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Flixo Course – Model Thermal Bridges for High Performance Buildings (Pittsburgh)


“Great course! The Flixo training provided by Rolf and Chris gave me and other staff at NK Architects the hands-on base to prepare meaningful Thermal Bridge analyses.  By integrating guided use of Flixo software with the standards required for Passive House certification, I am prepared to perform a key analysis function for high-performance building design.”

- Joe Giampietro, NK Architects

  • Flixo allows you to directly import DXF files to reduce input time.

  • Flixo allows you to immediately alter dimensions and materials to create and evaluate variations of your details.

  • Flixo allows you to quickly make and customize your reports.

"We are extremely satisfied. It is incredible how much easier and more practical Flixo is than the software we previously used. Absolutely fantastic.” 

 - Florian Speier, Zola European Windows

Summary:

In this 2-day course, participants will explore thermal bridge modeling using Flixo to be able to understand the impact of design details on the energy performance of High Performance Buildings/ Passive House Buildings.  We will first cover the concepts and protocols for thermal bridge modeling. Then, participants will have the opportunity to model several common thermal bridge types using Flixo, with guidance from the instructors.  By the end of the course, participants will have completed at least two thermal bridge models. All participants should arrive with the 30-day free Flixo Trial software (version 8) pre-loaded on their computer. Course limited to first 16 registered.

Course Topics:

1)     Identifying Thermal Bridges

a.     Types of Thermal Bridges

b.     Visual examples of common details

c.     Discussion of techniques to reduce psi values.

d.     Determining which thermal bridges need to be modeled

e.     Qualitative and quantitative assessment

2)     Thermal Bridge Protocols

a.     Overview of modeling and psi value calculation process. 

b.     Standard boundary conditions

c.     Material properties

d.     Geometry requirements

e.     Reference points

f.      Calculation and use of equivalent U-values within models.

g.     Entering psi-values in WUFI Passive and PHPP

3)     Flixo Walk-through

4)     In class demonstrations of modeling for several important thermal bridge types

a.     Exterior and interior wall corners

b.     Rim joists

c.     Roof eaves

d.     Foundations (slabs and footings)

e.     Parapets

f.      Windows (sill, header, jamb)

g.     Special cases: Unheated basement

5)     Tips and Tricks for Projects with Large Amounts of Thermal Bridges

6)     Flixo Practice

a.     Individual/small-team modeling projects using selected details from real projects.

Intended Audience: Architects, engineers, energy modelers, Passive House consultants, designers and other building professionals who want to build on their skills of thermal bridge modeling.

Competency: Intermediate, Professional

Prerequisites: Some familiarity with thermal bridges

Costs: To Be Announced

Continuing Education: 16 Passive House Institute (PHI) CPD credits will be given for attendance to the course

Location: To Be Announced

Course Times: 9:00am – 12:00pm & 1:30pm - 4:30pm

Course Requirements: Laptop with Flixo 8 demo. Flixo works on PCs with Windows installed or Macs with Windows installed (via Bootcamp, not other Virtual Machine).

Contact: Tad Everhart

Cancellation Policy: If you cancel your registration more than three weeks from the scheduled course, you will receive 100% of your course fee. If you cancel between one and three weeks of the scheduled course, you will receive 50% of the course fee. If you cancel within a week of the scheduled course, you will forfeit your course fee.

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Rolf Jacobson

Rolf is a Research Fellow for the Center for Sustainable Building Research at the University of Minnesota and a CPHC. He learned how to model and calculate thermal bridge heat loss while studying Passive House enclosures for his Masters of Science thesis in Norway. As part of the thesis, he developed a comparison of typical thermal bridge details for 8 different Passive House enclosure types. Since 2011 Rolf has provided thermal bridge modeling for a variety of commercial and residential projects including certified Passive Houses.

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Chris Petit

Chris is a CPHD & Trainer with Regenerative Design LLC and a Certifier with CertiPHIers Cooperative. He has provided design support and energy modeling services since 2008. Through CertiPHIers, Chris has certified Passive House projects in the US and Canada. In addition to his work with CertiPHIers, Chris teaches sustainable design, energy modeling, and renewable energy. He holds a MS in Architecture from the University of Minnesota.