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Thin Film Evaporation System
Boroslilcate Glass
HWF Series
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Effective evaporation area: 0.06~0.35㎡
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Material handling capacity:0.05~15L/h
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High borosilicate glass 3.3,Scraper film forming design,Full jacket and full insulation,High precision and high vacuum degree
Overview
HWF series Thin Film Evaporation System(Borosilicate Glass) is a device that uses thin film technology for separation. It mainly consists of a heating jacket, a rotatable scraper, a condenser, and a vacuum system. In a high vacuum system, the liquid material is added tangentially to the evaporator and then driven by gravity and the rotating scraper to form a downward spiral thin film along the inner wall of the shell, and the liquid is discharged from the bottom outlet, while the secondary steam is discharged from the top outlet. Its advantages are suitable for high viscosity, easy crystallization, easy fouling, and suspensions or heat-sensitive materials. It is widely used in the chemical, pharmaceutical, and health product industries. The main components of the glass thin film distillation system are made of high borosilicate 3.3 material. The entire distillation process is intuitive and visible. The parameter settings can be adjusted at any time according to the experimental phenomenon, making it easy to quickly find the optimal process conditions. At the same time, it has good corrosion resistance and is an ideal choice for experimental research or small-scale production.
Features
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The glass parts are made of high borosilicate 3.3 material, with excellent visibility.
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The magnetic coupling seal can maintain a higher vacuum degree to ensure the evaporation effect.
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Scraper film forming design, contact material material stainless steel 316L+PTFE.
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The sealing ring is made of fluorine rubber or tetrafluoroethylene, suitable for different material applications.
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The main evaporator can be designed with full jacket and full insulation to ensure material fluidity.
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Digital display Pirani vacuum gauge, accurate feedback of vacuum degree.
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Multi-plan structure configuration to guarantee different material and different process requirements.
3.3
High borosilicate glass
≤300℃
The highest operating temperature
SS316L
SS316 wet parts & SS304 framework
0.1Pa
The lowest vacuum
PLC
Automatic digital control
Typical Applications
Biopharmaceuticals | Fine Chemicals | Food and Agriculture | Daily Chemicals | Fragrances and Flavors | Petrochemical Industry |
|---|---|---|---|---|---|
(Deep-Sea and Fermented) Fish Oil | (Bisphenol A and F type) Epoxy Resin | Elaeagnus Mollis Oil | Polyethylene Glycol Ester | 3-Methylindole | B12042 |
Docosahexaenoic Acid (DHA) | Triethylene Glycol | Polyethylene Glycol Ester | L-Lactic Acid | Cedarwood Oil | Waste Oil Regeneration |
Eicosapentaenoic Acid (EPA) | 3-Hydroxypropionitrile (HPN) | Cholesterol-Removed (Beef Tallow and Lard) | Amino Acid Ester | Methyl Propionate | Glycerol Wastewater Recovery |
Polyether | Triethylene Glycol | Tocopherol (Natural and Synthetic) | Menthyl Ester | Angelica Extract | Saline Wastewater |
Methyl Salicylate | Alkylphenol | Sage Antioxidant | Lanolin Alcohol | Patchouli Oil (Patchoulol, Patchoulone) | Sulfonated Kerosene |
Glycolipid | Microcrystalline Wax | Alkyl Glycoside | Tea Tree Oil | Methyl Heptenone | Polyglycerol Ester |
Vitamin A | Polyolefin | Nicotine Purification | Lanolin | m-Toluic Acid | Polyether |
Vitamin E Acetate | Tributyl Phosphate | Glyoxylic Acid | Jasmine Essential Oil | Citral | Polyether Polyol |
Vitamin K Purification | Triethyl Phosphate | Organosilane Resin | Cane Wax | Cinnamaldehyde (Cinnamon Oil) | Mineral Oil Sludge Dewaxing |
Laurocapram | Neopentyl Glycol Dicaprylate | Sterol Ester | Litsea Cubeba Oil | Litsea Cubeba Oil | Asphalt Dewaxing |
Psoralea Corylifolia | Silicone Oil | Phytosterol | Peach Aldehyde | Methyl Salicylate | Coal Tar |
Ibuprofen Pivalate | Plasticizer | Perilla Seed Oil | Cetyl Alcohol | Sandalwood | Nano Pigment Removal of Toluene |
Tea Tree Oil | Polyhydric Alcohol | Palm Oil | Polydimethylsiloxane | Peach Aldehyde | Biodiesel (Fatty Acid Methyl Ester or Ethyl Ester) |
Bupleurum Volatile Oil | Dimer Acid | Monoglyceride (Monostearin, Monolaurin, etc.) | Vetiver Oil | Vetiver Oil | Graphite Acid Dehydration |
Agarwood | Silicone Oil (Polysiloxane or Polysilicone Ether) | Polysaccharide Ester | Polyglycerol Ester | Geraniol | Petroleum Residual Oil |
Garlic Oil | Aromatic Isocyanate | Lycopene | Polyether Silicone | Synthetic Jasmine Aldehyde | Hydrocarbon Compound |
Monoglyceride | Fluorinated Oil (Perfluorocarbon, Fluorochlorocarbon Oil, Perfluoropolyether) | Conjugated Linoleic Acid | Polyolefin | Long-Chain Dicarboxylic Acid (C9-C18) | Glutaraldehyde |
Polyunsaturated Fatty Acids | Glycerol | Silicone Oil (Dimethylpolysiloxane) | Polyethylene Glycol (Ester) | Ionone | Liquefied Coal |
Peptide | Curing Agent (Removing TDI, MDI, HDI, etc.) | Walnut Oil | Capsaicin | Vacuum Pump Oil | |
Silane Coupling Agent | Squalene | Rose Oil | Brake Fluid |
Model | HWF-60 | HWF-80 | HWF-100 | HWF-150 | HWF-200 |
|---|---|---|---|---|---|
Feeding rate(L/h) | 0.05-2 | 0.05-3 | 0.1-5 | 0.2-10 | 0.5-15 |
Effective evaporation area(㎡) | 0.06 | 0.1 | 0.15 | 0.25 | 0.35 |
Cooling area of
internal condenser(㎡) | 0.18 | 0.25 | 0.3 | 0.42 | 0.42 |
Feeding flask volume(L) | 0.5 | 1 | 1 | 2 | 3 |
Rotation speed(rpm) | 50~450 | 50~450 | 50~450 | 50~450 | 50~450 |
Operation temperature(℃) | <300 | <300 | <300 | <300 | <300 |
Power supply | 220V/50Hz,1P | 220V/50Hz,1P | 220V/50Hz,1P | 220V/50Hz,1P | 220V/50Hz,1P |
Dimensions(mm) | 1700*610*1700 | 1900*610*1800 | 1900*610*1900 | 2100*610*2300 | 2250*610*2400 |