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Wipe Film Molecular Distillation System(Stainless Steel)

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HMD Series

High distillation efficiency

Excellent separation performance

Full Jacket and Full Insulation

Modular Design

Overview

HMD series Wipe Film Molecular Distillation System(Stainless Steel) is a type of molecular distillation equipment made of stainless steel, featuring high corrosion resistance and high temperature resistance. This system adopts the short path molecular distillation principle, heating the mixture to a high temperature to make each component evaporate separately and then re-condense at a certain temperature, thus achieving the separation and purification of the mixture. The stainless steel short path molecular distillation system has higher integration and better heat transfer efficiency, and can greatly increase productivity through the high-precision automatic feeding and discharge pump. It is an ideal choice for pilot and industrial production equipment.

Features

Unique full jacket and full insulation design

1. Jacket design of feed tank, transfer heating oil preheating and heating preservation function.

2. The outlet jacket design for light and heavy components makes the material flow smoothly.

3. Jacket design of automatic feeding and discharging pump head to prevent material blocking from happening.

4. The thermal insulation design of the full jacket pipe reach the using area of different materials and accelerates the material processing rate.

Modular design, flexible selection

1. High-precision automatic feeding and discharging pump, with high degree of automation, to save labor manpower and working time.

2. The independent magnetic coupling sealing structure does not affect the vacuum system of the module, ensuring an excellent vacuum effect.

3. Standard interface connection can be matched with different external condenser requirements according to process requirements.

4. Standard port connection for supporting heating and refrigeration equipment, easy to match.

5. According to the requirements of vacuum degree, it can be matched with different vacuum units to realize two-stage or multi-stage pump connection.

Strict processing and process design to meet the use of different fields

1 . High-precision polishing treatment of the inner wall of the barrel, smooth and clean, not easy to stick and scale.

2. The material in contact with the material is made of stainless steel 316L+PTFE, with high heat transfer efficiency and excellent corrosion resistance.

3. The connecting pipe is sealed with fluororubber or tetrafluororubber material to meet the use of materials of different properties.

4. The design of sight glass such as the feeding tank and the discharging port is convenient to observe the state of the material.

5. Brand gear motor with frequency conversion, safe and reliable operation, can work continuously for a long time.

6.The explosion-proof configuration of the whole system for optional.

Authoritative release of equipment, the whole system meets UL/CE certification

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
Entecavir Intermediate 7
Silane Coupling Agent
Squalene
Rose Oil
Brake Fluid

Cases

Supporting Products

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HMD-06S

  • Feeding rate(L/h):1-5

  • Effective evaporation area(㎡):0.06

  • Feeding flask volume(L):10

  • Cooling area of internal condenser(㎡):0.1

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HMD-1S

  • Feeding rate(L/h):2-10

  • Effective evaporation area(㎡):0.1

  • Feeding flask volume(L):10

  • Cooling area of internal condenser(㎡):0.17

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HMD-2S

  • Feeding rate(L/h):2-20

  • Effective evaporation area(㎡):0.2

  • Feeding flask volume(L):15

  • Cooling area of internal condenser(㎡):0.4

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HMD-3S

  • Feeding rate(L/h):2-30

  • Effective evaporation area(㎡):0.3

  • Feeding flask volume(L):20

  • Cooling area of internal condenser(㎡):0.6

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HMD-5S

  • Feeding rate(L/h):10-50

  • Effective evaporation area(㎡):0.5

  • Feeding flask volume(L):50

  • Cooling area of internal condenser(㎡):1.7

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HMD-10S

  • Feeding rate(L/h):20-100

  • Effective evaporation area(㎡):1

  • Feeding flask volume(L):100

  • Cooling area of internal condenser(㎡):3

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HMD-20S

  • Feeding rate(L/h):40-200

  • Effective evaporation area(㎡):2

  • Feeding flask volume(L):200

  • Cooling area of internal condenser(㎡):5

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HMD-50S

  • Feeding rate(L/h):100-500

  • Effective evaporation area(㎡):5

  • Feeding flask volume(L):200

  • Cooling area of internal condenser(㎡):8

Model
HMD-06S
HMD-1S
HMD-2S
HMD-3S
HMD-5S
HMD-10S
HMD-20S
HMD-50S
Operation temperature(℃)
≤350
≤350
≤350
≤350
≤350
≤350
≤350
≤350
Vaccum Level(mbar)
≤0.001
≤0.001
≤0.001
≤0.001
≤0.001
≤0.001
≤0.001
≤0.001
Feeding flask volume(L)
10
15
15
30
50
100
200
200
Cooling area of internal condenser(㎡)
0.1
0.17
0.4
0.6
1.7
3
5
8
Effective evaporation area(㎡)
0.06
0.1
0.2
0.3
0.5
1
2
5
Feeding rate(L/h)
1-5
2-10
2-20
2-30
10-50
20-100
40-200
100-500
錨點 1

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