Thermal imaging of a property enables you to see where heat is escaping through the fabric of the building.
All properties involved in the Retrofit for the Future competition are having thermal imaging carried out before and after the retrofit by an independent testing organisation, BSRIA. By comparing before and after images we will then be able to see how successful our retrofit has been in insulating the properties.
The “before” thermal imaging of our properties was carried out today, and the video below summarises the day’s events.
[youtube=http://www.youtube.com/watch?v=awBxmZewdbk]
An air pressure test on a building is a way to measure the air permeability of the building, or put simply, the rate at which it leaks air, and therefore heat. The less heat a building loses, the less energy is required to heat it.
To perform an air pressure test, the following steps are carried out:
- All “designed” ventilation (the openings in the building fabric that are designed to be there, e.g. windows, doors, extract fans, etc) is sealed;
- A fan in an air tight lining is fitted into the main doorway of the property;
- The fan is powered up until it maintains a constant excess pressure of 50 Pascals;
- The rate at which the fan is then working defines the air permeability of the building, which is measured in cubic metres per hour. A minimum score of 10 (the lower the air permeability the better) is required under current building regulations for new build houses.
All properties being retrofitted are having air pressure tests carried out before the retrofit work commences, and then again afterwards to see what improvement has been made.
Our properties were air pressure tested today and actually scored well for 1940’s houses; one achieved a score of 9.36 (slightly better than current new build standards) and the other 10.6.
Below is a video of the air tightness testing on one of the houses.
[youtube=http://www.youtube.com/watch?v=9y_uZnamrfM]
Our target for the retrofit is to get those scores down to at least 5. Our homes at HHP scored an average of 1 when tested just after they were built. With air permeability rates this low, you need to mechanically ventilate the building, but this can be combined with a heat exchange unit so that much of the heat in the stale air you are extracting can be used to pre-heat the cooler fresh air you are bringing in. We plan to incorporate a mechanical ventilation with heat recovery unit in the houses as a part of the retrofit, but more on that another day …
For the thermal imaging tomorrow, the internal temperature of the properties needs to be at least 10 degrees celsius greater than the external temperature. Given that the vacant property has been unoccupied for at least two weeks and therefore unheated, this poses a bit of a problem, as it is currently colder inside than outside – when we went in there today it was 10 degrees inside, and about 13 outside!
This problem was further exacerbated by the fact that the gas supply has been disconnected – not a long-term problem as we’re removing the gas central heating system as a part of the retrofit – but it would have been nice to be able to whack on the gas boiler overnight in such a thermally poor property.
So we had to resort to electricity. A minor problem was that there was a £50 debt on the keycard meter, so we had to pop down to the local Post Office to clear that and add some credit to cover our heating need. It was then time for an electric heater amnesty at Hockerton (OK, the secret’s out; even we heat our houses occasionally. But with the sun being strong for at least the last week our houses are now back up to 20+ degrees internally, and the heaters are well and truly back in storage for at least another 8 months).
So having rounded up about 20kW capacity of heaters, our next problem was that the house only has two ring mains (the kitchen and the rest of the house), each with a capacity of 8kW, so we couldn’t even deploy them all!
Anyway, we got about 12kW of heat output running at about 2pm, so hopefully by 10am in the morning the temperature inside the house will be 10+ degrees above that outside; I’ll be there early to check though …
Here’s a quick video of the heaters in action; apologies for the poor video quality – a new camera and a new operative – but I promise the video quality will improve!
[youtube=http://www.youtube.com/watch?v=R15PXY2mw6E]
HHP is improving the energy efficiency of a pair of semi-detached houses on the Hawtonville estate, in Newark on Trent, Nottinghamshire.
The retrofit is a partnership project between Hockerton Housing Project (HHP), consultants and lead contractors, and Newark and Sherwood Homes (NSH) the Arms Length Management Organisation (ALMO) for Newark and Sherwood District Council, and the social landlord for the properties.
The retrofit project is being funded under the Technology Strategy Board’s Retrofit for the Future Competition, aimed at finding innovative ways to dramatically improve the energy efficiency of existing housing.
Here are the two houses we’ll be retrofitting, aiming to deliver an 80% + reduction in CO2 emissions, along with visualisations of what they will look like when complete.
More details of how we’re going to do it, and regular progress updates will be posted here, so sign up to follow our progress.
Our partner Sustainable HOCKerton (SHOCK) has been busy progressing the installation of a community wind turbine in the village.
The turbine was delivered from INEOS to the site in Hockerton on 21st October. On the 28thOctober they installed the tower, nacelle and rota having had the grid and meters installed earlier that week. Simon Tilley from HHP was there in a supporting role as well as several volunteers from local investors. Now they are in the process of commissioning the machine which will be complete in 3 to 4 weeks.
The financing of the turbine is nearly complete. We have been delighted at the number of people wishing to support the project and have very nearly reached the provisional working target.
Finally we wish SHL well in completing the commissioning in the next few weeks and starting production of large amounts of renewable energy!
