Split Vacuum Tube Solar Collector Horizontal Mounted
|Transport Package||Standard Export Packing|
Product DescriptionPRODUCT INFORMATIONS:
Vacuum tube solar collector is a new type of solar collector with higher efficiency, simpler installation and lower cost than traditional flat plate solar collector. It is widely used in solar central hot water engineering system.
The collector consists of three parts: ground mounting bracket/all-glass vacuum collector tube/heat preservation tank.
The design of the vacuum tube solar collector is very flexible. It can be used to make the appropriate support and installation method according to the installation size of different building roofs.
1. Super anti-corrosive outer tank: Outer tank is made by 201# /SUS304 2B stainless steel.
2. Strong inner tank with SUS3042B stainless steel up to 0.41mm.
3. High efficiency vacuum absorber tubes.
4, Stainless steel mounting floor stand.
* 25-30tubes (vertical) / 50 tubes (horizontal) /
* Group manifolds sets (50 tubes X1/2/3/4/5...)
* Installation area need for each group: About 16M2
* Feeding water volume per set: 500-900L
|Regular models specification|
|Vacuum tube||Φ58*1800 high efficiency collector vacuum tubes|
|Vacuum tubes quantity||25PCS||50PCS||100PCS||150PCS||200PCS|
need for ground
|Manifold inside material||SUS304 2B / 316L (Optional)|
|Manifold Outer cover||Stainless steel / Colorful painted steel|
|Insulation||High density polyurethane foam (Non-CFC)|
|Ground stand||All stainless steel stand|
|Specification of vacuum tube|
|Structure||All-glass double-tube co-axial structure|
|Glass Material||High borosilicate glass 3.3|
|External Pipe Diameter & Thickness||Ø=58±0.7mm&=1.6mm,|
|Internal Pipe Diameter & Thickness||Ø=47±0.7mm &=1.6mm,|
|Coating Layers||Cu/SS-ALN (H)/SS-ALN (L)/ALN|
|Coating Method||Three target magnetron sputtering plation|
|Idle Sunning Property Parameters||Y= 260 ~ 300m². °C/KW|
|Solar Radiation for Obtaining a||H≤3.7 MJ/ m²(Ø47), H=2.9~3.2 MJ/ m²;|
|Preset Water Temperature||H≤4.7 MJ/ m²(Ø58), H=3.7~4.2 MJ/ m².|
|Average Heat Loss Coefficient||ULT=0.4~0.6W/ (m². °C)|