Tag / building services engineering

by shannonchance

Research Methods of Forensic Engineers

 Catherine Simpson is here at DIT tonight describing the research she does as a Forensic Engineer. You can also call her an expert in thermal modeling and a Building Services Engineer.

She can make digital models of buildings and predict their future energy performance. She can also go into a functioning building to identify, analyze, and rectify errors in thermal performance. She says that very often, buildings do not end up performing the way experts predicted. These are skills she uses:

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Catherine says Forensic Engineers must avoid using clues as if they were actual evidence (of the problem and its causes). These are clues: complaints, anecdotes, consultant reports, BMS data, ad hoc solutions, staff theories, and staff observations. On the other hand, these are useful forms of evidence:

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Catherine models problems digitally and physically. She also develops theories that she can combine to test her theories:

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Catherine gave an example of a shopping mall that had a very windy atrium and a very steep heating bill. No one could identify the causes of these problems. But after six years experiencing these problems, the owners called her in.

With careful analysis of data she collected (using dozens of different routes, including studying air flow by blowing bubbles in crowded spaces where smoke tests couldn’t be used) she identified a number of problems. One was a poorly placed rotisserie oven that was triggering vents to open. Another problem was that the building controls “thought” the building’s vents were completely closed when many were only partially closed.

Catherine devised a £50k solution to closing the vents in winter that is saving the owner £60k every month, in heat alone. There were reduced wind drafts and reduced tenant complaints. She says it saved about £500k in capital and restored people’s confidence in the facility.

Here’s one tool she uses to measure air speed:

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She also uses thermal imaging to study air infiltration, like so:

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We use this kind of technology in our Energy Cube project. This is a picture from that class last week:


Catherine’s work involves fixing problems and also providing expert witness testimony. Forensic engineering seems fascinating! Catherine is a veritable Nancy Drew.

Forensic engineering, she says, is like a jigsaw. You’re given clues, you find evidence, simulation gives context, you test theories, and ultimately prove a solution. She obviously loves her job!

by shannonchance

Energy Cube — Build Day

Fionnuala advising an Energy Cube team.

Fionnuala advising an Energy Cube team.

Nowadays when you arrive in DIT’s four-year engineering program, you will complete three group-based design projects prior to selecting a specific engineering major: a bridge design project (to familiarize you with civil and structural engineering), a RoboSumo project (to learn about robotics, electrical, and electronic engineering, and programming), and an “Energy Cube” project (as an introduction to mechanical, product, and building services engineering).

The Energy Cube project is currently coordinated by a diverse and multi-disciplinary group of teachers. Fionnuala Farrell is a product design and manufacturing engineer, John Nolan is an expert in engineering drawing, and Micheal O’Flaherty is a building services engineer. 

This team built a geodesic dome for their Energy Cube.

This team built a geodesic dome for their Energy Cube.

I’ve been assisting them and contributing the perspective of an architect. I’m not involved in grading, since I’m interviewing some of the students for my research, but I attend classes to better understand what it’s like to learn and teach engineering. 

Fortunately, I know how to do all the parts involved in this project: designing buildings, identifying client needs, defining product evaluation criteria, collaborating, calculating volumes, making scale translations, predicting thermal performance using mathematical calculations, designing the lighting scheme, building models, testing performance, keeping records, and presenting work in writing as well as verbally.

For the students, though, this combination is a tall order!  They have a total of six sessions, four hours each (on Friday afternoons!?!!) to design, build, test, and present their Energy Cubes. Whew!

Lecturers Fionnuala Farrell, John Nolan, and Michael O'Flaherty surveying results of "the build."

Lecturers Fionnuala Farrell, John Nolan, and Micheal O’Flaherty surveying results of “the build.”

Moreover, they are working in assigned (rather than self-selected) groups of four. Learning to work with strangers isn’t always easy. They’ve done an admirable job.

Our second of four sets of students will test their cubes later today. I’ve posted photos of what the Energy Cube build looked like last week.