baymak 2012 solar catalogue

Transcription

baymak 2012 solar catalogue
General Catalogue
TECHNICAL INFORMATION
Solar Info Tech
2012
BAYMAK is a BDR Thermea company and one of the leaders
of heating sector in Europe, has a proud tradition of
developing and producing boilers and heating systems to
the highest technological standards.
For 43 years BAYMAK has provided a wide range of cuttingedge solutions, anticipating market evolutions and paying
attention to customer needs.
Anticipating market evolutions, Baymak has further
developed its range of products with a wide boilers'
offering and integrated solutions spoiling renewable
energies.
• Solar Systems: Forced draft installation with single or
double coil cylinders ( from 160 to 2000 litres ) and
natural draft with 100/160/200/300 lt. horizantal
solar tanks.
• Hot Water Storage Tanks: From 80 lt to 1000 lt. enamelled
steel single coil, double coil, combi type and buffer tanks.
• Biomass Boilers: From 17 kW to 40 kW with pellet, wood
log, chips, oilcake, wheat, corn.
• Gas/Oil Boilers: Wall-hung gas and floor-standing gas/oil
boilers, from 15 kW to 3460 kW.
1
Highest Quality Standards
Baymak has been very successful thanks to the attention
to its products quality.
In 1998 Baymak was awarded the ISO 9001 Certification
and in 2002 the ISO 9001:2000 Certification in
order to reach constantly the highest levels of quality.
As Baymak recognizes environment, health and safety
protection as strategic aims, nowadays dealing with
ISO 14000.
2
Integrated systems
Baymak has always been active in the development of solutions which ensure the maximum environmental
respect. Baymak is also aware that future’s heating solutions are based on the integration between
boilers and systems working with renewable energies.
Following this philosophy, Baymak has developed
the integrated solar system combining the
excellent technology of Baymak boilers with a
complete range of solar collectors and cylinders
for forced draft installation.
A concept of intelligent comfort which advantages
are low pollutant emissions (ecological comfort)
and high energy efficiency.
3
Principles Of Solar Energy
Every object directly exposed to the sun absorb heat and increase its temperature. As a consequence of the
chemical reactions that take place in the mass of the sun, a constant stream of energy is produced as
electromagnetical radiation.
We define the “solar constant” as the amount of incoming solar electromagnetic radiation per unit area, measured
on the outer surface of Earth's atmosphere in a plane perpendicular to the rays.
The solar constant includes all types of solar radiation (infrared rays, UV rays, etc.), not just the visible light. It
is measured to be roughly 1,366 watts per square meter (W/m2), though this fluctuates by about 6.9% during
a year (from 1,412 W/m2 in early January to 1,321 W/m2 in early July) due to the earth's varying distance from
the Sun, and typically by much less than one part per thousand from day to day. The approximate average value
cited, 1,366 W/m2, is equivalent to 1.96 calories per minute per square centimeter, or 1.96 langleys (Ly) per
minute.
Percentage of energy
Wave lenght 0-0,38 um
Wave lenght 0.38-0.78 um
Wave lenght 0.78- um
7%
47%
48%
UV rays
Visible
Infrared rays
Energy 95 W/m2
Energy 640 W/m2
Energy 618 W/m2
Average of the solar constant 1353 W/m2
As above stated, the Earth receives a total amount of radiation determined by its cross section but, as it rotates,
this energy is distributed across the entire surface area. Morevoer, at any given moment, the amount of Solar
radiation received at a location on the Earth's surface depends on the state of the atmosphere and the location's
latitude.
The Inclination Of Solar Collectors
The inclination of solar collectors is the angle between the plane of their surface and the horizontal surface they
rest on. To optimize collectors efficiency, the angle between collectors surface and incident rays should be 90°.
If collectors rest on a pitched roof it is advisable to keep the same inclination of the roof.
On the other hand, if they rest on a flat roof the following indications should be
considered when deciding the collector inclination:
• Summer 20 – 40°
• Winter 50 – 65°
• Middle seasons 40 – 60°
Inclination angle between the
collectors and the horizontal plate
4
Smart Comfort:The Forced Draft Baymak Solar Energy System
The circulation of the heat transfer fluid can be natural of forced. Natural circulation refers to the ability of a
fluid in a system to circulate continuously, with gravity and changes in heat energy (temperature) being the only
driving force. Despite of installation simplicity, with natural circulation heat transfer fluid flows very slowly and
the amount of absorbed solar energy is very low. In case of forced circulation, heat transfer fluid is driven by means of a thermostat controlled pump. Flow rate
can be set to obtain the maximum solar energy absorption.
Solar Collectors
A flat plate is the most common type of solar thermal collector, and is usually used to generate solar hot water.
A weatherproofed, rock wool insulated box containing a blue selective coated Cu or Alu metal absorber sheet
with built in pipes is placed in the path of sunlight.
Leakproofed corner points surrounded
with a single piece of glass seal.
Long life by strong patented frame
Manifold gasket with highly
heat resistant silicon
High thermal efficiency with tempered,
low iron, Sandy patterned glass
Highly selective coated absorber plate.
High heat transferred laser
welded riser pipes
Minimum heat loss with
insulation material of rock wool.
Superior resistant with the thickness
of 1 mm aluminum back plate
• Collector Glass
Durasolar ® P+ sandy glass is produced by Trakya Cam (fiiflecam), the biggest glass manufacturer of Turkey,
gives one of the highest performance among the other European glasses.
Durasolar ® P+ sandy glass that includes lower iron-oksit ratio, higher light transmittance and heat permeability
than the standard iron glass provides maximum efficiency for the collector performance.
Durasolar® P+ Temperred glass is resistant to physical outdoor factors as rain, UV, temperature, thermal shock,
stroke.
Durasolar® P+ glass has been tested by SPF Solartechnik Prüfung Forschung - Switzerland
TECHNICAL FEATURES
MODEL
SolarDuraSolar®P+ Sandy
GLASS
THICKNESS
4 mm
SOLAR ENERGY
LIGHT TRANSM‹TTANCE
TRANSM‹TTANCE Tsol
Td65
91.6 %
5
90.5 %
GLASS TYPE
Low iron tempered
sandy solar glass
• Collector Absorber
Selective coated T‹NOx copper or aluminium surface absorb the heat radiation to the plate in maximum level
and minimize the radiation heat loss.
The absorber has been tested in Germany/Fraunhofer-Institue.
Light spectrum
Quartz glass
film
Titanium coating layer
Conjunctive layer
Metal plate
Heat transferred to plate
The latest technology of selective coated absorbers that have been used for the Baymak new serie solar collectors
transfer the sun radiation heat in maximum level and minimize the reflection loss which decrease the efficiency.
Below the radiation heat losses for different coating materials are shown. As it is seen from the pictures the
minimum heat loss is supplied through the selective coated metal sheet.
Radiation heat loss
Radiation heat loss
45%
5%
Reflection
Radiation heat loss
15%
5%
Reflection
5%
Reflection
Selective coated
Paint coated
Black chromium
Transmitted heat
Transmitted heat
6
Transmitted heat
5%
• Absorber Coating for Baymak Solar Collectors
Collectors with selective coated absorbers are a clear alternative to conventional energy generation and also
help to considerably reduce CO2 emmissions.
