Upload
lekhuong
View
246
Download
3
Embed Size (px)
Citation preview
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 1/35 ©TANSUG MAKİNA LTD. 2008
TECHNICAL MANUAL FOR THERMOSYPHONIC SYSTEMS
“CLOSEST TO THE SUN”
SOLAR THERMAL SYSTEMS
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 2/35 ©TANSUG MAKİNA LTD. 2008
INDEX CHAPTER I ................................................................................................................................................................................... 3 INSTRUCTIONS FOR INSTALLER ............................................................................................................................................. 3 1. INTRODUCTION .................................................................................................................................................................... 3 2. COMPONENTS AND PHYSICAL CHARACTERISTICS ................................................................................................ 4
2.3 Solar panel ....................................................................................................................................................................................... 6 2.3.1 Technical Spec Sheet ........................................................................................................................................... 6 2.3.2 Efficiency Curve ..................................................................................................................................................... 6 2.3.3 Cross Section of the Solar Panels .................................................................................................................... 8
2.4 Technical Specifications of Horizontal Boilers ....................................................................................................................... 9 3. GENERAL INSTRUCTIONS- PREPERATIONS FOR INSTALLATION .................................................................... 13 4. INSTALLATION OF PANELS ........................................................................................................................................... 14
4.1 Placement of Panels .................................................................................................................................................................... 14 4.2 Panel Angle .................................................................................................................................................................................... 14 4.3 Avoiding Shades ........................................................................................................................................................................... 14
5. INSTALLATION OF THE SYSTEM .................................................................................................................................. 15 5.1 Installation of Single- Panel Systems ...................................................................................................................................... 15 5.2 Installation of Double- Panel Systems .................................................................................................................................... 16 5.3 Mounting of Expansion Tank in Inclined Roof ..................................................................................................................... 16
6. MODULAR ROOF-TOP STAND ....................................................................................................................................... 17
6.1 Compatibility .................................................................................................................................................................................. 17 6.2 List of Components used in the structures. .......................................................................................................................... 17 6.3 Description of screws that are used in the mounting of the stands................................................................................ 18 6.4 Assembly of Thermosyphonic Flat Roof Stand (TFR45) ................................................................................................ 18 6.5 Assembly of Thermosyphonic Flat Roof Stand (TFR35) ................................................................................................ 21 Assembly of Thermosyphonic Flat Roof Stand (TFR35) ................................................................................................ 22
7. FILLING THE BOILER..........................................................................................ERROR! BOOKMARK NOT DEFINED. 8. ELECTRICAL ELEMENT ................................................................................................................................................... 27 9. AFLU-S HEAT TRANSFER FLUID .................................................................................................................................. 30 10. CHARGING THE CLOSE LOOP CIRCUIT ..................................................ERROR! BOOKMARK NOT DEFINED. 11. DISCHARGING THE SYSTEM ..................................................................................................................................... 30 CHAPTER II .................................................................................................................................................................. 31 INSTRUCTIONS FOR USER ...................................................................................................................................................... 25 12. SAFETY & SECURITY COMPONENTS ..................................................................................................................... 31
12.1 Primary Circuit (Closed Loop Line): ....................................................................................................................................... 31 12.2 Secondary Circuit (Cold Water Line): ..................................................................................................................................... 31
13. MAINTENANCE .............................................................................................................................................................. 31 13.1 Cleaning Panels ............................................................................................................................................................................ 32 13.2 Pipe Insulation ............................................................................................................................................................................... 32 13.3 Magnesium Anode ........................................................................................................................................................................ 32
14. TROUBLESHOOTING & IMPORTANT POINTS ...................................................................................................... 32 ANNEX 1: PARALLEL CONNECTION OF MULTIPLE SYSTEMS ...................................................................................................... 34 ANNEX 2: SERIAL CONNECTION OF MULTIPLE SYSTEMS ............................................................................................................ 34
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 3/35 ©TANSUG MAKİNA LTD. 2008
CHAPTER I INSTRUCTIONS FOR INSTALLER
1. INTRODUCTION Thank you for your choosing an OURASET Solar Water Heating System. Not only you secured the cleanest, safest and probably the most economic way to obtain hot water but also you have fulfilled your responsibility against the environment. Buying an OURASET is a gift to the “PLANET EARTH” as well as to the future generations. OURASET solar water heater system is designed to provide problem free hot water for many many years. This manual has been prepared for two purposes:
• Assist the installation teams for the correct assembly of the system. • Inform the home-owner about the capabilities of the system, and ensure that
they receive maximum benefit from their OURASET systems throughout its life time by carrying out correct maintenance.
The manual consists of two chapters:
• Chapter 1 focuses on the characteristics of the system as well as the assembly of the compact system.
• Chapter 2 sets the guidelines for both the installer and the homeowner for maintenance of and maximizing the benefit from the Ouraset solar water heating system.
