Condensation & Mould Risk Analysis — BEO Science
BEO Science — Building Science Services

Stop condensation and mould before they're built in

Hygrothermal analysis during the design phase — using WUFI — so moisture risk is resolved on paper, not ripped out of finished work.

WUFI Hygrothermal Analysis Design Phase Mould Risk NZ & AU
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The Problem

Moisture damage is almost always designed in — not built in by accident

By the time mould appears or condensation causes structural damage, the design decision that caused it was made months or years earlier. Post-construction remediation is expensive, disruptive, and often avoidable.

Design assumptions that don't match reality

Materials are selected without simulating how they perform under real moisture loads across the full seasonal cycle.

Ventilation that isn't sized for the occupancy

Internal moisture loads vary hugely by building type. A school runs differently to a hospital — and condensation risk follows occupancy patterns.

Surface condensation missed at the detail stage

Thermal bridges at junctions create cold spots. Without analysis, mould at skirting boards, windowsills, and corners is predictable — and predicted too late.

Interstitial condensation invisible until it fails

Moisture accumulating inside the building assembly causes structural decay and air quality issues long before it becomes visible. WUFI makes it visible at the design stage.

What We Do

Two complementary assessments — one integrated analysis

Condensation risk and mould risk are related but distinct. We model both, together, during the design phase — when it's still cheap to change things.

Condensation Risk Analysis

WUFI hygrothermal modelling simulates how heat and moisture move through your building envelope across a full annual weather cycle. We identify where and when condensation will form — surface and interstitial.

  • Roof, wall, and floor assembly modelling
  • Material-specific moisture transport and storage
  • Seasonal drying capacity assessment
  • Vapour control layer positioning and specification
  • NZ and AU climate datasets (NIWA / IWEC2)
Mould Risk Assessment

Mould risk depends on surface temperature, relative humidity, and the duration of conditions that favour growth. We assess risk by building type, occupancy pattern, and assembly — and provide targeted design recommendations.

  • Occupancy-specific moisture load modelling
  • Surface temperature and RH analysis at critical junctions
  • ASHRAE 160 mould index criteria
  • Material selection guidance to reduce risk
  • Ventilation strategy review and sizing
The Method

Why WUFI — and why it matters for NZ and AU climates

Steady-state condensation methods (Glaser, dew point calculations) treat moisture as a static problem. They were developed for European continental climates and consistently underperform in NZ's mixed coastal and alpine conditions.

WUFI (Wärme- und Feuchtetransport Instationär) is a transient hygrothermal model developed by the Fraunhofer Institute. It simulates dynamic heat and moisture transfer hour-by-hour across real weather data — capturing drying potential, moisture redistribution, and seasonal accumulation that steady-state methods miss entirely.

What you receive
  • Full WUFI simulation files with documented inputs
  • Graphical moisture content and RH plots across the annual cycle
  • Written assessment of condensation and mould risk by assembly
  • Specific design recommendations — materials, vapour control, ventilation
  • B2 Durability framing where relevant (50-year simulation available)
  • Expert review call to walk through findings with your design team
Our Process

Four stages from brief to design-ready report

01
Brief and assembly review
We start with your drawings, specifications, and intended use. We identify which assemblies carry the most risk, what occupancy patterns will drive internal moisture loads, and what climate data applies to your site. This scopes the simulation accurately — we don't run unnecessary models or charge for analysis you don't need.
02
WUFI hygrothermal simulation
Each priority assembly is modelled in WUFI using site-specific climate data, material hygrothermal properties from the WUFI database or manufacturer data, and realistic boundary conditions. Simulations run for a minimum of three years to confirm moisture behaviour stabilises — or to identify accumulation that won't resolve.
03
Risk assessment and design recommendations
Results are assessed against condensation limits and mould risk criteria (ASHRAE 160). Where risk is identified, we develop specific design adjustments — not generic guidance. Recommendations are actionable: change this material, reposition this vapour control layer, increase this ventilation rate, add this drainage plane.
04
Report delivery and design team review
The written report is structured for architects and engineers — findings, risks, and recommendations in plain language, with technical appendices for those who want the detail. A review call with your design team is included to walk through findings and discuss implementation. We don't issue a report and disappear.
Who It's For

Designed for the professionals responsible for building performance

Architects & Designers
Confirm your envelope assembly performs before it's specified. Avoid vapour control errors that cause durability failures years after practical completion.
Structural & Building Engineers
Moisture-related structural decay is a B2 Durability risk. WUFI analysis provides documented evidence that assemblies will perform across the design life.
Developers & Project Managers
Condensation and mould remediation post-construction costs orders of magnitude more than a design-phase assessment. Resolve it on paper.
Commercial & Institutional Clients
Schools, hospitals, aged care, and high-occupancy commercial buildings carry elevated moisture loads. Accurate occupancy-specific modelling is essential — not optional.
Why BEO

Design-phase analysis vs post-construction remediation

The numbers are not close. The only question is which decision gets made — and when.

Design-phase WUFI analysis Post-construction remediation
Timing Before anything is built After failure is visible
Cost Thousands Tens to hundreds of thousands
Disruption None — changes are on paper Occupied building, ripped-out linings, decant costs
Evidence Documented, defensible analysis Insurance disputes, liability questions
Outcome Designed-in performance Restored to baseline — at best
"BEO Buildingscience has really impressed our team with the work they have done."
— Client, Commercial Project
FAQ

Common questions

When in the design process should we commission WUFI analysis?
As early as possible — ideally at concept or developed design when assemblies are being resolved but nothing is specified yet. The later the analysis is left, the less flexibility you have to act on the findings. We can also review assemblies that are partially specified, but the window for low-cost changes closes as the design progresses.
Is WUFI analysis required under the NZ Building Code?
Typically not — WUFI isn't a mandatory requirement for most projects. However, it is the appropriate tool for demonstrating compliance under B2 Durability (where Acceptable Solution methods don't cover your assembly) and under E3 Internal Moisture, where controlling condensation and moisture accumulation in the building fabric is a specific requirement. For Australian projects, WUFI supports compliance under NCC 2022 Performance Solution pathways and aligns with the methods referenced in AIRAH DA07 (Humidity, Condensation and Mould) for demonstrating that assemblies will not sustain harmful moisture accumulation.
Do you provide analysis for both residential and commercial projects?
Yes. We work across the full building type range — residential (including Passive House and high-performance), commercial, educational, healthcare, and industrial. The modelling approach is the same; what changes is the occupancy profile, moisture load assumptions, and the criteria we assess against.
How many assemblies does a typical assessment cover?
Usually just one. On most projects, there's a single assembly that's been flagged as a concern — a specific roof detail, an unusual wall build-up, a below-ground junction — and that's what we model. We're not trying to sell a whole-building analysis where one assembly is the actual question. That said, we can assess any combination of assemblies across roof, wall, floor, and below-ground — the scope is built around what the project actually needs.
Can you work with our existing architects and engineers?
Yes — that's the standard engagement model. The assessment is delivered as a specialist input into the design team's process. We provide findings and recommendations; your design team implements them. The review call is designed to make that handover efficient and to answer questions directly from the people who will act on the findings.
Resolve moisture risk during design — not after construction
Book a consultation to discuss your project assemblies. No obligation — we'll tell you whether analysis is warranted and what it will cover.
Book a consultation
denise@beoscience.com · +64 210 239 4980 · beoscience.com

How does WUFI work?

Curious how we pinpoint hidden moisture issues and prevent costly damage? Watch this quick video to discover how our WUFI design review works and what you can expect in your personalised report. See the power of advanced moisture analysis in action!