As the heart of the solar collector, eta plus efficiently converts
Visible and short Long wavelenght rays
solar energy into heat and at the same time protects the
wavelenght rays
collector against energy losses.
Protector seranic
cover layer against
to corrosion
Provides optimal technical properties:
-above-average aging and temperature resistance
Absorber layer
-outstanding homogeneity of the coating over the entire
Corrosion protection
and cling surface
material width-absorption 95%, thermal emission 5%
Metal plate
-top quality and a zero-emission industrial production process
Transmitted heat to the plate
• Collector Harp System
Thanks to the 12 riser pipes the heat is transferred into the water
in maximum level and increases the efficiency of the collector.
Laser Welding Technology
LASER welding methode which is the one of the most modern and latest technologies has been used to connect
the selective coated absorber surface to the riser pipes.
Riser pipe profile
Absorber
Laser Welding
Riser pipe
Heat transfer in to the water
Baymak collectors produced by LASER welding methode protects the absorber and increase the aperture surface
between 2 % to 4 %.
7
• Frame
Thanks to the special design of the patented frame all the components have been held
together strongly.
The new frame protects the collector from all external factors over the years with
2 mm wall thickness.
• Glaze Sealing
The new type of Baymak Collectors are protected by monobloc vulcanised EPDM sealing
that provides perfect leakness on the corners and maximum thermal durability against
UV rays.
• Manifold Sealing
Manifold sealing has been made of silicon for perfect leakness and high temperature
durability.
• Collector Insulation
For new type of Baymak collectors, insulation material has been used as rookwool that is tested by SPF Institute.
This special rockwool includes the lowest level chemical binder.
Maximum
Insulation
Heat insulation:
40-50 kg/m2 density
Low Chemical Binder
0.035 W/m2K Thermal
Conductivity
• Collector Bottom Plate
New type BAYMAK collectors have more stronger and thicker new aluminium back
plate. The back plate thickness is 1mm. This plate provides maximum durability against
transportation problems, all weather conditions and all external factors.
8
Baymak Solar Collectors
For the forced draft installation Baymak has developed:
• A wide range of solar collectors: gross surface between 2.51 m2 and 2.00 m2 built-in versions (IN models),
selective coated copper or aluminium absorbers.
• A wide range of enamelled cylinders: from 80 to 2. 000 litres with single coil / double coil/, enamelled buffer
tanks, combi tanks (tank in tank) and wall type cylinders (form 60 liter to 100 liter with 2kW electrical back up)
Baymak solar thermal heating system uses the free energy from the sun to heat the domestic hot water
( DHW ) and support for space heating.
ADVANCED XL
TECHNICAL DATA
ADVANCED X
ESSENTIAL BLACK XL
ESSENTIAL BLACK X
ESSENTIAL XL
ESSENTIAL X
ESSENTIAL BLACK XL ESSENTIAL BLACK X ESSENTIAL XL
APOLLO S XL
APOLLO S X
ADVANCED XL
ADVANCED X
ESSENTIAL X
APOLLO S XL
APOLLO S X
Product Code
9150200
9150205
9150245
9150243
Efficiency
78.00%
76.80%
80.90%
80.50%
9150246
9150244
9150238
9150237
80.90%
80.50%
78.00%
77.00%
Peak Power
1811 W
1427 W
1882 W
1493 W
1882 W
1493 W
1797 W
1419 W
Delta T: 10 K
1703 W
1351 W
1773 W
1403 W
1773 W
1403 W
1695 W
1338 W
Power Output per collector at 1000W/sqm
Delta T: 30 K
1481 W
1190 W
1551 W
1219 W
1551 W
1219 W
1484 W
1166 W
Delta T: 50 K
1253 W
1018 W
1322 W
1032 W
1322 W
1032 W
1262 W
984 W
Brut Size
2.51 m2
2.00 m2
2.51 m2
2.00 m2
2.51 m2
2.00 m2
2.51 m2
2.00 m2
Aperute Area
2.34 m2
1.87 m2
2.34 m2
1.87 m2
2.34 m2
1.87 m2
2.34 m2
1.87 m2
m2
m2
m2
m2
m2
m2
m2
1.87 m2
Absorber Area
2.34
1.87
2.34
1.87
2.34
1.87
2.34
Absorber
Type
Copper
Copper
Aluminum
Aluminum
Aluminum
Aluminum
Aluminum
Aluminum
SunSelect - Cu
SunSelect - Cu
Mirotherm - Al
Mirotherm - Al
Mirotherm - Al
Mirotherm - Al
Mirotherm - Al
Mirotherm - Al
Absorpion
% 95
% 95
% 95
% 95
% 95
% 95
% 95
% 95
Emission
%5
%5
%5
%5
%5
%5
%5
%5
Pure Aluminum
Pure Aluminum
Pure Aluminum
Pure Aluminum
Coating
Frame
Black anodised Aluminum Black anodised Aluminum Black anodised Aluminum Black anodised Aluminum
Height
2180 mm
1750 mm
2180 mm
1750 mm
2180 mm
1750 mm
2180 mm
1750 mm
Width
1150 mm
1150 mm
1150 mm
1150 mm
1150 mm
1150 mm
1150 mm
1150 mm
Depth
80 mm
80 mm
80 mm
80 mm
80 mm
80 mm
80 mm
80 mm
Weight
53 kg
42 kg
52 kg
42 kg
50 kg
42 kg
50 kg
40 kg
low iron, temperred,
low iron rate, temperred,
low iron rate, temperred,
low iron rate, temperred,
low iron rate, temperred,
low iron rate, temperred,
low iron rate, temperred,
low iron rate, temperred,
Glass
Type
sandy patterned solar glass sandy patterned solar glass sandy patterned solar glass sandy patterned solar glass sandy patterned solar glass sandy patterned solar glass sandy patterned solar glass sandy patterned solar glass
Thickness
4 mm
4 mm
4 mm
4 mm
4 mm
4 mm
4 mm
4 mm
Light of Transmittance Td65
91.60%
91.60%
91.60%
91.60%
91.60%
91.60%
91.60%
91.60%
Solar Energy Transmittance Tsol
90.50%
90.50%
90.50%
90.50%
90.50%
90.50%
90.50%
90.50%
Vulkanized EPDM
Vulkanized EPDM
Vulkanized EPDM
Vulkanized EPDM
Vulkanized EPDM
Vulkanized EPDM
Vulkanized EPDM
Vulkanized EPDM
Other features
Sealing
Insulation
Rockwool (40 mm) Rockwool (40 mm) Rockwool (40 mm) Rockwool (40 mm) Rockwool (40 mm) Rockwool (40 mm) Glasswool (40 mm) Glasswool (40 mm)
Black Plate
0.8 mm Aluminum 0.8 mm Aluminum 0.8 mm Aluminum 0.8 mm Aluminum 0.8 mm Aluminum
Number of Risers
Ø Risers
Ø Manifold (Header)
Connections
Water Volume
0.8 mm Aluminum 0.8 mm Galvanizd Steel 0.8 mm Galvanized Steel
12
12
12
12
12
12
10
10
10 mm
10 mm
10 mm
10 mm
10 mm
10 mm
10 mm
10 mm
18 mm (3/4”)
18 mm (3/4”)
18 mm (3/4”)
18 mm (3/4”)
18 mm (3/4”)
18 mm (3/4”)
18 mm (3/4”)
18 mm (3/4”)
Compression Joint Compression Joint Compression Joint Compression Joint Compression Joint Compression Joint Compression Joint Compression Joint
2.04 Liter
1.71 Liter
2.2 Liter
1.8 Liter
2.2 Liter
1.8 Liter
1.8 Liter
1.5 Liter
Max.Working Pressure
10 bar
10 bar
10 bar
10 bar
10 bar
10 bar
10 bar
10 bar
Testing Pressure
15 bar
15 bar
15 bar
15 bar
15 bar
15 bar
15 bar
15 bar
Max.Temperature
200 °C
200 °C
200 °C
200 °C
200 °C
200 °C
200 °C
200 °C
180 °C
180 °C
180 °C
180 °C
180 °C
180 °C
Stagnation Temperature
Certification
Solar Keymark/SRCC OG 100 Solar Keymark/SRCC OG 100 Solar Keymark/SRCC OG 100 Solar Keymark/SRCC OG 100 Solar Keymark/SRCC OG 100 Solar Keymark/SRCC OG 100
9
180 °C
180 °C
Solar Keymark
Solar Keymark
Baymak Solar Collector Models
Advanced XL
The Advanced XL vertical flat-plate collector has a copper absorber with a high efficiency selective coating.
