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1
Carleton and Queen’s University (with Algonquin College) competed in
the US DOE Solar Decathlon 2013 Completion as Team Ontario.
Faculty Advisors at Queen’s (SH) and Carleton (CC) are researchers
within SNEBRN and many of the goals of the Decathlon competition
were consistent with the research goals of the SNEBRN.
The project has provided many opportunities for collaboration with
industry and the interaction with many undergraduate and graduate
students across the three institutions.
The project also provided a high visibility venue that promotes the goals
of the SNEBRN and provides many opportunities for the development
of HQP.
The Solar Decathlon Project
2Integrated Energy System: Heating
Pump
Compressor
Cold Tank (Glycol
Solution)
Hot Tank (Water)
Expansion Valve
Colle
ctor
s
Pump
Heating Coils
DivertingValve
Cooling Coils
Mixing Valve
DivertingValve
Pump
Evaporator
Condenser
Fresh Air
ERV
Pump
Exhaust Air
Mains
Mixing Valve
DHW
Diverting Valve
Mixing Valve
OutdoorHeat
Dissipaters
Fresh Air
Exhaust Air
Recirculation Air
Conditioned Air to Space
Air Handler
Heat Pump
3Integrated Energy System: Cooling
Pump
Compressor
Cold Tank (Glycol
Solution)
Hot Tank (Water)
Expansion Valve
Colle
ctor
s
Pump
Heating Coils
DivertingValve
Cooling Coils
Mixing Valve
DivertingValve
Pump
Evaporator
Condenser
Fresh Air
ERV
Pump
Exhaust Air
Mains
Mixing Valve
DHW
Diverting Valve
Mixing Valve
OutdoorHeat
Dissipaters
Fresh Air
Exhaust Air
Recirculation Air
Conditioned Air to Space
Air Handler
Heat Pump
4TRNSYS Simulation
The system was designed and modelled using TRNSYS
Sensitivity studies were conducted to investigate the effects of
certain parameters on the performance of the system
5Experimental Analysis
0
10
20
30
40
50
60
0.0 0.5 1.0 1.5 2.0 2.5
Te
mp
era
ture
(°C
)
Time (h)
Hot Tank Profile
Heat Pump Load In
Heat Pump Load Out
2.0
2.5
3.0
3.5
4.0
4.5
5.0
5.5
6.0
1
2
3
4
5
6
7
0.0 0.5 1.0 1.5 2.0 2.5
COP
Ener
gy T
ran
sfer
Rat
e (k
W)
Time (h)
To LoadInput to CompressorCOP heating
Students from Queen’s University and Carleton
University built, instrumented, and tested the
core of the IES in the Queen’s University Solar
Calorimetry Lab.
6Simulation and Experimental Findings
Results were compiled in the M.A.Sc Thesis and two
journal papers were accepted for publication
After refining the TRNSYS model with experimental data,
simulations suggest that the IES may achieve an annual
free energy fraction of 0.506 for DHW, space-heating,
cooling, and dehumidification
From the simulation sensitivity studies it was found that
Glazed flat plate collectors outperform evacuated tube collectors
Heat pump characteristics and control had the largest impact
Thermal stratification is also an important factor in the design
The experimental analysis indicated the higher heat pump
load side flow rates improves the COP of the heat pump
but destroys stratification in the hot tank which reduces
the overall performance of the system
7Air Handling Unit (linked to 1.3)
A heating/cooling and
dehumidification Air
Handling Unit (AHU) was
also designed and built with
the assistance of CANCOIL
Thermal Corporation of
Kingston
Heating Season
Cooling Season
8The IES in the Solar Decathlon House
10
14
18
22
26
30
34
0 24 48 72 96 120 144 168 192 216
Tem
pe
ratu
re (
°C)
Hour
Interior Temp
Comfort Zone Contest in Effect
Comfort Zone Limits
Ambient Temp
The IES was transferred
from the lab to the house
Team Ontario achieved:
1st in Engineering
2nd in Affordability
1st in Hot Water (tied)
1st in Energy Balance (tied)
6th Overall
-10
0
10
20
30
40
50
0 24 48 72 96 120 144 168 192 216
Cu
mu
lati
ve k
Wh
Hour
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