperature of an equal volume of concrete by the same amount. In other words, water has around twice the heat storage capacity of concrete. The VHC of rock usually ranges between brick and concrete, depending on density. Most common building materials with high VHC also tend to be quite conductive, making them poor insulators.






Thermal lag


How fast heat is absorbed and released by uninsulated material is referred to as thermal lag. It is influenced by:


  • heat capacity of the material

  • conductivity of the material

  • difference in temperature (known as the temperature differential or ΔT) between each face of the material

  • thickness of the material

  • surface area of the material

  • texture, colour and surface coatings (for example, dark, matte or textured surfaces absorb and re-radiate more energy than light, smooth, reflective surfaces)

  • exposure of the material to air movement and air speed.


To be effective in most climates, thermal mass should be able to absorb and re-radiate close to its full heat storage capacity in a single day–night (diurnal) cycle.


In moderate climates, a 12-hour lag cycle is ideal. In colder climates subject to long cloudy periods, lags of up to 7 days can be useful, providing there is enough solar exposed glazing to ‘charge’ the thermal mass in sunny weather.


Embodied energy


Some high thermal mass materials, such as concrete, cement-stabilised rammed earth, and brick, have high embodied energy when used in the quantities required. This highlights the importance of using such construction only where it delivers a clear thermal benefit. When used appropriately, the savings in heating and cooling energy from the thermal mass can outweigh the cost of its embodied energy over the lifetime of the building. Consideration should be given to using high thermal mass materials with lower embodied energy, such as water, adobe or recycled brick.


Why is thermal mass important?


When used correctly, materials with high thermal mass can significantly increase comfort and reduce energy use in your home. Thermal mass acts as a thermal battery to moderate internal temperatures by averaging out day−night (diurnal) extremes.


In winter, thermal mass can absorb heat during the day from direct sunlight. It re-radiates this warmth back into the home throughout the night.

In summer, thermal mass can be used to keep the home cool. If the sun is blocked from reaching the mass (for example, with shading), the mass will instead absorb warmth from inside the home. You can then allow cool breezes and convection currents to pass over the thermal mass overnight to draw out the stored energy.


Conversely, poor use of thermal mass can reduce comfort and increase energy use. Inappropriate thermal mass can absorb all the heat you produce on a winter night or radiate heat to you all night as you try to sleep during a summer heatwave.....



Tuesday, 29 November 2022

Climate Change State of Play 2022: These days living in Yamba NSW is like existing within many confusing layers of altered reality


These days living in Yamba NSW, situated on a 500 sq km coastal floodplain at a point where the 'Mighty' Clarence River meets the vastness of the Pacific Ocean, is like existing within many confusing layers of altered reality.


In the local paper on 23 November 2022 the front page led with an article titled "Stop Building On Floodplains" in which both the Prime Minister, Federal Minister for Emergency Management, and even NSW Premier Perrottet expressed concerns about continuing to expand the urban footprint on floodplains. 


Prime Minister Albanese and Minister Watt came out strongly on the "need to stop development on floodplains". Though in all honesty Mr. Perrottet's statement had all the slippery characteristics of a political bet each way, only wanting to "learn from past mistakes" given his government is currently attempting to concrete over and garden gnome infest many of the state's floodplains between the mountains and the sea.


Clarence Valley Independent, 23 November 2021, Page One














On page 8 of the same issue there was another article accompanied by a colourful graphic (left) reciting the progress being made with the infilling of most of Yamba's remaining natural flood storage area in order to build up to another 1,528 dwellings to house what could be as many as est. 3,800 men, women and children on 127 ha of urban release land approved by the NSW Government as part of its planning policy for residential growth.


Thus growing the permanent resident population to well over 10,000 people just in time for the full brunt of climate change to zero in on the New South Wales coastal zone.


At this point North Coast Voices readers may feel a hint of the cognitive dissonance many local residents are experiencing.


For with landfill yet to be completed, Carrs Drive still raddled by the effects of both flooding & continuous heavy vehicle movements and stormwater/floodwater drainage issues not yet resolved, the rapacious developers are beginning to sell 'off the plan' house and land packages such as these "California dreaming" lifestyle packages on 18.2ha of Carrs Drive land that is historically prone to 1 in 5, 1 in 20, 1 in 50, 1 in 100 flood events  any of which statistically could happen in any given year.


Artist's rendition of yet to be built "Clifton" retirement living
IMAGE: realestate.com.au, retrieved 28 November 2022


So here we sit in Yamba  watching Coalition politicians accompanied by a bevy of developers and real estate agents sell a future that is already gone forever  knowing full well that the Australian Government, CSIRO, Bureau of Meteorology and independent climate scientists are all telling us that in eight years time the subregion which we inhabit will be entering a climate where nothing is certain except the fact that we will be living through never ending, erratic cycles of unnatural disasters until the river and ocean reclaim Yamba as their own.