All you need to do is read this manual and follow the installation instructions carefully. OURASET has been manufacturing solar boilers, solar panels and integrated domestic hot water systems for over three decades. Thousands of home owners around the world are enjoying hot water that comes as a gift of sun. Until today you have probably been a consumer of energy - now you are a generating energy on your roof! Congratulations with your choice and happy sunny days with OURASET on your roof!
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 4/35 ©TANSUG MAKİNA LTD. 2008
2. COMPONENTS AND PHYSICAL CHARACTERISTICS
Thermosyphonic Systems at a glance
*Capacity is estimated based on average daily hot water generation capacity calculated on the insulation values between 36th-38th parallel - Mediterranean climate.
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 5/35 ©TANSUG MAKİNA LTD. 2008
2.2 System Dimensions and Weights*
*Refer to Section 4 : “Shading Scheme” to identify distances for placement of multiple units.
TANK SOLAR PANEL STAND TOTAL WEIGHT
MODEL DIMENSIONS
(mm.)
Empty WEIGHT (kg) DIMENSIONS
(mm.) QUANTITY WEIGHT
(kg) WEIGHT
(kg) EMPTY
(kg.) FULL
(kg) Close Open P 121 Ø 500 X 1200 58,0 - 1945x1200 1 40,5 27 125,0 252,0 P 151 Ø 600 X 1000 66,5 53,0 1945x1200 1 40,5 27 134,0 284,0 P 191 Ø 600 X 1200 73,7 62,0 1945x1200 1 40,5 27 141,2 331,2 P 192 Ø 600 X 1200 73,7 62,0 1945x1970 2 65 31 168,7 358,7 P 302CL Ø 600 X 1800 115,0 90,0 1945x2480 2 81 31 227,0 527,0
* In addition to to standard sets illustrated at section 2, various configurations are shown above. These schemes are illustrative only. OURASET manufactures systems with different tank configurations only on an OEM basis with sufficient volume.
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 6/35 ©TANSUG MAKİNA LTD. 2008
2.3 Solar panel 2.3.1 Technical Spec Sheet Technical Specifications of the Panels – AA and AES MODEL AA 950 AA 1200 AES 950 AES 1200
Dimensions 950x1950 x105 mm. 1200x1950x105 mm. 950x1950x105 mm. 1200x1950 x105 mm.
Net absorption area 1,57 m2 2,07 m2 1,57 m2 2,07 m2
Insulation Bottom : 50 mm Rockwool coated with glass tissue
Bottom : 50 mm glasswool coated with glass tissue
Sides : 20 mm glasswool with glass tissue Sides : 20 mm. glasswool with glass tissue
Conductor Copper absorbers welded to copper tubes by ultrasonic welding method
Absorber Coating Highly selective blue-sputtered coating Solar matt paint
a: ,95 e: ,05 a:,95 e:,70-90
Glass (4 mm.) 4 mm Low-iron tempered (Prismatic) Tempered
Glass Characteristics
transmissivity %91 transmissivity %83
reflexivity + absorbtivity %9 reflexivity + absorbtivity %17
Casing Electrostatic painted extra-durable aluminum extruded profile
Bottom Embossed Aluminum Sheet
Number of Tubes 8 10 8 10
Headers / Tubes Ø 22 - 10 mm
Weight 33 kg. 43 kg. 33 kg. 43 kg.
Fluid Capacity 1,6 lt. 2,2 lt. 1,6 lt. 2,2 lt.
2.3.2 Efficiency Curve
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 7/35 ©TANSUG MAKİNA LTD. 2008
Test Report for AA 1200, by CENER under SOLAR KEYMARK Scheme Test Report and efficency curve for AA 950, by CENER under SOLAR KEYMARK Scheme
Test Report and efficency curve for AES 1200, by CENER under SOLAR KEYMARK
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 8/35 ©TANSUG MAKİNA LTD. 2008
2.3.3 Cross Section of the Solar Panels
ITEM SOLAR PANEL
1 Black painted (AES) / selective coated (AA) copper absorber
2 10 channel (1200) - 8 channel (950) Ø 10 Copper tubes
3 Ø 22 Copper tube header manifold 4 Hexagonal brass union
5 Insulation 50mm Rock wool W/m °C:0,055 (AA) Glasswool W/m °C:0,036 (AES)
6 Glasswool insulation 20mm 7 Glass sealing rubber (U-Type) 8 Manifold outlet scaling rubber 9 Manifold hexagonal union outlet cover
10 Corner supports 11 Alum. Extruded profile 12 Alum. Extruded trim
13 Low - iron tempered prismatic glass (AA) Tempered solar glass (AES)
14 Al. Embossed sheet 0.40mm 15 Back plate sealing rubber
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 9/35 ©TANSUG MAKİNA LTD. 2008
2.4 Technical Specifications of Horizontal Boilers
HIGHLIGHTS OF OURASET P SERIES
* Aesthetic Uv resistant ABS Plastic Caps designed for easy handling * Minimum heat loss due to dense polyurethane insulation * Enatech porcelain enamel coating to ensure hygienic water * Electrical heater inlet and cap available * Extra-durable external case, color coated galvanized, suitable to locate outdoors * Mg anode, enamel protection and inspection/cleaning hole for extended tank life
Code P 120 P 150 P 190 P 300 Net Capacity 120 lt. 150 lt. 190 lt. 300 lt.
