6
2
FURNACE PERFORMANCE
(1)
Fuel type
Dry cordwood
Recommended heating area[*]
1,000 to 2,500 ft² (93 à 232 m²)
Firebox volume
3.6 ft³ (0.102 m³)
Maximum burn time[*]
10 h
Maximum input capacity (dry cordwood)
(2)
310,000 BTU
Overall heat output rate (min. to max.)
(3)
19,354 BTU/h to 47,052 BTU/h (5.6 kW to 13.8 kW)
Average overall efficiency
(8)
76.6% (HHV)
(5)
82.0% (LHV)
(6)
Delivered heat output rate (min. to max.)
(7)
13,297 BTU/h to 42,234 BTU/h (3.9 kW to 12.4 kW)
Average delivered efficiency
(4)
60.7% (HHV)
(5)
65.0% (LHV)
(6)
Optimum overall efficiency
(9)
83.2%
Optimum heat transfer efficiency
(14)
81%
Average particulate emissions rate
(10)(11)
0.095 lb/mmBTU (0.041 g/MJ)
Average CO
(12)
8.78 lb/mmBTU (3.78 g/MJ)
Average electrical power consumption
(13)
30 W
[*]
Recommended heating area and maximum burn time may vary subject to location in home, chimney draft, heat loss factors,
climate, fuel type and other variables. The recommended heating area for a given appliance is defined by the manufacturer as its
capacity to maintain a minimum acceptable temperature considering that the space configuration and the presence of heat
distribution systems have a significant impact in making heat circulation optimum.
(1)
Values are as measured per CSA B415.1-10, except for the recommended heating area, firebox volume, maximum burn time and
maximum input capacity. Performances based on a fuel load prescribed by the standard at 10 lb/ft³ and with moisture content
between 18% and 28%.
(2)
Input value at 10lb/ft³ fuel loading density and dry energy value of 8,600BTU/lb.
(3)
Overall: Radiated and delivered heat together at10lb/ft³ fuel loading density over one total burn cycle.
(4)
Efficiency based on delivered heat when allowing cycling from high to low burn to simulate thermostat demand.
(5)
Higher Heating Value of the fuel.
(6)
Lower Heating Value of the fuel.
(7)
Delivered: Remotely provided to other rooms through ducting at 10 lb/ft³ fuel loading density over one total burn cycle.
(8)
Efficiency based on radiated and delivered heat when allowing cycling from high to low burn to simulate thermostat demand.
(9)
Optimum overall efficiency at a specific burn rate (LHV).
(10)
Based on delivered heat output.
(11)
This appliance is officially tested and certified by an independent agency.
(12)
Carbon Monoxide. Based on overall heat output at 10lb/ft³ fuel loading density.
(13)
Unless st
ated otherwise, measures were taken directly at the main power source and include all electrical components present in
the appliance.
(14)
The optimum heat transfer efficiency is for the low burn rate and represents the appliance’s ability to convert the energy
contained in the wood logs into energy transferred to the room in the form of heat and does not take into account the chemical
losses during combustion.
Summary of Contents for CADDY ADVANCED PF01020
Page 2: ...2...
Page 9: ...9 5 LABELS...
Page 10: ...10...
Page 17: ...17 INSTALLATION AND OPERATION INSTRUCTIONS CADDY ADVANCED SERIAL ADD ON INSTALLATION PF01020...
Page 19: ...19 Option 1 Option 2 Minimum duct size 190 square inches 0 12 m2 R Minimum radius 6 inches...
Page 20: ...20 Option 3 Option 4...