You are using an outdated browser version not supported by this website.
Click here to upgrade your browser

23 November 2016

The Building Envelope 1.3: Controlling the Movement of Moisture

In the previous two articles in this series, we presented the challenge of finding materials that work extremely well in both summer and winter conditions. This is challenging. If we prevent moisture movement into the frame, we will likely prevent any moving out again. Ideally we need two directions for drying using materials that prevent moisture-loading into the structure in winter, and allow moisture out in the summer.

One solution to this challenge is to use a humidity-variable vapour control layer such as INTELLO that operates predictably in both summer and winter to prevent moisture accumulation within the insulated structure.

Why would you do this?

  1. Knowledge of materials and how they relate/react to each other is expanding.
  2. Understanding moisture and how it relates and interacts with materials is increasing.
  3. Combining understanding with practical application in buildings creates four things:
    • Health (occupants in a mould-free structure)
    • Investment protection (durability)
    • Comfort (whole-house warmth) — see image below
    • Energy efficiency (building envelope)

pro clima indoor humidity temperature

These are in no particular order — the point being, attempt to achieve one and the others should follow. It could be argued you can just buy comfort, and while this may be true, homes should not be inefficient by default — only just meeting H1 requirements — when we know there is going to be 'line loss' away from energy efficiency during construction.

Airtightness and Intelligent moisture management

Achieving energy efficiency starts by insulating continuously and preventing drafts (leaks). Dealing with internal moisture should be achieved by ventilation and with intelligent moisture management that is capable of reacting to the current ambient conditions, i.e. by reducing diffusion in the winter and being permeable to permit diffusion in the summer.

pro clima inside outside comparison

These characteristics are provided by the intelligent airtightness and vapour control membrane INTELLO which has variable diffusion resistance. Installed on the inside of the insulation layer/framing, it is:

  • Diffusion-reducing in the winter, when the vapour diffusion flow current is from the inside toward the outside
  • Diffusion-open in the summer, when the vapour diffusion flow current is from the outside toward the inside.

The airtightness of the building envelope ensures optimum effectiveness of the thermal insulation and a healthy living environment.

If you'd like to know more about understanding materials, vapour control, airtightness and the way NZ's buildings could perform, please contact us via the pro clima website, email [email protected] or phone 0800 proclima (0800 776 254).

View more information on pro clima, including contact details.
comments powered by Disqus

Posts by Pro Clima Technical

See All

Get a free weekly digest of essential news

New and updated architectural products, design solutions, inspiration, technical advice and more when you sign up for EBOSS.