External Casing *Case: Colorcoated® galvanized steel, coated with transparent folio for protection during transport * Caps: UV-Proof ABS plastic
Diameter ( ø ) (mm) 500 mm 600 mm 600 mm 600 mm
Length (L) (mm) 1200 mm 1000 mm 1500 mm 1800 mm.
Tank Body Material (mm)
Low carbon steel 3 mm
Low carbon steel 3 mm
Low carbon steel 3 mm
Low carbon steel 3 mm
Jacket material (mm)
Low carbon steel Low carbon steel Low carbon steel Low carbon steel 1,5 mm 1,5 mm 1,5 mm 1,5 mm
Tank Internal Protection
enatech porcelain Enamel coating 150-400 micrones
enatech porcelain Enamel coating 150-400 micrones
enatech porcelain Enamel coating 150-400 micrones
enatech porcelain Enamel coating 150-400 micrones
Cathodic Protection Magnesium anode rod 50 cm
Test Pressure (bar)
Body: 9 bar Jacket: 4 bar
Insulation (mm) ASSET - Polyurethane Injection (42 kg/m³) 40 -50 mm 40 -50 mm 40 -50 mm 40 -50 mm
Water Inlet – Outlet ¾” ¾” ¾” ¾”
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 10/35 ©TANSUG MAKİNA LTD. 2008
2.4.1 Horizontal Boilers, Middle connection (M), CLOSE loop (CL) P 190M / CL
P 300M / CL
DESCRIPTION NOZZLE Ф Cold water inlet N1 3/4" Hot Water Outlet N2 3/4" Solar Collector Outlet N3 3/4" Return to Collector N4 3/4" Expansion Tank Kit Connection N5 3/4" Air Vent N6 3/4" Anode N7 1" Electric Resistance Connection N8 1 1/4" Cleaning Flange N9 DN80
TYPE DIMENSIONS(mm) ØD ØD1 ØD2 L
P190M 600 480 500 1200 P300M 600 480 500 1795
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 11/35 ©TANSUG MAKİNA LTD. 2008
2.4.2. Horizontal Boilers, Side connection (S), OPEN (OL) or CLOSE (CL) loop P 120S / CL
P 120S / OL P 150S / CL
P 150S / OL P 190S / CL
P 190S / OL P 300S / CL
P 300S / OL
OPEN LOOP
CLOSE LOOP
DESCRIPTION NOZZLE Ф Cold water inlet N1 3/4" Hot Water Outlet N2 3/4" Solar Collector Inlet N3 3/4" Solar Collector Outlet N4 3/4" Expansion Kit Inlet N5 3/4" Air Vent N6 3/4" Anode N7 1" Electric Element Inlet N8 1 1/4" Cleaning Flange N9 DN80
TYPE DIMENSIONS(mm)
ØD ØD1 ØD2 L P120S 500 380 480 1200 P150S 600 480 500 1000 P190S 600 480 500 1200 P300S 600 480 500 1795
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 12/35 ©TANSUG MAKİNA LTD. 2008
2.5 Components and Accessories
*Brands indicated are actual brands used at the date of preparation of this manual. Manufacturer may use any other brand which is same
or similar in technical features without any notice to its customers.
** Supplied only if system is requested with expansion tank
Component Brand* Technical Features More Specs
Structures • 40x40x4 mm, perforated L profile,
electrogalvanized
• Extruded aluminum profile
See Section 6 for details
Expansion Tank **
Varem 6 or 7 lt capacity, precharged to 1 bar,
max. pressure 4 bars
temperature -10 + 99° C
Dimensions: Ø385x92 mm
Inlet: ¾”
Volume: 0,076 m3
Manometer **
Pakkens 0-6 bar
G ¼” B
• EN 837
• Plastic Body
Electrical Element
& Thermostat
Thermowatt 2 kw, copper resistance See section 8 for details
Pressure Relief
Valve
Watts 3 bar, PN 10 bar,
T -10 + 110° C
¾” in – 1 “ out
• EN 12165-99 CW617N
• brass
• Manual discharge knob in
shockproof resin
• Nicr steel spring
Security Group
Air Vent ** Watts 10 bar, 160°C
Pressure Reducer F.A.R.G. Calibrated at 3 bars, ¾” in,
Max working pressure 10 bar
Outflow pressure adjustment field:
1,2- 5 bars
Max. using temperature 80°C
• EN 12165, EN 12164
• nickel
Non-return Valve KVS ¾” DN 20 • brass
Flexible Hoses Kuzuflex /
Ayvaz
Standard pitch metal hoses at different
dimensions
Operating Temperature 196°C + 800°C Operating Pressure 64 bar Nominal Diameters DN8 (5/16.) - DN150 (2.)