Vertical copper pipes are laser welded to the absorber. The collector brut area of 2,51 m2 is available for both
forced and natural circulation systems. Advanced XL collector frame material made from black anodised
aluminium.
Technical Data
ADVANCED XL
• 2,51 m2 gross area
Product Code
9150200
Efficiency
78.00%
• Copper selective surface
Power Output per collector at 1000W/sqm
Peak Power
1811 W
• Black anodised aluminium frame
Delta T: 10 K
1703 W
Delta T: 30 K
Delta T: 50 K
Brut Size
Aperute Area
Absorber Area
Absorber
Type
Coating
Absorpion
Emission
Frame
Height
Width
Depth
Weight
Glass
Type
Thickness
Light of Transmittance Td65
Solar Energy Transmittance Tsol
Other Features
Sealing
Insulation
Black Plate
Number of Risers
Ø Risers
Ø Manifold (Header)
Connections
Water Volume
Max.Working Pressure
Testing Pressure
Max.Temperature
Stagnation Temperature
Certification
1481 W
1253 W
2.51 m2
2.34 m2
2.34 m2
Copper
SunSelect - Cu
% 95
%5
Black anodised Aluminum
2180 mm
1150 mm
80 mm
53 kg
low iron, temperred, sandy patterned solar glass
4 mm
91.60%
90.50%
Vulkanized EPDM
Rockwool (40 mm)
0.8 mm Aluminum
12
10 mm
18 mm (3/4”)
Compression Joint
2.04 Liter
10 bar
15 bar
200 °C
180 °C
Solar Keymark/SRCC OG 100
Advanced X
The Advanced X vertical flat-plate collector has a copper absorber with a high efficiency selective coating. Vertical
copper pipes are laser welded to the absorber. The collector brut area of 2,00 m2 is available for both forced
and natural circulation systems. Advanced X collector frame material made from black anodised aluminium.
• 2,0 m2 gross area
Technical Data
ADVANCED X
• Copper selective surface
Product Code
9150205
Efficiency
76.80%
• Black anodised aluminium frame
Power Output per collector at 1000W/sqm
Peak Power
Delta T: 10 K
Delta T: 30 K
Delta T: 50 K
Brut Size
Aperute Area
Absorber Area
Absorber
Type
Coating
Absorpion
Emission
Frame
Height
Width
Depth
Weight
Glass
Type
Thickness
Light of Transmittance Td65
Solar Energy Transmittance Tsol
Other Features
Sealing
Insulation
Black Plate
Number of Risers
Ø Risers
Ø Manifold (Header)
Connections
Water Volume
Max.Working Pressure
Testing Pressure
Max.Temperature
Stagnation Temperature
Certification
10
1427 W
1351 W
1190 W
1018 W
2.00 m2
1.87 m2
1.87 m2
Copper
SunSelect - Cu
% 95
%5
Black anodised Aluminum
1750 mm
1150 mm
80 mm
42 kg
low iron rate, temperred, sandy patterned solar glass
4 mm
91.60%
90.50%
Vulkanized EPDM
Rockwool (40 mm)
0.8 mm Aluminum
12
10 mm
18 mm (3/4”)
Compression Joint
1.71 Liter
10 bar
15 bar
200 °C
180 °C
Solar Keymark/SRCC OG 100
Essential Black XL
The Essential Black XL vertical flat-plate collector has an aluminium absorber with a high efficiency selective
coating. Vertical copper pipes are laser welded to the absorber. The collector brut area of 2,51 m2 is available
for both forced and natural circulation systems. Essential Black XL collector frame material made from black
anodised aluminium.
Technical Data
ESSENTIAL BLACK XL
Product Code
9150245
• 2,51 m2 gross area
Efficiency
80.90%
Power Output per collector at 1000W/sqm
• Aluminium selective surface
Peak Power
1882 W
Delta T: 10 K
1773 W
• Black anodised aluminium frame
Delta T: 30 K
Delta T: 50 K
Brut Size
Aperute Area
Absorber Area
Absorber
Type
Coating
Absorpion
Emission
Frame
Height
Width
Depth
Weight
Glass
Type
Thickness
Light of Transmittance Td65
Solar Energy Transmittance Tsol
Other Features
Sealing
Insulation
Black Plate
Number of Risers
Ø Risers
Ø Manifold (Header)
Connections
Water Volume
Max.Working Pressure
Testing Pressure
Max.Temperature
Stagnation Temperature
Certification
1551 W
1322 W
2.51 m2
2.34 m2
2.34 m2
Aluminum
Mirotherm - Al
% 95
%5
Black anodised Aluminum
2180 mm
1150 mm
80 mm
52 kg
low iron rate, temperred, sandy patterned solar glass
4 mm
91.60%
90.50%
Vulkanized EPDM
Rockwool (40 mm)
0.8 mm Aluminum
12
10 mm
18 mm (3/4”)
Compression Joint
2.2 Liter
10 bar
15 bar
200 °C
180 °C
Solar Keymark/SRCC OG 100
Essential Black X
The Essential Black X vertical flat-plate collector has an aluminium absorber with a high efficiency selective
coating. Vertical copper pipes are laser welded to the absorber. The collector brut area of 2,0 m2 is available
for both forced and natural circulation systems. Essential Black X collector frame material made from black
anodised aluminium.
