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Model 150LX 4
Mingyi
Supercritical CO2 extraction equipment is a high - tech separation apparatus that utilizes carbon dioxide (CO2) in its supercritical state as an extraction solvent.
A supercritical CO2 extraction device mainly consists of an extraction vessel where raw materials are placed. A high - pressure pump is used to pressurize CO2 to its supercritical state. There is also a separation vessel for separating the dissolved substances from the supercritical CO2. A temperature - control system precisely regulates the temperatures in the extraction and separation vessels. Additionally, a CO2 storage and recycling system, including containers, pipes and valves, is responsible for storing and recycling CO2, which helps to reduce costs and emissions.
MODEL 150L X 4
This model is designed with characteristics of easier opearation, fast extraction speed, large extraction capacity, short lead time, etc. It is the good choice for mass production.
Approx 1000kgs per day based on 24hrs working time.
NO | MAIN CONFIGURATION | PARAMETERS |
1 | Extraction Tank | Volume: 150L×4, Max working pressure: 35MPa |
2 | Separation Tank | Volume: 20L×3, Max working pressure: 30MPa |
3 | Pump | CO2 high - pressure pump & carrier pump |
4 | Cooling System | Temperature range: 5°C - 10°C |
5 | Heating Exchange System | / |
6 | Purification System | / |
7 | CO2 Storage Tank | / |
8 | Safety Devices | Pressure gauge at high - pressure pump outlet over pressure protection; extractor, separator, evaporator, dry purifier and mixer have safety valve to keep safe of system |
9 | Temperature Control System | Temperature range: Room temperature - 75°C |
10 | Power Consumption | 220 KW |
11 | Installation size: | 9000mm × 6000mm ×5300mm |
12 | User supplied | CO2, 3 phase power |
Supercritical CO2 extraction equipment is a high - tech separation apparatus that utilizes carbon dioxide (CO2) in its supercritical state as an extraction solvent.
A supercritical CO2 extraction device mainly consists of an extraction vessel where raw materials are placed. A high - pressure pump is used to pressurize CO2 to its supercritical state. There is also a separation vessel for separating the dissolved substances from the supercritical CO2. A temperature - control system precisely regulates the temperatures in the extraction and separation vessels. Additionally, a CO2 storage and recycling system, including containers, pipes and valves, is responsible for storing and recycling CO2, which helps to reduce costs and emissions.
MODEL 150L X 4
This model is designed with characteristics of easier opearation, fast extraction speed, large extraction capacity, short lead time, etc. It is the good choice for mass production.
Approx 1000kgs per day based on 24hrs working time.
NO | MAIN CONFIGURATION | PARAMETERS |
1 | Extraction Tank | Volume: 150L×4, Max working pressure: 35MPa |
2 | Separation Tank | Volume: 20L×3, Max working pressure: 30MPa |
3 | Pump | CO2 high - pressure pump & carrier pump |
4 | Cooling System | Temperature range: 5°C - 10°C |
5 | Heating Exchange System | / |
6 | Purification System | / |
7 | CO2 Storage Tank | / |
8 | Safety Devices | Pressure gauge at high - pressure pump outlet over pressure protection; extractor, separator, evaporator, dry purifier and mixer have safety valve to keep safe of system |
9 | Temperature Control System | Temperature range: Room temperature - 75°C |
10 | Power Consumption | 220 KW |
11 | Installation size: | 9000mm × 6000mm ×5300mm |
12 | User supplied | CO2, 3 phase power |
Why Choose Us?
No Solvent Residue: One of the most significant advantages is that supercritical CO2 extraction leaves little to no solvent residue in the final product. This is crucial for applications such as food, pharmaceutical, and cosmetic industries where the purity of the extract is of utmost importance.
Preservation of Bioactive Compounds: The process can operate at relatively low temperatures, which helps to preserve the bioactive and thermally - sensitive components of the raw materials. For example, in the extraction of essential oils or active pharmaceutical ingredients, the natural properties and efficacy of these substances are maintained.
Fast Penetration: Supercritical CO2 has excellent diffusivity, meaning it can quickly penetrate the structure of the raw materials. This results in a relatively short extraction time compared to some traditional extraction methods.
Enhanced Solubility: In its supercritical state, CO2 has a high solubility for many substances, which leads to high extraction yields. The equipment can efficiently extract a wide range of valuable substances, including oils, flavors, and active ingredients.
Why Choose Us?
No Solvent Residue: One of the most significant advantages is that supercritical CO2 extraction leaves little to no solvent residue in the final product. This is crucial for applications such as food, pharmaceutical, and cosmetic industries where the purity of the extract is of utmost importance.
Preservation of Bioactive Compounds: The process can operate at relatively low temperatures, which helps to preserve the bioactive and thermally - sensitive components of the raw materials. For example, in the extraction of essential oils or active pharmaceutical ingredients, the natural properties and efficacy of these substances are maintained.
Fast Penetration: Supercritical CO2 has excellent diffusivity, meaning it can quickly penetrate the structure of the raw materials. This results in a relatively short extraction time compared to some traditional extraction methods.
Enhanced Solubility: In its supercritical state, CO2 has a high solubility for many substances, which leads to high extraction yields. The equipment can efficiently extract a wide range of valuable substances, including oils, flavors, and active ingredients.
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