• En 10380, EN 14800
Unions, T, Elbow,
etc
Various All brass material
• Only major manufacturers
with ISO 9001:2008
certification and relevant En
norms are used.
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 13/35 ©TANSUG MAKİNA LTD. 2008
3. GENERAL INSTRUCTIONS- PREPERATIONS FOR INSTALLATION 3.1 Installation should be carried out according to this manual, as well as in complete accordance
to your local and national standards and regulations.
3.2 Installation should be carried out by an authorized Ouraset installer.
3.3 Before you reach to the address of installation make sure that all the components in the
packages are complete.
3.4 System Design: All points concerning the correct installation of the solar system should
carefully be investigated before installation. Before starting the installation, determine the
location of the system and prepare a sketch of the site. Location of the installation, static
resistance of the base where the system will be installed, piping and wiring requirements
should be taken into account before starting the installation. Remember that it is best to
locate the system as close as possible to the consumption point.
3.5 You may need the following tools and devices for the installation of your OURASET system:
a. Small crane - for the lift of panels and stand on the roof
b. Safety equipments -harness, carabines, helmet, etc. to ensure safety of installation
crew during installation.
c. Drill Kit – you may need to do additional drilling on the roof to fit the panel stand to
the roof. You should be prepared to what you can possibly see when you remove
the tile to install the support legs of the stand.
d. Additional screws
e. 2 x 0, 75 – 1 mm signal cable – long enough to reach from solar panels to the
location where the boiler is going to be located.
f. Copper pipe - long enough for installation between the panels and the boiler.
g. Copper pipe plumbing equipments.
h. Stand: The system comes with stands that include standard sets of anchorage
supports. However extra wires, bolts or frames to stabilize the system on your roof
may be required for different roof structures, or heavy climatic conditions.
3.6 Make sure that you ask for the consent of the home-owner for every action you take.
Removal of tiles on the roof, the route that tank-panel piping will follow, the location of the
boiler, etc.
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 14/35 ©TANSUG MAKİNA LTD. 2008
4. INSTALLATION OF PANELS 4.1 Placement of Panels: The panel should face the direction of the equator. Panel should face
South in the Northern and North in the Southern Hemispheres. Use a compass to determine
the true south.
4.2 Panel Angle: The general application is that the panel is installed at the same angle as the
latitude of your location at all locations outside of the Tropic Zone. In complying to this rule,
a discrepancy of plus or minus 15 degrees is acceptable. Decreasing the angle will increase
the summer-time energy output while increasing will increase the winter time energy output.
4.3 Avoiding Shades: Shades are one of the biggest threats to your system’s energy output.
Make sure that the panels are not shaded especially between 10:00 - 15:00 when the sun is
most powerful. During a summer-time installation take into account that shades will grow
bigger during winters.
4.4 Refer to the “Shading Scheme” below, for the assembly of multiple units.
DISTANCES UNIT MODEL 121-151 191-192-302
B A X 1,85 C D X 1,50
D 35° 1660 mm. 1760 mm. 45° 1930 mm. 2030 mm.
E 35° 1980 mm. 45° 1749 mm.
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 15/35 ©TANSUG MAKİNA LTD. 2008
5. INSTALLATION OF THE SYSTEM 5.1 Installation of Single- Panel Systems
Nº Descripción Sistemas de 1 captador
Sistemas de 2
captadores Cantidad Cantidad
1 Ouraset Collector 1 2 2 Ouraset Tank 1 1 3 Blind Plug ¾´´ 3 5 4 Security valve 3 bar ½´´
female 1 1
5 Security Group 6 bar ½ ´´ 1 1 6 Elbow ¾ ´´ MM 2 1 7 Adapter ¾ ´´ - ½´´ 1 1 8 Ball valve ½´´ MF 1 1
9 a Long Copper pipe 1 1 9 b Short flexible stainless pipe -
insulated 1 1
10 Short flexible stainless pipe -insulated
1 1
11 Elbow ½´´ MF 1 1 12 T ¾´´ H conica 0 2 13 Elbow ¾ ´´ MF 2 0
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 16/35 ©TANSUG MAKİNA LTD. 2008
5.2 Installation of Double- Panel Systems
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 17/35 ©TANSUG MAKİNA LTD. 2008
5 MODULAR ROOF-TOP STAND 5.2 Your Modular Compact System Structure is designed to be compatible among different
models. By changing only 1-2 parts you can build up all the different models of structures
that you may require. NOTE: There are also many common parts in the thermosyphonic stand parts that you can
also use to build up Villaset Stands. Refer to the Villaset Manual or ask for our “Manual
for Stands.”
