I am not sure just what they are thinking here but then what of it.
What we really need is internal thin wall insulation along with base
board heating or its equivalent. I would also think out heat
exchangers able to vacate an empty room and drop the temperature to
five degrees.
Other wise the precocious human monkey will fill up every space
available to it with its acquisitions. Which of course why this line
of research is a waste.
No one wishes to step out into the barn.
RYERSON UNIVERSITY
RESEARCH EXPLORES FEASIBILITY OF “HOUSE WITHIN A HOUSE” DESIGN
New findings suggest
that changes to home construction design could result in 80% energy
savings
December 03, 2012
Ryerson professor
Russell Richman (left) with his research partners Ekaterina Tzekova
and Kim Pressnail, in front of the Toronto home that will be
retrofitted with their nested thermal envelope design this winter.
As temperatures fall
this winter, heating costs will inevitably rise. In response,
Canadians will pull out their slippers, light the hearth and
vigilantly monitor their thermostats, but what more can be done?
According to collaborative research led by Ryerson University, a
simple change in the way we live in our homes, and the introduction
of a heat pump, could save up to 80% on energy consumption.
Russell Richman, a
professor in the Department of Architectural Science at
Ryerson University, is the co-principal investigator of an on-going
research project that explores the practicality of Nested Thermal
Envelope Design, a home construction design that employs zonal
heating. Space heating is the largest single contributor to
residential energy use in Canada at 60% of the total. Minimizing
envelope heat losses is one approach to reducing this percentage.
Thanks to a construction research grant including $200,000 and
$100,000 cash contributions from the Ontario Power Authority's
Technology and Development Fund and the University of Toronto, the
nested thermal envelope design will soon be implemented in a home in
downtown Toronto.
“In the winter, you
could get savings by living in a smaller space, period,” says
Richman. “But you can’t just heat one room, because there is no
insulation between one room and the outside or other rooms. To do it
really well, you need to insulate the room and then insulate the
whole house. As we explain it, zonal heating is just a house within a
house, or a box within a box.”
The nested thermal
envelope design has two key components. First, the home must be
divided into two different zones; the perimeter and the core. The
core is the home’s main living area, for example, the kitchen, the
living room and bedrooms. The perimeter is those less often used
rooms, such as a formal dining room, sunrooms and secondary
bathrooms. Secondly, the home must have a small heating unit that
cycles heat from the perimeter into the core during the winter
season. The heat pump funnels heat lost to the perimeter back into
the core of the home, before it escapes the perimeter and is lost to
the exterior of the home.
To take full advantage
of the design, the home’s core must be set at a reasonable
temperature, for example 21 degrees, while the perimeter stays at 5
degrees. It is important to note that living in the core of the home
is only necessary during the colder months, when the desire to save
money on heating costs is at its height and when the disparity
between indoor and outdoor temperatures is greatest.
This nested thermal
envelope design was originally conceived by Richman and his
colleague, University of Toronto professor Kim Pressnail, following a
discussion between the pair on the heat loss they were experiencing
in their own homes. After considering the practicality of simply
living in fewer rooms, the researchers experimented with the practice
of living in a smaller space while also recycling heat from within
their homes. Along with Ph.D. candidate Ekaterina Tzekova, also from
the University of Toronto, the team has been evaluating variations on
nested thermal envelope designs since 2007.
After drafting the
original design, the research team tested it using a building energy
simulation program, called EnergyPlus. Calculations revealed up
to 80% in energy savings.
This winter, the
researchers are moving into the next stage of the project. The nested
thermal envelope design will be implemented into a home in downtown
Toronto. The team will elect test subjects to live in the home,
beginning with a student and, later on, the home will become a
residence for visiting professors. The research team will track
behaviour patterns and get feedback from the occupants themselves.
“The question is, is
it worth the additional effort of installing a heat pump? The pump
needs to be servicing a lot of energy in order to validate this
design,” says Richman. “There are so many research
questions to be answered with the house. It’s always exciting to
take theoretical research and turn it into practice.”
Richman and his
colleagues hope to collect data from the home and its inhabitants
over the next five years, after which time they will continue their
research with a custom built home.
The group’s
preliminary findings were published in the November 2012 issue
ofEnergy and Buildings.
Ryerson University is
Canada's leader in innovative, career-oriented education and a
university clearly on the move. With a mission to serve societal
need, and a long-standing commitment to engaging its community,
Ryerson offers more than 100 undergraduate and graduate programs.
Distinctly urban, culturally diverse and inclusive, the university is
home to more than 28,000 students, including 2,300 master's and PhD
students, nearly 2,700 faculty and staff, and 140,000 alumni
worldwide. Research at Ryerson is on a trajectory of success and
growth: externally funded research has doubled in the past five
years. The G. Raymond Chang School of Continuing Education is
Canada's leading provider of university-based adult education. For
more information, visitwww.ryerson.ca.
This is nothing new. Friends of mine built such a home 40 years ago. It was large, post and beam framed (he was a timber broker), and passive solar. I believe that type of construction was called "envelope homes" back then. The system worked reasonably well through the hot summers and cold windy winters here in Pennsylvania. They retired and moved to Florida.
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