Product Details:
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Capacity: | 150L | Working Pressure: | 6 Bar |
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Tube: | Vacuum Tube | Insulation: | 55mm High Pressure Polyurethane Foam |
Collector: | Heat Pipe | Circulation Type: | Closed Loop |
Outer Tank: | Colored Steel | Inner Tank: | Stainless Steel 304 |
High Light: | copper pipe solar water heater,thermosiphon solar water heater |
150L Colored Steel Outer Tank Vacuum Tube Residential Heat Pipe Solar Water Heater
Main Features:
(1) Glass vacuum tube solar collector, high temperature,antifreeze,vacuum insulation
(2) Copper heat pipe,Start up quickly,transfers heat quickly, low start-up temperature,low temperature resistant
(3) Food-grade stainless-steel SUS304 2B inner tank,full-automatic welding technology,under the protection of magnesium rod,it can increase of service life
(4) High pressure polyurethane foaming insulation,as the prefect density and the thermal conductivity coefficient is small, so it can provide effective heat preservation
(5) Gravity assisted heat pipe, unilateral heat transfer,high efficiency,low heat loss
Specification & model | 150L | 180L | 200L | 240L | 250L | 300L | ||
Tube QTY (pcs) | 15 | 18 | 20 | 24 | 25 | 30 | ||
Tube space(mm) | 75 | 75 | 75 | 75 | 75 | 75 | ||
WATER TANK | ||||||||
Net Volume of Storage Tank(L) | 125 | 145 | 160 | 190 | 200 | 235 | ||
Diameter of inner/outer Tank(mm) | φ360/φ470 | φ360/φ470 | φ360/φ470 | φ360/φ470 | φ360/φ470 | φ360/φ470 | ||
material and thickness of inner tank(mm) | SUS304 /t1.2 | SUS304 /t1.2 | SUS304 /t1.2 | SUS304 /t1.2 | SUS304 /t1.2 | SUS304 /t1.2 | ||
material of outer tank | stainless steel | stainless steel | stainless steel | stainless steel | stainless steel | stainless steel | ||
material of insulation | polyurethane | polyurethane | polyurethane | polyurethane | polyurethane | polyurethane | ||
Size of electrical heater hole | 11/4″ | 11/4″ | 11/4″ | 11/4″ | 11/4″ | 11/4″ | ||
Cold water inlet hole | 3/4″ | 3/4″ | 3/4″ | 3/4″ | 3/4″ | 3/4″ | ||
Hot water outlet hole | 3/4″ | 3/4″ | 3/4″ | 3/4″ | 3/4″ | 3/4″ | ||
T/P valve hole | 3/4″ | 3/4″ | 3/4″ | 3/4″ | 3/4″ | 3/4″ | ||
Drain vent hole and Magnesium hole | 3/4″ | 3/4″ | 3/4″ | 3/4″ | 3/4″ | 3/4″ | ||
Sensor hole | 1/2″ | 1/2″ | 1/2″ | 1/2″ | 1/2″ | 1/2″ | ||
Vacuum Tube | ||||||||
Diameter/Length(mm) | φ58/1800 | φ58/1800 | φ58/1800 | φ58/1800 | φ58/1800 | φ58/1800 | ||
Material | High boron and silicon glass 3.3 | High boron and silicon glass 3.3 | High boron and silicon glass 3.3 | High boron and silicon glass 3.3 | High boron and silicon glass 3.3 | High boron and silicon glass 3.3 | ||
Outside thickness(mm) | 1.8 | 1.8 | 1.8 | 1.8 | 1.8 | 1.8 | ||
Inside thickness(mm) | 1.6 | 1.6 | 1.6 | 1.6 | 1.6 | 1.6 | ||
Light transmission rate | ≥0.90 | ≥0.90 | ≥0.90 | ≥0.90 | ≥0.90 | ≥0.90 | ||
Vacuum degree (Pa) | <10^-2 | <10^-2 | <10^-2 | <10^-2 | <10^-2 | <10^-2 | ||
Coating absorption | ≥0.90 | ≥0.90 | ≥0.90 | ≥0.90 | ≥0.90 | ≥0.90 | ||
Coating emittance | ≤0.07 | ≤0.07 | ≤0.07 | ≤0.07 | ≤0.07 | ≤0.07 | ||
Average heat loss coefficient | ≤0.75W | ≤0.75W | ≤0.75W | ≤0.75W | ≤0.75W | ≤0.75W | ||
Frame | 2 feets ( left-to-right ) | 3 feets ( left-middle-right ) | ||||||
Material | Galvanized steel t1.2 | Galvanized steel t1.2 | Galvanized steel t1.2 | Galvanized steel t1.2 | Galvanized steel t1.2 | Galvanized steel t1.2 | ||
Angle | 45° | 45° | 45° | 45° | 45° | 45° | ||
Tube support Specification/hole distance(mm) | φ58/75 | φ58/75 | φ58/75 | φ58/75 | φ58/75 | φ58/75 | ||
Accessories: | ||||||||
Tube sealing ring | Silicon rubber/φ58 | Silicon rubber/φ58 | Silicon rubber/φ58 | Silicon rubber/φ58 | Silicon rubber/φ58 | Silicon rubber/φ58 | ||
Tube dusting rings | Silicon rubber/φ58 | Silicon rubber/φ58 | Silicon rubber/φ58 | Silicon rubber/φ58 | Silicon rubber/φ58 | Silicon rubber/φ58 | ||
Tube holder | ABS/φ58 | ABS/φ58 | ABS/φ58 | ABS/φ58 | ABS/φ58 | ABS/φ58 |
FAQ
(1). How do I protect my solar system during subzero temperatures?
If you have a system that is operating in areas with subzero temperatures then freeze protection must be implemented.
The easiest means of preventing freezing is to use a controller with a low temperatures setting.
So when the manifold temperature drops below a certain pre-set temperature (5°C/40°F), the pump will circulate, warming the collector with water from the bottom of the storage tank.
The pump will not run continually, just periodically, the frequency of which will depend on the outside temperature.
In extremely cold areas, a closed loop using a glycol/water mix may be appropriate.
(2). Will water be heated on a cloudy day?
Yes.
Although the heat output of the solar collector is reduced on overcast days it will still be able to provide heating.
If it is a heavily clouded day or raining, then more gas or electric boosting may be required to maintain water at the required temperature.
This system will be automated so you don't have to worry about running out of hot water on a rainy day.
Additional Information:
Payment Terms | T/T |
Minimum Order | 10 |
Lead Time / Delivery Time |
10 Day(s) |
Sample Available | YES |
Delivery Details | 15 days when we get your advanced payment |
FOB Port | Ningbo,Shanghai |
Loading Info | shipping |
Packing Info | exported standard cartons |
Target Market(s) | Africa(except Middle East), Eastern Europe, Hong Kong/ Macao/ Taiwan, Japan & Korea, Latin America, Mainland China, Middle East, North America, Northern Europe, Oceania, Central & Southern Asia, Southeast Asia, Western & Southern Europe |
Contact Person: Mr. Terry White
Tel: +86 135 1138 8384