5.3 List of Components used in the structures.
PARTS LIST FOR
Size FORCE CIRCULATED SYSTEMS THERMOSYPHONIC SYSTEMS
STRUCTURES VIR-2 VIR-3
VFR45-2
VFR45-3
TFR TFR TFR TFR TIR-1 TIR-2
45-1 45-2 35-1*1 35-2
A BASE FRAME 2000 mm 2 3 2 3 2 2 2 2 2 2
B35 VERTICAL FRAME 1220 mm - - 2 3 2 2 - -
B45 VERTICAL FRAME 1415 mm 2 2
C35 SIDE FRAME 780 mm - - 2 3 2 2 2 2
C45 SIDE FRAME 585 mm 2 2
D1 ALUM.PANEL.FRAME 1000 mm - - - - 2 - 2 - 2 -
D2 ALUM.PANEL.FRAME 2000 mm 2 - 2 - - 2 - 2 - 2
D3 ALUM.PANEL .FRAME 3000 mm - 2 - 2 - - - - - -
E BACK & SIDE DIAGONALS 1500 mm 2 4 4 7 4 4 4 4 2 4
F5 TANK SUPPORT BED* Ø500 - - - - - - - - - -
F6 TANK SUPPORT BED Ø600 - - - - 2 2 2 2 2 2
G TANK WIND BELT - - - - - 2 2 2 2 2 2
H PANEL WIND GRIP - 4 6 4 6 2 4 2 4 2 4
I GROUND SUPPORTS 100 mm - - 4 6 4 4 4 4 - -
J ROOF ANCHORS 4 6 - - - - - - 6 6
K2 SCREW TYPE 2 *2 M8x20mm 17 28 27 29 27 29 27 29 17 28
K3 SCREW TYPE 3 M8x15mm - - - - 4 4 4 4 4 4
Compact System Models that use the 201, 202, 301/2, 302 /2
301/3, 302/3, 501, 502
201, 202, 301 /2 , 302/2
301/3, 302/3, 501, 502
151 192 151 192 151 192 corresponding structure 191 302 191 302 191 302
*1 By changing only two parts B & C to B35 & C35 you can easily convert your thermosyphonic flat roof structure from 45° inclination to 35°. (See Section 5) *2 30 units of K2 screws are supplied with all packages regardless of the exact amount of screws used.
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 18/35 ©TANSUG MAKİNA LTD. 2008
6.3 Description of screws that are used in the mounting of the stands.
You will use two kinds of screws that will be sent with your structure.
6.4 Assembly of Thermosyphonic Flat Roof Stand (TFR45) 6.4.1 Connect the base frame (A) with the tank support beds (F6), then the support beds (F6)
to the vertical frame (B) and side frame (C). Use side diagonal (E) to complete one leg of
the structure. Measure the dimensions illustrated at Figure A. 6.4.2 Put together the second leg of the structure in the same way described at step 4.1.1. 6.4.3 Use back diagonals (E) to connect the two legs of the structure together. Measure 880
mm. between the center of tank beds for structure type TFR45-1 for systems 121-151-
191 when connecting the back diagonals. (See Figure A). Use the holes on the vertical
frames (B) that correspond to this distance between the two legs. 6.4.4 The distance between the center of tank beds is 1260 mm. for structure type TFR45-2 for
systems 192-302. (See Figure B) 6.4.5 Install the aluminum panel frames on the base frames (A) , first the bottom aluminum
frame(D) to the first hole of the base frame from the bottom. Then put the top aluminium
panel frame (D) on the corresponding hole on the base frame that measures 1950 mm.
Remember that solar panel will be located between these two aluminium frames. 6.4.6 Screw the tank wind belt (G) on the tank beds (F) from the front. Screw the belts from the
back of the stand only after you have placed the tank on the tank beds, after when you
have finished all steps of the installation of the structure.
TYPE 2 TYPE 3
TYPE 2 : Standard Structure
Assembly Screws TYPE 3 : Flat Head Screws- used for
connection of tank support bed to wind belt
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 19/35 ©TANSUG MAKİNA LTD. 2008
6.4.7 Put your structure on the desired location on the roof to mark the points on which you
want to anchor the ground support (I). 6.4.8 Put the structure aside and drill the holes on the roof and insert plugs and nuts. Anchor
the ground supports (I) on the roof. 6.4.9 Move the structure on top of the ground supports (D) Install the ground supports on each
four points of the structure that touch the ground. 6.4.10 After you have placed the panels on the stand, install the panel grips. (H) 6.4.11 Put the tank on the support beds and screw the tank wind belt from the back of the
structure.
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 20/35 ©TANSUG MAKİNA LTD. 2008
235 m
m
FIGURE A: TFR45-1: T. Syphonic flat Roof Structure for 1 Panel
515 m
m
45°
210 m
m
880 mm
235 m
m.
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 21/35 ©TANSUG MAKİNA LTD. 2008
515 m
m
45°
210 m
m
FIGURE B: TFR45-2: T. Syphonic Flat Roof Structure for 2 Panels
235 m
m.