Technical Data
ESSENTIAL BLACK X
• 2,0 m2 gross area
Product Code
9150243
Efficiency
80.50%
• Aluminium Selective Surface
Power Output per collector at 1000W/sqm
Peak Power
1493 W
• Black Anodised Aluminium frame
Delta T: 10 K
1403 W
Delta T: 30 K
Delta T:50 K
Brut Size
Aperute Area
Absorber Area
Absorber
Type
Coating
Absorpion
Emission
Frame
Height
Width
Depth
Weight
Glass
Type
Thickness
Light of Transmittance Td65
Solar Energy Transmittance Tsol
Other Features
Sealing
Insulation
Black Plate
Number of Risers
Ø Risers
Ø Manifold (Header)
Connections
Water Volume
Max.Working Pressure
Testing Pressure
Max.Temperature
Stagnation Temperature
Certification
11
1219 W
1032 W
2.00 m2
1.87 m2
1.87 m2
Aluminum
Mirotherm - Al
% 95
%5
Black anodised Aluminum
1750 mm
1150 mm
80 mm
42 kg
low iron rate, temperred, sandy patterned solar glass
4 mm
91.60%
90.50%
Vulkanized EPDM
Rockwool (40 mm)
0.8 mm Aluminum
12
10 mm
18 mm (3/4”)
Compression Joint
1.8 Liter
10 bar
15 bar
200 °C
180 °C
Solar Keymark/SRCC OG 100
Essential XL
The Essential XL vertical flat-plate collector has an aluminium absorber with a high efficiency selective coating.
Vertical copper pipes are laser welded to the absorber. The collector brut area of 2,51 m2 is available for both
forced and natural circulation systems. Essential XL collector frame material made from pure (grey) aluminium.
• 2,51 m2 gross area
• Aluminium selective surface
Technical Data
ESSENTIAL XL
• Pure (Grey) aluminium frame
Product Code
Efficiency
Power Output per collector at 1000W/sqm
Peak Power
Delta T: 10 K
Delta T: 30 K
Delta T: 50 K
Brut Size
Aperute Area
Absorber Area
Absorber
Type
Coating
Absorpion
Emission
Frame
Height
Width
Depth
Weight
Glass
Type
Thickness
Light of Transmittance Td65
Solar Energy Transmittance Tsol
Other Features
Sealing
Insulation
Black Plate
Number of Risers
Ø Risers
Ø Manifold (Header)
Connections
Water Volume
Max.Working Pressure
Testing Pressure
Max.Temperature
Stagnation Temperature
Certification
9150246
80.90%
1882 W
1773 W
1551 W
1322 W
2.51 m2
2.34 m2
2.34 m2
Aluminum
Mirotherm - Al
% 95
%5
Pure Aluminum
2180 mm
1150 mm
80 mm
50 kg
low iron rate, temperred, sandy patterned solar glass
4 mm
91.60%
90.50%
Vulkanized EPDM
Rockwool (40 mm)
0.8 mm Aluminum
12
10 mm
18 mm (3/4”)
Compression Joint
2.2 Liter
10 bar
15 bar
200 °C
180 °C
Solar Keymark/SRCC OG 100
Essential X
The Essential X vertical flat-plate collector has an aluminium absorber with a high efficiency selective coating.
Vertical copper pipes are laser welded to the absorber. The collector brut area of 2,00 m2 is available for both
forced and natural circulation systems. Essential X collector frame material made from pure (grey) aluminium.
• 2,00 m2 gross area
Technical Data
ESSENTIAL X
• Aluminium selective surface
Product Code
9150244
Efficiency
80.50%
• Pure (Grey) aluminium frame
Power Output per collector at 1000W/sqm
Peak Power
Delta T: 10 K
Delta T: 30 K
Delta T: 50 K
Brut Size
Aperute Area
Absorber Area
Absorber
Type
Coating
Absorpion
Emission
Frame
Height
Width
Depth
Weight
Glass
Type
Thickness
Light of Transmittance Td65
Solar Energy Transmittance Tsol
Other Features
Sealing
Insulation
Black Plate
Number of Risers
Ø Risers
Ø Manifold (Header)
Connections
Water Volume
Max.Working Pressure
Testing Pressure
Max.Temperature
Stagnation Temperature
Certification
12
1493 W
1403 W
1219 W
1032 W
2.00 m2
1.87 m2
1.87 m2
Aluminum
Mirotherm - Al
% 95
%5
Pure Aluminum
1750 mm
1150 mm
80 mm
42 kg
low iron rate, temperred, sandy patterned solar glass
4 mm
91.60%
90.50%
Vulkanized EPDM
Rockwool (40 mm)
0.8 mm Aluminum
12
10 mm
18 mm (3/4”)
Compression Joint
1.8 Liter
10 bar
15 bar
200 °C
180 °C
Solar Keymark/SRCC OG 100
Apollo S XL
The Apollo S XL vertical flat-plate collector has an aluminium absorber with a high efficiency selective coating.
Vertical copper pipes are laser welded to the absorber. The collector brut area of 2,51 m2 is available for both
forced and natural circulation systems. Apollo S XL collector frame material made from pure (grey) aluminium.
• 2,51 m2 gross area
• Aluminium selective surface
Technical Data
APOLLO S XL
• Pure (Grey) aluminium frame
Product Code
9150238
Efficiency
Power Output per collector at 1000W/sqm
Peak Power
Delta T: 10 K
Delta T: 30 K
Delta T: 50 K
Brut Size
Aperute Area
Absorber Area
Absorber
Type
Coating
Absorpion
Emission
Frame
Height
Width
Depth
Weight
Glass
Type
Thickness
Light of Transmittance Td65
Solar Energy Transmittance Tsol
Other Features
Sealing
Insulation
Black Plate
Number of Risers
Ø Risers
Ø Manifold (Header)
Connections
Water Volume
Max.Working Pressure
Testing Pressure
Max.Temperature
Stagnation Temperature
Certification
78.00%
1797 W
1695 W
1484 W
1262 W
2.51 m2
2.34 m2
2.34 m2
Aluminum
Mirotherm - Al
% 95
%5
Pure Aluminum
2180 mm
1150 mm
80 mm
50 kg
low iron rate, temperred, sandy patterned solar glass
4 mm
91.60%
90.50%
Vulkanized EPDM
Glasswool (40 mm)
0.8 mm Galvanizd Steel
10
10 mm
18 mm (3/4”)
Compression Joint
1.8 Liter
10 bar
15 bar
200 °C
180 °C
Solar Keymark
Apollo S X
The Apollo S X vertical flat-plate collector has an aluminium absorber with a high efficiency selective coating.
Vertical copper pipes are laser welded to the absorber. The collector brut area of 2,00 m2 is available for both
forced and natural circulation systems. Apollo S X collector frame material made from pure (grey) aluminium.
