JEFFER Engineering and Technology Co.,Ltd
JEFFER Engineering and Technology Co.,Ltd JEFFER Engineering Design Co.
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4mm-10mm Construction and Pioneer Float Glass Production Line and Processing Equipment
1. Brief Description
In 1965, China started to research and develop its own float glass technology and successfully put into production and exported the float glass products and technology to the world.
Nowadays, the international glass new technology is developing in the fields of energy, materials, environmental protection, information, biology. Developing new technology by changing the external and internal performance of glass product, it allows the glass product having excellent function of strength, energy saving, thermal insulation, fire resistance, sunlight protective......etc.
2. Characteristic
Because the glass liquid forms on the metallic tin liquid surface, it could achieve a high grade double faced fired polishing glass surface. The parallelism and flatness of float glass are as better as mechanical polishing effect, but it has a better mechanical capacity and chemical stability than mechanical polishing glass.
3. Scope of Supply
4. Raw Materials
Main materials are mainly including:
| Silica Sand |
| Dolomite |
| Limestone |
| Feldspar |
| Soda Ash |
| Salt Cake |
| Cullet |
Auxiliary materials as the important raw materials, it mainly includes:
| Clarify Agent |
| Coloring Agent |
| Decolorizing Agent |
| Oxidizing Agent |
| Reducing Agent |
| Combustion Agent |
5. Technical Flow Chart of Float Glass Line
6. Main Equipment Description
6.1 Batch Plant
For batching and mixing the raw materials.
6.2 Furance
The melting tank is key part of glass production line, the refractory materials quality is very important.
6.3 Tin Bath
It is a key and one of most important equipment of float glass production line.
6.4.Protection Gas Station
In order to overcome the air and oxygen brought through the entering of the glass liquid and inert gas itself, a center percentage of hydrogen gas shall be added into nitrogen gas.
Basic Physical and Chemical Characters of Nitrogen and Hydrogen Gas:
Nitrogen gas:
| Molecular Mass | 28.02 | |
| Density under standard state | 1.251 kg/m3 | |
| Critical Property | Temperature | -149.1°C |
| Pressure | 3.39 MPa | |
| Density | 310.96 kg/m3 | |
| Boiling Point | -195.8 °C | |
| Specific Heat Capacity | Cp | 1.047 kJ/kg·°C |
| Cv | 0.745 kJ/kg·°C | |
| Thermal Conductivity | 0.233 W/m·k | |
Hydrogen gas:
| Molecular Mass | 2.02 | |
| Density under standard state | 0.090 kg/m3 | |
| Critical Property | Temperature | -239.9°C |
| Pressure | 1.30 MPa | |
| Density | 31 kg/m3 | |
| Boiling Point | -252.2 °C | |
| Specific Heat Capacity | Cp | 12.269 kJ/kg·°C |
| Cv | 10.132 kJ/kg·°C | |
| Thermal Conductivity | 9.469 W/m·k | |
6.5. Annealing Lehr
In glass technology, annealing means to put the glass into the annealing lehr for a certain time or reduce the temperature with a slow speed, so as to no additional permanent stress or temporary stress will produce. Namely, annealing also means a process which will reduce or eliminate the thermal stress of glass.
6.6. Colde-end