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 22/35 ©TANSUG MAKİNA LTD. 2008
6.5 Assembly of Thermosyphonic Flat Roof Stand (TFR35) By changing only two parts (B,C) that are listed at Section 2, you can easily convert your flat
roof structure from 45° inclination to 35°. During your installation you just need to take into
account the dimensions illustrated in Figure C, below:
6.5 Assembly of Thermosyphonic Inclined Roof Stand (TIR)
The way the inclined roof stand is assembled depends on whether you use the
components for 35° or 45° (C35 or C45) in your flat roof installations. The assembly is
very similar with a small difference which is illustrated at Figure E & F.
6.5.1 Put the base frame (A) and the side frame (C) together to form one straight frame as
seen on Figures E & F. The frames will be connected by the use of two screws 6.5.2 Put together the second leg of the structure in the same way described at step 4.3.1. 6.5.3 Connect the tank beds (F) from the outer surface of the straight frame you have obtained
by putting together parts A and C together. You can count the holes to identify the exact
location of connection. Use back diagonals (E) to connect the two frames together. The
distance between the center of tank beds must be 880 mm. for structure type TIR45-1
FIGURE C: TFR35-1 /2: T. Syphonic flat Roof Structure for 1-2 Panel 35°
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 23/35 ©TANSUG MAKİNA LTD. 2008
for systems 121-151-191 when connecting the back diagonals. Use the
holes on the vertical frames (B) that correspond to this distance between the two legs.
(See Figure A) 6.5.4 The distance between the two legs must be 1260 mm. for structure type TIR45-2 for
systems 192-302. 6.5.5 Install the aluminum panel frames on the base frames (A). First the top aluminum frame
(D) as illustrated at Figure E. Then put the bottom aluminum panel frame (D) on the
corresponding hole as shown in the Figure. It is crucial that you measure exactly 1950
mm. between the top and bottom aluminum frames. This is the distance required for
accurate placement of the solar panels.
6.5.6 Screw the tank wind belt (G) on the tank beds (F) from the front. Screw the belts from the
back of the stand only after you have placed the tank on the tank beds, after when you
have finished all steps of the installation of the structure.
FIGURE D: TIR-1 OR TIR-2: T. Syphonic Inclined Roof Structure for 1 or 2 Panel(s)
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 24/35 ©TANSUG MAKİNA LTD. 2008
6.5.7 Remove the tiles on the roof and identify the location on the wooden, steel
or concrete beams on which it is possible to screw the roof anchors (J). Install the roof
anchors on the suitable locations alongside the beams. Try to locate the anchors in a way
that one pair is at the bottom and the other two pairs are closer to the top. 6.5.8 Put the structure aside and drill the holes on the roof and insert plugs and nuts. Anchor
the roof supports (I) on the roof. 6.5.9 Move the structure on top of the ground supports (D) Install the ground supports on each
four points of the structure that touch the ground. 6.5.10 After you have placed the panels on the stand, install the panel grips. (H) 6.5.11 Put the tank on the support beds and screw the tank wind belt from the back of the
structure.
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 25/35 ©TANSUG MAKİNA LTD. 2008
FIGURE F: Connection Details for Inclined Roof Assembly – Using C35
FIGURE E: Connection Details for Inclined Roof Assembly – Using C45
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 26/35 ©TANSUG MAKİNA LTD. 2008
5. CHARGING THE SYSTEM
5.1 Important points in the connection of the system to the house plumbing:
5.1.1 Install the equipment in such a way that the thermotank stays the closest possible to
the consumption points. The maximum distance between the collector and the most
distant consumption points should be around 30m, linear.
5.1.2 If the existing pipes network is made of steel or galvanized iron, that connection
should be made in latticed polyethylene or copper, adding dielectric sleeves of this
material so to avoid the par galvanic effect.
5.1.3 If the house pipes and tubes have a maximum temperature supported that is lower
than 100°C it’s convenient that you add a mixing valve to the installation so to avoid
the rise of the temperature to non supported levels. Examples of this are the
galvanized steel pipes that should not undertake more than 55 degrees.
5.1.4 All the pipes enduring hot water circulation should be insulated with minimum 20mm
for external pipes and 10mm for internal pipes. In the external pipes, such insulation
should be protected against the radiation effects.
5.2 Charging the secondary circuit
When charging the system always respect the filling order!
5.2.1 Open the gate valve on the cold water inlet to fill in the boiler. However hot water
outlet should be left open to let the air escape easily. ( You can leave a tap open in the
house.) 5.2.2 Verify that once the tank is filled there’s no leakage in any of the connections. 6.3 Charging the Primary (heating) Circuit 6.3.1 Install the system as illustrated on the drawings.
6.3.2 Before putting the security valve, fill the secondary (heat exchangers and
collectors) with the respective amount of anti-freeze liquid according to the above diagram.
Refer to the below diagram for the amount of antifreeze to put in the system.
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 27/35 ©TANSUG MAKİNA LTD. 2008
6.3.3 Proceed to fill the rest of the system with water. Take into account that the
maximum fluid capacity of the secondary circuit is approximately 10lt. (If the system is to be
put in an area risk free of frost, this filling can be made entirely with water).