• 2,00 m2 gross area
Technical Data
APOLLO S X
• Aluminium selective surface
Product Code
9150237
• Pure (Grey) aluminium frame
Efficiency
77.00%
Power Output per collector at 1000W/sqm
Peak Power
Delta T: 10 K
Delta T: 30 K
Delta T: 50 K
Brut Size
Aperute Area
Absorber Area
Absorber
Type
Coating
Absorpion
Emission
Frame
Height
Width
Depth
Weight
Glass
Type
Thickness
Light of Transmittance Td65
Solar Energy Transmittance Tsol
Other Features
Sealing
Insulation
Black Plate
Number of Risers
Ø Risers
Ø Manifold (Header)
Connections
Water Volume
Max.Working Pressure
Testing Pressure
Max.Temperature
Stagnation Temperature
Certification
12
1419 W
1338 W
1166 W
984 W
2.00 m2
1.87 m2
1.87 m2
Aluminum
Mirotherm - Al
% 95
%5
Pure Aluminum
1750 mm
1150 mm
80 mm
40 kg
low iron rate, temperred, sandy patterned solar glass
4 mm
91.60%
90.50%
Vulkanized EPDM
Glasswool (40 mm)
0.8 mm Galvanized Steel
10
10 mm
18 mm (3/4”)
Compression Joint
1.5 Liter
10 bar
15 bar
200 °C
180 °C
Solar Keymark
Baymak Solar Storage Tanks
Power output of a solar system is not particularly high in comparison with standard heating systems. For example,
a 5 m2 solar system can reach a maximum power of 2,5 kW while working under most favourable conditions.
Thus, the storage tanks is one of the most important components of the system since the sun gives his maximum
contribution only for few hours per day and not every day.
We can roughly state the tank capacity has to be 1,5-2 times the daily DHW demand. By increasing its capacity
it would be possible to store a bigger amount of energy but inner temperature level would inevitably decrease
(that means the auxiliary boiler has to switch on much more frequently).
DHW
Integration Volume
To the boiler
Solar Volume
Exchanger
To the collector
Cold water
Solar Exchanger
Generally, 200-400 litres double coil storage tanks are the best choice for single houses and apartments. Solar
circuit is connected to lower coil and auxiliary boiler to upper coil. The density difference between hot and cold
water inside the tank causes temperatures stratification. Being lighter, hot water collects in the upper part of
the storage tank, whereas cold water collects in the bottom. The bigger is the ratio between height and diameter,
the more the temperatures stratify.
Thus, the lower is the bottom temperature, the more profitably the solar system will operate even in case of
scarce solar irradiation.
The storage tank insulation must be very well insulated. Thermal losses amount should be as low as possible.
For example, the difference in terms of energy waste between an insulation coefficient of 3 W/°C (normal tank)
and an insulation coefficient of 1,5 W/°C (standard solar tank) is roughly 450 kWh.
In case of hard water, it’s advisable to keep the storage temperature lower than 60°C to avoid scale deposits
and coils efficiency decrease as a consequence (a 2 mm deposit corresponds to an efficiency decrease of 20%,
a 5 mm deposit to a decrease of 40%). Still regarding this matter, also the delta between inlet and delivery
temperatures of the coil should not be higher than 15°C.
13
Baymak Storage Tank With Single Coil
SERVICE DOOR
THERMOMETER
Maximum working pressure : 8 bar
CIRCUIT OUTLET 1” MALE OR FEMALE
Maximum testing pressure : 12 bar
Maximum temperature: 85 C
SERVICE CIRCULATION OUTLET
R 3/4” MALE OR FEMALE
Insulation: CFC free PU (polyurethane)
SERPENTINE INLET
R 1” FEMALE
SENSOR PLACE
Optional: heating element from 2 kw until 12 kw
SERPENTINE OUTLET
R 1” FEMALE
CIRCUIT INLET R 1” MALE OR FEMALE
Baymak solar collectors
1
Range: 80 - 200 Lt.
2 Solar pump group
3 Fixing material
4 Insulation material:
Polyurethane, densitiy: 40 kg/m3
Thickness: 50 mm
The models 800 lt and 1000 is with 100
mm soft foam
4 Baymak expansion tank
5 Baymak storage tank
6 Control panel
4 Enamelled tank
1
4 Enamelled coil
4 Mg anode
4 Flange
4 Cover in any colour
Range: 300 -1000 Lt.
3
2
6
SOR M
4
5
STORAGE TANK WITH SINGLE COIL
Dimensions
Description
CAPASITY
200S 300S 300SL 400S
1300
1210
1560
1810
600
740
740
615
80
85
85
80
240
280
280
240
A
Height
mm
80S
900
B
Diameter
mm
500
500
600
600
615
C
Circuit inlet
mm
70
70
80
80
80
D
Serpentine outlet
mm
220
220
240
240
245
E
Sensor case
mm
355
400
420
375
350
515
555
405
605
F
Serpentine inlet
mm
505
550
505
600
460
650
685
935
780
G
Service circulation
mm
635
790
595
785
510
935
870
1260
1225
H
Hot water outlet
mm
790
945
750
1050
1120
1210
1135
1720
L
The height of cleaning door
mm
-
-
-
-
***
-
320
***
M
Cleaning door
-
-
-
-
***
-
DN 100
***
N
1”
1”
1”
1”
1''
1”
1”
1''
1”
1”
1”
1”
1''
1”
1”
1''
P
Serpentine inlet / outlet diameter inch
Circuit inlet / diameter of hot water outlet inch
Diameter of service circulation
inch
3/4”
3/4”
3/4”
3/4”
3/4''
3/4”
3/4”
3/4''
U
Weight
38
43
54
81
90
90
109
105
O
kg
100S
105
120S
930
160S
1270
180S
1210
14
500S
1860
740
800S 1000S
1700
2050
1050
1050
85
120
125
280
350
350
650
815
1060
875
1040
1280
1525
1285
1635
1785
1625
1975
320
505
505
320
DN 100 DN 100 DN 250 DN 250
1”
1”
1”
1”
1”
1”
1”
1”
3/4”
3/4”
3/4”
3/4”
178
202
261
295
1490
Baymak Storage Tank With Double Coil
SERVICE DOOR
Maximum working pressure : 8 bar
HOT WATER OUTLET
R 1” MALE OR FEMALE
SERPENTINE INLET R 1” FEMALE
Maximum testing pressure : 12 bar
SERPENTINE PLACE
SERVICE CIRCULATION OUTLET
R 3/4” MALE OR FEMALE
Maximum temperature: 85 C
SERPENTINE OUTLET R 1” FEMALE
SERPENTINE INLET R 1” FEMALE
Insulation: CFC free PU (polyurethane)
SENSOR PLACE
Optional: heating element from 2 kw until 12 kw
SERPENTINE OUTLET R 1” FEMALE
CIRCUIT INLET R 1”
MALE OR FEMALE
Range: 160 - 200 Lt.
1
Baymak solar collectors
2
3 Fixing material
4 Insulation material:
Polyurethane, densitiy: 40 kg/m3
Thickness: 50 mm
The models 800 lt and 1000 is with 100
mm soft foam
4 Baymak expansion tank
5 Baymak storage tank
6 Control panel
4 Enamelled tank
1
4 Enamelled coil
4 Mg anode
4 Flange
4 Cover in any colour
Range: 300 - 1000 Lt.
