Wash-up meeting - February

As things draw to a close on site, a wash up meeting was held in mid-February to review the project and ensure the crucial handover period went as planned.

The 14 attendees demonstrated the complexity of the project, but also the acknowledgement of all stakeholders that complicated project require high levels of cooperation between all project team members.

The meeting covered all sections of the project, from the initial concept through to ongoing maintenance

requirements and end-user impacts. Of particular focus was the operation of what appears to be a complex heating and hot water system. It was concluded that whilst the design of the system has been intricate, the operation now it has been installed should be robust and simple. Richard Hiblen described the overall system as being a standard cylinder, just with more inputs.

The overall consensus was that the major benefits to the tenant had been achieved through the significant improvements to the building envelope and that in order to benefit from the additional technologies installed, good provision of information to the tenant is crucial.

Solar thermal and Dehumidification - January

By the beginning of January both the Solar UK solar thermal system and the SolarVenti dehumidification systems had been installed.

Solar Thermal - This system was chosen due to its high performance and robust build. The traditional problems of tube failure due to the metal-glass seals have been designed out using 100% glass tubes. The system has been connected to the bottom of the DPS heat tank in order to prioritise hot water collection within the dwelling.

Modelled performance indicates that the 2.8m2 collector area will produce approximately 60% of the domestic hot water demand within the dwelling, but heat meters have been installed to measure the in use performance.

Dehumidification - A SolarVenti system has been installed on the dwelling in order to improve humidity levels within the dwelling and provide a degree of free heat through warm air vents. The principles of the system (pictured at the bottom of the roof) are described by SolarVenti below:

'SolarVenti dehumidifiers are designed to make use of the significant relative humidity differences that occur during non summer months. On a cold clear winter morning, most of the water vapour in the air has dropped out as dew or frost, so the relative humidity is low. As soon as the sun hits the SolarVenti panel, it will start to suck in cool air, warm it and push it into your property. Because warmer air has a greater propensity for carrying moisture, this picks up the dampness in your property and it is actively dispersed through any ventilation gaps in your house (air bricks, poorly fitted windows, under doors etc.) leaving your property nicely dry and ventilated with fresh, slightly warmed air.'

Mechanical Ventilation Decisions

The mechanical ventilation system is now up and running in the house. A Passivent iHybrid system was chosen in the end after much consultation between the design team members, manufacturers and the resident.

The key concern was to avoid overheating. Although energy modelling demonstrated a low risk of overheating on a theoretical level, it was still a concern due to the pipe runs and heat sources within such a well insulated dwelling. For that reason, questions were raised about systems which had no summer bypass for the heat recovery system

and the iHybrid system seemed an excellent solution.

Dennis Bates of Passivent said of the system:

A ventilation system only performs as it should provided that it is installed correctly. Air tightness within the system and unobstructed clear air routes are key to ensuring that moist, stale air is removed from the property, and fresh clean air is fed in, so not causing any potential excess moisture, leading to damp and mould growth.

Noting that installation is a key factor, Passivent have a team of approved Mastercare installers, whom are trained by the manufacturer to ensure that every project not only has the right system installed, but it installed to the highest quality, providing the promised levels of ventilation. The unique iHybrid system which was used on the project combines Heat Recovery with natural Passive Stack Ventilation, providing energy savings and i

ncreased longevity over standard heat recovery systems, was installed by one such Mastercare Installer, Brooklyn PSV. The quality and professionalism of the approved installer network means that the system was commissioned and will continue to operate as designed throughout it's life, providing occupants with fresh clean air.'

The ventilation fans will now be monitored for 2 years to ascertain the reduction in electricity consumption due to the passive stack principle being adopted during summer months.

December Update - External wall insulation

Work has been progressing rapidly on site and is close to completion both internally and externally. Brick slips were chosen to closely match the existing bricks in order to maintain the character of the property, with render being applied to the rear of the property. These were applied to the prepared mesh on the phenolic insulation, spaced and then pointed as outlined in the photos. This resulted in a very realistic finish similar to the original appearance of the property.

Importantly, this was also the time that excavation for the perimeter wall insulation could be carried out, to be filled with EPS later, dramatically reducing perimeter losses through the ground floor.

15th November

The external wall insulation installation is now well under way. Brick slips will be applied once the mesh has been applied and the surface prepared.

Eaves

With the loft insulation and external wall insulation almost in place, attention has again focussed on eliminating thermal bridges and maintaining continuity of insulation.

Eaves details were discussed between Baily Garner, Jenners and CEN. The issue was how to insulate this area in a way that was practical for installation, allowed ventilation of the loft to continue and minimised heat losses. The conclusion was that using phenolic board in the void would be so difficult to install, it ran the risk of leaving gaps for heat losses. Instead, plywood boarding was applied to the rafters to prevent the mineral wool being applied to the void from blocking ventilation to the loft space.

5th November

The wood stove is now in use and has been making a significant contribution to the overall space heating of the dwelling, particularly as the old gas boiler has now been removed. In the interim between this and the new combi-boiler being installed, a temporary cylinder has been installed in the loft which runs on electric immersion. This has allowed continuous provision of domestic hot water to the occupants, crucial at this time of year for a young family.

In-use between the 4th and 11th of November, the electricity consumption graph clearly shows the impact of this system on overall electricity consumption, with a significant spike in consumption over this period. Over the past year of monitoring, daily electricity consumption has

not be higher than during this period. This acts as a reminder of the high fuel bills that would be encountered if electric immersions were relied on as the primary source of hot water.

In the meantime, Heatweb have installed the 500l DPS heat bank in the second bedroom. What looks like highly complex plant work is re-assuredly simple to the end user, designed to make maximum use of the three key heat sources in the dwelling in order of priority (solar thermal, wood stove and gas combi boiler). The Heating Save control system will also ensure that these heat sources are used in the most efficient way possible, learning heating and hot water consumption patterns in order to prevent any wasted heat.

From a management perspective, the user controls will be located separately to the heat bank to prevent confusion and unnecessary interference with settings that should remain constant.