6.3.4 Install the security valve. When the fluid in primary circuit reaches high
temperature, its pressure will raise as well. When this pressure exceeds 3 bar, the security
valve will open and some of the heat transfer fluid will be disposed through the valve. This
process will happen several times until finally when there is enough air in the upper part of
the jacket. After that, this space in the jacket will serve as an “expansion tank” and the
security valve will not work again.
6.3.5 Make sure there’s no leakage in the connections and repeat such test once
temperature, therefore pressure, rises.
6. ELECTRICAL ELEMENT 6.1 Your thermosyphonic system can be incorporated with an optional electrical heater of
2000 W, to be used as an auxiliary heating system during low irradiation or high consumption
seasons. (Remember that in some European markets auxiliary system is not allowed). 6.2 To connect the resistance to electrical net, the directives marked by the Low Tension
ElectroTechnical Regulation must be followed. For that, it is essential to use a three thread hose
with 2.5 mm section and it must be assured that proper grounding is established.
MODEL P 101 P 121 P 151 P 191 P 192 P242 P 302
Close Loop Volume (lt.) 9,00 12,00 13,00 14,00 15,00 20,00 21,00
Temperature ºC %
-5
AFLUS 1,35 lt 1,80 1,95 2,10 2,25 3,00 3,15
WATER 7,65 lt 10,20 10,20 11,90 12,75 17,00 17,85
-9
AFLUS 1,80 lt 2,40 2,40 2,80 3,00 4,00 4,20
WATER 7,20 lt 9,60 9,60 11,20 12,00 16,00 16,80
-13
AFLUS 2,25 lt 3,00 3,00 3,50 3,75 5,00 5,25
WATER 6,75 lt 9,00 9,00 10,50 11,25 15,00 15,75
-17*
AFLUS 2,70 lt 6,60 3,60 4,20 4,50 6,00 6,30
WATER 6,30 lt 8,40 8,40 9,80 10,50 14,00 14,70
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 28/35 ©TANSUG MAKİNA LTD. 2008
6.3 On the side of your electrical element, there is a screw that goes through
the body of the element. The third hose is reserved for grounding. Connect this hose to the
screw attached to the body of the electrical element. Make sure that your home’s electrical
circuit has grounding. 6.4 The electrical heater comes with a built-in thermostat. The adjustment interval for
the thermostat is 0–80°C. Before installation the thermostat should be adjusted to the requested
temperature. Remember that setting a high
temperature on the thermostat can mean the
use of your electrical heater for longer time,
thereby consuming high levels of electricity. It
is recommended that a thermostat
temperature setting of minimum 45° C is set
on your electrical element. This is
important to avoid proliferation of the
Legionella bacteria. Additionally, remember
that most people can not shower under more than 45º C. 6.5 The following photos illustrate the installation of electrical heater.
Insert the power cable through the cable gate of the
heater service cap.
WARNING ALL INSTALLATION OF ELECTRICAL DEVICES MUST BE CARRIED
ONLY BY AN AUTHROZIED ELECTRICIAN ACCORDING TO THE INTERNATIONAL AND NATIONAL REGULATIONS.
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 29/35 ©TANSUG MAKİNA LTD. 2008
Connect the grounding line on
the cable.
Screw the heater cap on the tank.
Then connect the negative and positive
poles to the respective lines on the cable.
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 30/35 ©TANSUG MAKİNA LTD. 2008
Freezing Point: - 60° C Boiling Point: + 187° C Purity: % 99,69
Acidity: % 0,001
7. AFLU-S HEAT TRANSFER FLUID Aflu-S is a special non toxic propylene glycol heat transfer fluid
used in the close circuit of your system to provide better heat
transfer at the same time protecting your system from
corrosion and frost.
11. DISCHARGING THE SYSTEM 11.1 Discharging the secondary circuit. : Rotate the pressure relief valve silghtly to
discharge the pressure in the circuit. Discharge the water by opening the gate valve at the
inlet.
11.2 Discharging the closed loop: Discharge pressure through the air vent. Remove the air
vent and then remove blind plug at the bottom of the solar panel.
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 31/35 ©TANSUG MAKİNA LTD. 2008
CHAPTER II INSTRUCTIONS FOR THE USER
WARNING: Make sure that all installation is carried out by your authorized installer. Check all
valves are properly working and the system is completely filled with water and antifreeze fluid.
In case of failure, read the instructions at the troubleshooting section. Always call your
authorized service store before taking any action.
12. SAFETY & SECURITY COMPONENTS
Your system has two circuits, each secured by a number of safety and security components.
The system comes equipped with safety components for the primary circuit. All safety
components required for the secondary circuit must also installed by your authorized installer.
12.1 Primary Circuit (Closed Loop Line):
• Expansion tank: preset 1,5 bar, working pressure 4 bar
• Pressure relief valve: 5 bar
• Air vent 160° C
12.2 Secondary Circuit (Cold Water Line):
• Pressure reducer : preset to 3 bars
• Non-return valve
• Pressure relief valve 5 bars
• Control Valve
13. MAINTENANCE
The following table lists the key components of your system that require regular inspection
and maintenance.