2
3
6
SOR M
4
5
STORAGE TANK WITH DOUBLE COIL
Dimensions
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
U
Description
Height
Diameter
Circuit inlet
Serpentine outlet
Sensor case
Serpentine inlet
Service circulation
hot water outlet
Serpentine outlet
Sensor case
Serpentine inlet
The height of cleaning door
Cleaning door
Serpentine inlet / outlet diameter
Circuit inlet / Hot water outlet diameter
Service circulation diameter
Weight
mm
mm
mm
mm
mm
mm
mm
mm
mm
mm
mm
mm
inch
inch
inch
kg
80D
-
100D
-
120D
-
15
160D
1270
600
80
240
370
600
785
1060
700
785
870
***
***
1”
1”
3/4”
86
180D
1210
615
80
245
350
460
510
1120
555
650
815
***
***
1''
1''
3/4''
98
CAPASITY
200D 300D 300DL
1300
1210
1810
600
740
615
80
85
80
240
280
240
515
555
405
650
685
935
935
870
1260
1210
1135
1720
740
785
1035
890
875
1260
1020
950
1485
***
320
****
*** DN 100 ****
1”
1”
1''
1”
1”
1''
3/4”
3/4”
3/4''
98
116
119
400D 500D 800D 1000D
1700 2050
1560
1860
1050
1050
740
740
120
120
85
85
350
352
280
280
815
1060
605
650
1040
1280
780
875
1285
1635
1225
1525
1625
1975
1490
1785
1195
1435
975
1180
1285
1635
1155
1405
1610
1420
1760
1310
320
505
505
320
DN 100 DN 100 DN 250 DN 250
1”
1”
1”
1”
1”
1”
1”
1”
3/4”
3/4”
3/4”
3/4”
218
276
308
190
Baymak Combi Storage Tank (Tank in Tank)
B
O
HOT WATER OUTLET
R 1” MALE OR FEMALE
P
SERVICE CIRCULATION
OUTLET R 3/4” MALE OR FEMALE
N
SERPENTINE INLET
R 1” FEMALE
A H
G
F
E
M
SERPENTINE OUTLET
R 1” FEMALE
D
L
C
CIRCUIT INLET
R 1” MALE OR FEMALE
COMBI STORAGE TANK
Dimensions
A
B
C
D
E
F
G
H
L
M
N
O
P
R
S
U
V
Y
Z
Q
CAPASITY
Description
H800/160L
Height
Diameter (including insulation)
Boiler return
Serpentine outlet
Sensor case
Serpentine inlet
Boiler inlet
Hot water inlet
The height of cleaning door
Cleaning door
Serpentine inlet / outlet diameter
Hot water inlet / Diameter of boiler return pipe
Diameter of boiler inlet pipe
Volume of hot water
Volume of heating water
Weight
Combi circuit inlet
Combi hot water outlet
Combi sensor case
Combi circuit inlet / Diameter of hot water outlet
16
mm
mm
mm
mm
mm
mm
mm
mm
mm
inch
inch
inch
lt
lt
kg
mm
mm
mm
inc
2065
1050
125
350
1035
1250
1525
1890
505
DN 250
1”
1”
3/4”
160
640
565
2065
2065
2065
1/2”
H1000/200L
2125
1050
190
420
1110
1345
1610
1985
505
DN 250
1”
1”
3/4”
200
800
620
2120
2120
2120
1/2”
Accessories For Forced Draft Installation
• Controllers
The perfect functioning of the system can be obtained through the optimization of the flows of each circuit,
reaching the right room temperature as well as measuring the spoiled energy.
This goal can be reached through simple and advanced controllers, which receive signals from various elements
and allow to set the control temperature, the timings for switching on auxiliary boilers, etc.
The controllers transform the reading of the temperature into an electric signal that switch on/off a specific
process. The controller allows the fluid to get into circulation only with a real solar energy power support; it
measures the temperature out of the collector and in the bottom of the tank through sensors. The differential
thermostat compares both temperatures so that, in case the temperature is higher than the set limit, the
circulating pump starts working. Apart from what explained above, the controller can be adopted in different
points and for many uses inside these types of installation.
“SOR-M PLUS” Controller
The differential controller “SOR-M PLUS” used in the integrated solar system Baymak, is distinguished by the
easiness of use thanks to a simple display with only 4 buttons, of the system’s working.
The “SOR-M PLUS” controller grants a perfect regulation of solar systems installation made also by 2 tanks of
collectors or 2 storage tanks. It can be used also on a traditional solar installation, as well as shown on the 4
different installation schemes. (Described in the next page).
The solar automatic controller SOR M regulates thermal solar systems with up to 2 collectors or 2 storage tank
and may be used for five system types.
Features:
• Intuitive, menu-conducted operation with graphic symbols and four operating keys.
• 6 sensors that can be linked
• 3 programmable exits (230V / 1A)
• Thermostat function
• 3 levels hourly programming on daily basis
• Regulator of the energy output ( flow regulator as optional accessory)
SOR M
• Display of the istantaneous temperatures of the collector and of the cylinder
• Temperature differential regulation digitally adjustable regulation values
• Rotation speed control or switch control of solar circulation pump.
• Special function for systems with tube collectors
• Integrated operating hour meter for storage tank charging
• Extensive functions for system monitoring with error and failure display through symbols
• Integrated energy productivity measurement which by means of the productivity measuring set (accessories)
measures the energy obtained by a solar system.
• Storing of all adjusted values even in the case of any longer mains voltage breakdown.
• Various protective functions, as e.g. system protection, collector protection, recooling and antifreezing
17
Installation Schemes (With “SOR-M PLUS” Controller)
Collector
Collector 1
Collector sensor
Collector sensor
Collector 2
Flow meter
Solar pump
Return sensor
Solar pump 1
Return sensor
Solar pump 2
Lower coil sensor
Cylinder 1
Upper coil sensor
Cylinder 2
Lower coil sensor
Upper coil sensor
Collector sensor
Cylinder 1
Flow meter
Calorimeter
Collector 1
Calorimeter
Collector
Collector sensor
Collector sensor
Solar pump 2
Solar pump
Upper coil sensor
Lower coil sensor
Solar pump 1
Cylinder 2
Lower coil sensor
Collector 2
Cylinder 1
Lower coil sensor
Cylinder 1
Upper coil sensor
Collector sensor
Flow meter
Return sensor
Return sensor
Flow meter
Calorimeter
Calorimeter
Electric Schemes
PE
Discharge wire on the ground floor
WMM Flow transducer
“SOR-M PLUS” controller
L
Phase-network
T1
Thermal sensor of the collector 1
N
Neutral wire-network
T2
A1
Phase-Rele 1
T3
Thermal sensor of the storage
tank 1
Thermal sensor of the collector 2/
storage tank 2
N
Neutral wire-network-Rele 1
T4
Thermal sensor of the collectorreturn
A2
Phase-Rele 2
T5
Thermal sensor of the heating
circuit/cooling or differential
temperature* regulator source
N
Neutral wire-Rele 2
T6
Thermal sensor of the anti-frost*or
of the well differential temperature
regulator or general measuring
point (it is masked when it is not
connected)
A3
Phase-Rele 3
*
Freely programmable sensor T1..T6
N
Neutral wire-Rele 3
PE
Discharge wire on the ground floor
WMM Calorimeter (not present)
L
Phase-network
T1
Thermal sensor of the collector
N
Neutral wire-network
T2
Thermal sensor of the storage tank
A1
Phase-Rele 1
T3
Thermal sensor of the collector
N
Neutral wire-network-Rele 1
T4
Thermal sensor of the collector-return
A2
Phase-Rele 2
N
Neutral wire-Rele 2
Voltage network side
Low voltage side
“Eco” controller
Voltage network side
Low voltage side
18
“SOR S” Controller
The differential controller “SOR S” used in the integrated solar system Baymak, is distinguished by the easiness
of use, thanks to a simple display with only 4 buttons, of the system’s working. The solar automatic controler
Sor S regulates thermal solar systems with one collector and one storage tank.
