Evacuated tube solar collectors consist of a heat exchanger and a series of heat collector tubes. The tubes have a vacuum between an inner and outer layers of borosilicate, a toughened glass. The solar evacuated tubes absorb and retain heat from the atmosphere. Inside the tubes are sealed copper heat pipes containing a small amount of liquid which vapourises and rises to the top of the heat pipes. The water from the tank flows through the heat exchanger manifold at the top of the collector. It absorbs the heat from condenser at the top of the heat pipe and returns the heated water to the storage tank.
SolarArk’s heat exchanger or commonly known as the manifold has been designed by our team of in house engineers from scratch. Our manifold is unique to SolarArk we do not use a “generic” design used by the wider evacuated tube industry, that’s one of the reasons our evacuated tube solar hot water system attracts the highest STC values and is at the top of the performance tables.
The internal of the manifold is constructed from pure red copper which is the highest grade; this type of copper performs under even the toughest operating conditions. The heat pipe “bulb” recess cup is positioned into the main length of the heat exchanger and the cups are automatically brazed in place in our semi-automated production facility.
In accordance with our quality policy the completed heat exchanger (12, 20 or 30 tube) is subjected to the following procedures, ensuring that our collectors are fit to wear our 15 year warranty badge.
The heat exchanger is dynamically designed for optimum performance. What that means is our unique design ensures minimal thermal resistance but allows maximum thermal heat exchange output, or we exchange the maximum energy with the lowest losses!
We achieve this result by reducing the build tolerances between the heat pipe condenser “the bulb” and manifold “cup”. Overall we control the heat pipe fluid, and ensure a smooth flow of the heat transfer fluid around the heat pipe condenser. This provides maximum heat transfer from heat pipe condenser to manifold.
As we have taken great care to deliver maximum heat exchange, we have continued with our exacting standards with the insulation and finish of the complete manifold, delivering outstanding heat loss results. Our heat exchanger is thermally encased using high density rock wool insulation, which is then wrapped in powder coated aluminum housing.
Our SolarArk heat pipes perform a pivotal role in the operation of our solar hot water systems. There are basically two sections that make a heat pipe; they are the “evaporator” or tail” and the “condenser or bulb”. In basic terms the operation of the heat pipe is to transfer efficiently the heat from the solar absorber to the collector manifold. As the entire heat pipe is under vacuum conditions it greatly lowers the boiling point of the working solution to around 25°C making heat pipes an effective method of solar hot water heating.
The heating action works by a cycle of evaporation and condensation. In the first stage the working fluid evaporates travelling to the condenser section of the heat pipe which is located in the manifold. In the second stage the working fluid condenses.
The process is gravity driven, after exchanging the heat into the manifold the condensate flows back into the evaporator section where it evaporates and the cycle continues.
The SolarArk heat pipe is specially designed to deliver high heat transfer rates. The heat transfer occurs via an internal process of evaporation, condensation and convection, in addition the heat pipe has superior anti-freezing performance.
One of the main SolarArk heat pipe characteristics is that it has a lower thermal mass, allowing the collector to have an accelerated start-up time, delivering hot water quicker!
Our heat pipe is constructed using pure oxygen free red copper, the highest grade. The pipe “tail” and heat transfer “bulb” are then vacuumed and injected with a specially formulated solution. The solution is comprised of a water base with a suspension of nano-sized particles. What do the nano-sized particles do? The purpose of the particles is to increase thermal conductivity of the solution; the particles help control the freezing point therefore avoiding damage to the heat pipe.
SOLAR HOT WATER EVACUATED TUBE SYSTEM
The evacuated tube concept is engineered to perfection, so how does it work and why is it the best performer?
At SolarArk we use a Triple Target Tube (copper, aluminium and titanium) which allows our tube to utilize both Ultra- Violet (U.V) and Infra-Red (I.R) energy. The tube is cylindrical and under vacuum, enabling maximum absorption of the suns energy to convert to heat for your hot water system.
The top layer or film is engineered to absorb maximum U.V and I.R radiation thru the filter coating and plays a pivotal role by resisting reflection.
The middle layer or film is the Heat Absorbance Layer; it reacts with the U.V and I.R radiation to generate the heat which is transferred to the aluminum fin and heat pipe.
The bottom layer or film is the I.R reflector layer; this copper layer reflects any remaining I.R energy back into the middle film the heat absorbance layer. This layer gives the SolarArk tube its distinctive “red glow” in the interior of the vacuum tube and not forgetting a healthy performance advantage of 12% over our competitors!
How do you know if your tubes are under vacuum as there is “nothing to see”? Each tube is manufactured with a vacuum “tell-tale”. The technical term is “Barium Getter”. What do you look for to tell if the tube is under a vacuum, the tube will have a “metallic” tip at the closed end, it’s that simple! If the tip is “milky white” the tube has lost vacuum and needs replaced, at the system next service.
Tube Quality & Strength
As part of our commitment to quality our collectors pass through our stringent Quality Procedures, all components are tested individually to guarantee the highest quality meeting all Australian and International solar collector standards. Our solar evacuated tubes conform to the hail and high wind loading criteria tests on a worldwide level. Our frames are certified for all Cyclonic Regions.
Why is SolarArk’s Evacuated Tube Hot Water System more efficient?