INSPECTION Correct Status Period of Control Average Life Mg Anode Must be complete Annually 2 years
Antifreeze Fluid Must be full Annually 1 year
Pipe Insulation Must be intact and solid Annually 3 years
Fittings Accessories Must function properly & not leak Annually 2 - 5 years
Panels (Closed Loop)
Inside panel must remain completely water and
weather proof Every 2 years 12-20 years
Boiler –closed circuit No leakage and corrosion should occur in the tank Annually 8-10 years
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 32/35 ©TANSUG MAKİNA LTD. 2008
13.1 Cleaning Panels: Regular rainfall keeps your panels clean. In dusty or
drought areas, it is recommended that panels are cleaned by the help of warm water and
sponge when necessary.
13.2 Pipe Insulation: Insulation material for piping may worn out in time due to strong UV rays.
Renew when necessary.
13.3 Magnesium Anode: Depending on the quality of the water, the life of a magnesium anode
varies between 2 – 4 years. Make sure that the Mg anode is checked regularly and
replaced when required.
13.3.1 Replacing the Mg anode Only authorized installer should change the Mg anode.
13.3.2 Turn the water supply off and empty the water from the storage tank.
13.3.3 Remove the Mg anode.
13.3.4 Fix the new rod inside the tank and make sure that complete tightness is maintained.
13.3.5 Turn the water supply on and let the tank fill with water.
13.4 Heat Transfer Fluid The level of the heat transfer fluid in the closed circuit should be
checked regularly (once a year). Decrease of fluid in the close loop of the system may
cause dramatic decrease in the performance of the tank. When the anti-freeze fluid is
inadequate in the system, it can also result in the freezing of water in the close loop circuit
and damaging the collector.
13.5 Holiday Leave If you leave your house for a long period during the summer months put a
cover on your panel to avoid overheating. In case of overheating pressure relief valve
discharges water. Make sure that the system is located in a way that hot water discharge
will not cause any damage.
14. TROUBLESHOOTING & IMPORTANT POINTS Complaints for Insufficient hot water may arise from a number of factors:
14.1 Design and Expectations 14.1.1 Please note that the performance of your solar thermal system is directly parallel to the
availability of sunlight. Note that a day time is the ideal time to consume hot water from
your solar water heating system. If the consumption is primarily during night, your
system performance may be lower. 14.1.2 Your system can meet all your hot water needs during summer months. However it is
normal that your system meets a fraction of your requirements during cloudy winter
days. 14.1.3 Note the following consumption patterns that can help you save hot water:
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 33/35 ©TANSUG MAKİNA LTD. 2008
o Do not let the water running when there is no need. o Use the hot water at a reasonable temperature (around 42 ° C) o If the water pressure at your house is excessive, install a pressure reducer.
14.2 Proper Installation When properly located (facing the right direction, installed in the right angle, located on an
unshaded spot, etc) your system should work at its best. Ensure that tank and panel
connections are proper and there is no water leakage in the system.
14.3 Common Problems Some of the most frequently encountered problems are listed here:
OCCASION: No Hot Water despite a sunny day 1. Check all connections for possible leakage
2. Check the heat transfer fluid in the close loop. Make sure it is full.
3. Make sure that the connection piping is not damaged in a way that it prevents the flow of
fluid. ( Too many curves on the piping line dramatically decreases the performance of
your system) Check if possible air loops occurred inside your boiler or collector during
charging of your system.
4. Check that connections and placement of boiler and panels are carried out in the right
way as shown in diagrams in this manual.
5. Make sure that your system is exposed to direct sun light for at least a few of hours during
noon time. Make sure that your system has been exposed to at least 3 hours of direct
sun light after when your system is first taken into operation.
OCCASION: No hot water at all from the hot water tap 1. Check your pressure reducer.
2. Check if the non-return valve functions properly. The lid of the non-return valve can
sometimes get stuck.
3. Check that there is water in the mains.
OCCASION: Manometer Displays “0” in the closed loop circuit 1. Heat transfer fluid may be missing in the closed loop. Charge the close loop as shown in
the relevant section.
2. After step 1, if the manometer still reads “0” check the expansion tank for possible failure.
Replace expansion tank if necessary.
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 34/35 ©TANSUG MAKİNA LTD. 2008
ANNEX 1: PARALLEL CONNECTION OF MULTIPLE SYSTEMS
ANNEX 2: SERIAL CONNECTION OF MULTIPLE SYSTEMS
Last Update: 2011-June INSTRUCTION MANUAL FOR THERMOSYPHONIC SYSTEMS 35/35 ©TANSUG MAKİNA LTD. 2008
CONTACT DETAILS TANSUĞ MAKİNA INDUSTRIAL FACILITIES
ADANA-CEYHAN YOLU 10. KM 01340
INCIRLIK ADANA
TURKEY
90-322-3464900
90-322-3465008
WWW.OURASET.COM
“CLOSEST TO THE SUN”