Features:
• Intuitive, menu-conducted operation with graphic symbols and four operating keys.
• 3 sensors that can be linked
• 3 programmable exits (230V / 1A)
• Thermostat function
• 3 levels hourly programming on daily basis
• Regulator of the energy output ( flow regulator as optional accessory)
• Protection of the collector against over temperatures
• Temperature differential regulation digitally adjustable regulation values
• Rotation speed control or switch control of solar circulation pump.
• Special function for systems with tube collectors
• Integrated operating hour meter for storage tank charging
• Extensive functions for system monitoring with error and failure display through symbols
• Baymak Solar Station
Baymak solar station, is provided with thermal
insulation, includes in compact dimensions
all the components for a correct working of
the system and the greatest
reliability.
Baymak solar kit has been developed to be
connected to the range of instantaneous gas
boilers. It represents a compact solution which
includes adjustable thermostatic mixing valve
and diverter valve. If the temperature of the
water warmed by the solar system does not
reach the desired level of comfort, the diverter
valve makes the boiler to intervene to supply
DHW at the desired temperature.
• Flow rate: 4 - 16 lt min.
• High system efficiency
• All components in one body
• Ready for installing
• High quality components
• With Solar pump
• Body with Insulation
• Expansion tank connection part
• with Safety Valve and air valve installed
• Easy mounting and maintenance
• Maxiumum working temperature 160 C
• Maximum short term starting temperature
• Maximum working pressure
• Grundfos type: 15 - 16 solar pump
• Maximum pump head :
• Maximum pump flow : 19
Baymak Expansion Vessel For Solar Installation
Installation of an expansion vessel with a high temperature resistant membrane is recommended for solar
systems. Their function is to absorb the expansion of the heat transfer fluid as the temperature increases in the
primary circuit, to maintain pressure inside the circuit within the allowable pressure range and to prevent the
introduction of air into the circuit during system cooldown.
• Suitable for solar energy systems
• Electrostatic powder paint
• CE Certification
• Optimal working temperature 0-110 °C
Codes
Capacity
17100018
TM 7,5 LT
17100015
TM 18 LT
17100017
TM 25 LT
17100012
TM 40 LT
17100002
TM 50 LT
17100003
TM 80 LT
17100004
TM 100 LT
17100005
TM 200 LT
17100006
TM 300 LT
17100007
TM 500 LT
17100008
TM 750 LT
17100009
TM 1000 LT
Solar Liquid For Solar Installation
Fernox Solar S1 is a clear, orange liquid with a distinct, faint odour. It has been specifically formulated for use
as a heat transfer fluid within solar thermal heating systems at elevated temperatures.
Fernox Solar S1 employs volatile corrosion inhibitors that will protect the installation when the heat transfer fluid
is in either a gaseous or liquid state at temperatures in excess of 180°C.
• An inhibited heat transfer fluid for all solar thermal applications
• Frost protection to minus 28°C
• Volatile corrosion inhibitor for protection in gas and liquid phases
• Stable pH across the range of operational temperatures
• Compatible with all models of solar panels
20
Hydraulic Assembly Accessories For Solar Thermal Installations
18x18 Nipple
Blind Plug
Elbow
18x3/4”
Blind
Plug
Elbow
18x3/4”
PHOTOS
DESCRIPTION
CODES
PHOTOS
DESCRIPTION
CODES
Ø18 mm x Ø18 mm Nipple
63 0644 0016
Manual Air Bleed 1/2”
63 0644 0014
Ø18 mm x 3/4” Elbow
63 0644 0017
Automatic Air Bleed 1/2”
63 610 3049
Ø18 mm x Blind Plug
63 0644 0018
Sensor Hive With
09140074
Manuel Air Bleed Ø18 mm
Sensor Hive With
Ø18 mm x 3/4” Nipple
63 0644 0015
Hive Ø18 mm
63 0644 0021
Automatic Air Bleed Ø18 mm
09140075
Flex Hose (U Type)
HMF-05/09-011/16-HB-‹ZL-L400
63 1124 3001
Flex Hose (Straight Type)
Complete Sensor Hive L:144 mm
HMF-05/09-011/16-3/4N-HB-‹ZL-L160
63 1032 3010
L: 241 mm
21
63 1124 3002
Hydraulic Assembly Kits For Solar Thermal Installations
1 K Collector Kit 2 K Collector Kit 1 K Collector Kit 2 K Collector Kit
1 K Collector
Base Kit
No
Photos
Description
Codes
09140080
1
63 0644 0016 Ø18 mm x Ø18 mm Nipple
2
2 K Collector With Manuel Air With Manuel Air With Automatic With Automatic
Air Vent and
Base Kit Vent and Sensor Vent and Sensor Air Vent and
09140081
Plug
Plug
Sensor Plug
Sensor Plug
09140082
09140083
09140084
09140085
-
2 pcs
-
2 pcs
-
2 pcs
63 0644 0017 Ø18 mm x 3/4” elbow
2 pcs
2 pcs
1 pc
1 pc
1 pc
1 pc
3
63 0644 0018 Ø18 mm x blind plug
2 pcs
2 pcs
2 pcs
2 pcs
2 pcs
2 pcs
4
09140074
-
-
1 pc
1 pc
-
-
5
09140075
-
-
-
-
1 pc
1 pc
6
62 1124 3001
-
-
-
-
-
-
7
63 1124 3002
-
-
-
-
-
-
sensor hive with manuel air
bleed Ø18 mm
sensor hive with automatic air
bleed Ø18 mm
Flex Hose (U Type)
HMF-05/09-011/16-HB-‹ZL-L400
Flex Hose (Straight Type)
HMF-05/09-011/16-3/4N-HB-‹ZL-L160
L: 241 mm
4 or 5
4 or 5
1
3
1
3
1
2
1
2
2
3
2
3
1
7
3
1
7
4 or 5
1
6
1
3
1
2
3
4
2
3
1
1
6
4 or 5
4 or 5
1
7
6
1
3/4”
Blind plug
1
2
3
4
5
2
1
7
6
22
1
3
Roof Mounting Kits
Description
Colour
1 K AL Solar 1 K AL Solar
Panel Roof Kit Panel Kit “Z”
“Z” Profile
Profile-Black
-Silver
1 K AL Solar 1 K AL Solar 2 K AL Solar 2 K AL Solar
Panel Roof Kit Panel Roof Kit Panel Roof Kit Panel Kit “Z”
“L” Profile
“L” Profile
“Z” Profile
Profile-Black
-Silver
-Black
-Silver
2 K AL Solar 2 K AL Colector
Panel Roof Kit Panel Kit “L”
“L” Profile
Profile-Black
-Silver
Picture
Code
Product Picture
No.
-
-
09140070
09140071
09140072
09140073
09140076
09140077
09140078
09140079
9140088
Arrangable roof
connection bracket for wind
and snow loads.
316 L
Stainless
steel
-
-
-
-
-
-
-
-
63 1024 0255
Roof bracket for tile roof L
connection
Black
-
-
4
4
-
-
6
6
Black
4
4
-
-
6
6
-
-
63 1024 0248 Roof bracket for shingle roof
Z connection
63 1024 0247
Roof mounting supporting
feet
Black
anodised
aluminum
4
4
4
4
4
4
4
4
63 1050 0098
Sigma Profile- Lg:1195
Gray
aluminum
2
-
2
-
-
-
-
-
63 1050 0112
Sigma Profile- Lg:2400
Black
anodised
aluminum
-
2
-
2
-
-
-
-
63 1050 0113
Sigma Profile- Lg:2400
Gray
aluminum
-
-
-
-
2
-
2
-
63 1050 0114
Sigma Profile- Lg:2400
Black
anodised
aluminum
-
-
-
-
-
2
-
2
63 1050 0120
Sigma Profile- Lg:2500
Gray
aluminum
-
-
-
-
2
-
2
-
Gray
63 1050 0120 Sigma Profile - Lg:3600 for 3 aluminum
collectors
-
-
-
-
-
-
-
-
Black
anodised
aluminum
-
-
-
-
-
-
-
-
Gray
- Lg:3750 for 3
63 1050 0126 Sigma Profile
aluminum
collectors
-
-
-
-
-
-
-
-
- Lg:3600 for 3
63 1050 0115 Sigma Profile
collectors
IMPORTANT =
63 1024.2417
Sigma profile connection
Aadaptor
310 stainless
steel
63 1050 0099
L support Part 1
Gray
aluminum
2
-
2
-
4
-
4
-
63 1050 0108
L support Part 1
Black
anodised
aluminum
-
2
-
2
-
4
-
4
63 1050 0100
Z support Part 2
Gray
aluminum
4
-
4
-
8
-
8
-
63 1050 0109
Z support Part 2
Black
anodised
aluminum
-
4
-
4
-
8
-
8
63 0541 0005
T bolt for Sigma profile
Stainless
steel
12
12
12
12
20
20
20
20
05 9921 0031
T›rt›l Pul
Stainless
steel
12
12
12
12
20
20
20
20
05 9930 0095
M10 nut
Stainless
steel
12
12
12
12
20
20
20
20
05 9912 0114
Bolt M8 x 70
Stainless
steel
16
16
16
16
36
36
36
36
05 9912 0112
Bolt M8 x 30
Stainless
steel
8
8
8
8
12
12
12
12
* / ** This Roof Anchors ( Rafter Fixings ) has to be checked by installers before ordering because of the different tiles.
A(1:2)
A
8
A ( 0,30 : 1 )
6
10
A(1:3)
4
23
Examples Of Baymak Forced Draft Installation Schemes
Here below there are some installation schemes that show possible installation solutions which combine a boiler
and a solar collector- The integration with solar systems for forced and natural draft installation has been
developed to grant the maximum comfort and energy saving.
COMPONENTS OF A BAYMAK SOLAR SYSTEM
24
1
Solar collector
2
Storage tank
3
Solar circulating group
4
Controller
5
Expansion vessel
6
Air-vent valve
7
Safety group
8
Cold water inlet
9
DHW outlet
10
Sensor of solar collectors
11
Sensor of the cylinder
12
Sensor of the boiler
13
Boiler
Examples Of Baymak Forced Draft Installation Schemes
13
COMPONENTS OF
A BAYMAK SOLAR SYSTEM
1
Solar collector
2 Solar storage tank
3 Solar circulating group
4 Controller
5 Expansion vessel
6 Air-vent valve
7 Safety group
8 Cold water inlet
9 DHW outlet
10 Sensor of solar collectors
11 Sensor of the cylinder
12 Sensor of the boiler
13 Boiler
14 Mixing valve
15 Feeding sensor sanitary pump
16 Collectors distribution heating system
17 Boiler storage tank
25
Baymak Makina San. ve Tic. A.fi.
BAYMAK with its 43 years history in the heating sector has widen its product range by adding laser welded solar
collectors with 6 different models and 2 different sizes between 2,5sqm to 2.0 sqm.
Apart establishing the one of the biggest enameled hot water tank production line in recent years, Baymak built
up the most modern laser welded solar collector production line in 2009, with the annual production capacity
of 375.000 sqm (150.000 pcs).
BAYMAK is a heating, cooling, water technology and solar energy company established in 1967, with its very well
known brand name reached to 2000 sales points in Turkey and manufactures both for local market and to its
export markets which are over 50 countries in 5 continents.
Baymak produces solar collectors, different sizes storage tanks for solar and heating, high efficient domestic
and residential floor standing boilers, (pellet/log wood/coal/oil /gas), burners (raps oil /oil/lpg/gas), electrical
and instant water heaters, expansion tanks and booster sets in two factories with a total closed area of 60.000
square meter located is Istanbul, Turkey.
BAYMAK is a part of BDR Thermea, a world leading manufacturer and distributor of innovative heating and hot
water systems and services, operating in a market worth over 16 billion of annual sales. BDR Thermea employ
more than 6.400 people across Europe with a turnover of 1.8 billion. The group has a top market position in
six key countries: UK, France, Germany, Spain, the Netherlands and Italy and strong positions in the rapidly
growing markets of Eastern Europe, Turkey, Russia, North America and China. In total BDR Thermea operates
in more than 70 countries worldwide.
BDR Thermea owns and sells some of the leading brands in the European market for heating products. These
include De Dietrich, Baxi, Remeha, Heatrae Sadia, Brötje, Potterton, Chappee, BaxiRoca and Baymak.
The strong R&D platform and the financial strength of BDR Thermea provide the opportunity to confirm and
build on the leadership in the emerging market for low carbon micro combined heat and power products. In
addition to manufacturing high efficiency boilers, BDR Thermea is committed to new heating technologies that
can play a major role in tackling climate change. The product range already includes biomass boilers, solar
collectors and heat pump products as well as unparalleled developments in what will be tomorrow’s favoured
heating solution, mCHP.
BAYMAK key of success lies in the strong commitment for :
The fastest Research and Development Team,
The highest technology and quality
The most competitive prices
The best delivery term conditions.
BAYMAK is a member of BDR Thermea
www.baymak.com.tr
26
ent”
“for a
c
nm
ner enviro
a
le
45
y e ars
BAYMAK MAK‹NA SANAY‹ VE T‹C. Afi.
ORHANLI BELDESI, ORTA MAHALLE AKDENIZ SOKAK NO: 8
34959 TUZLA / ISTANBUL / TURKEY
Tel.: 0090 216 581 65 00
Fax: 0090 216 304 19 64
www.baymak.com.tr
[email protected]
Against
Expensive
Energy