Extract Pure Essential Oils from Plants with Ultrasonic Homogenizers

Product Details
Customization: Available
Additional Capabilities: Milling
Application: Liquid, Liquid with Suspended Solids
Gold Member Since 2020

Suppliers with verified business licenses

Audited Supplier

Audited by an independent third-party inspection agency

  • Extract Pure Essential Oils from Plants with Ultrasonic Homogenizers
  • Extract Pure Essential Oils from Plants with Ultrasonic Homogenizers
  • Extract Pure Essential Oils from Plants with Ultrasonic Homogenizers
  • Extract Pure Essential Oils from Plants with Ultrasonic Homogenizers
  • Extract Pure Essential Oils from Plants with Ultrasonic Homogenizers
  • Extract Pure Essential Oils from Plants with Ultrasonic Homogenizers
Find Similar Products

Basic Info.

Model NO.
SPS20-3000
Condition
New
Main Material
Alloy Steel
Mixing Capacity
≤10L
Stirring Type
Ultrasonic
Type
Ultrasonic Homogenizer
Warranty
One Year
Working
Ultrasonic
Frequency
20kHz
Power
3000watt
Voltage
220V
Temperature
150 Degree Centigrade
Pressure
Normal
Intensity of Sound
>10 W/Cm²
Generator
Digital Type
Transport Package
Wooden Case
Trademark
SP
Origin
China
HS Code
8543709990
Production Capacity
1000pieces/Month

Product Description

Description:
Extract Pure Essential Oils from Plants with Ultrasonic Homogenizers

How Ultrasonic Extraction Works:
Ultrasonic extraction operates through a process known as sonication, where ultrasonic waves are applied to a liquid or slurry. These sound waves cause rapid pressure changes in the liquid, leading to the formation of microscopic bubbles. As these bubbles grow and collapse in a process called cavitation, they generate intense local forces that break open plant cell walls. This mechanical action releases the desired bioactive compounds from within the cells.
The use of ultrasonic extraction is highly effective and efficient, often delivering higher yields than traditional methods such as solvent extraction or heat-based extraction. The ability of ultrasound to physically disrupt plant materials without the need for harsh chemicals or excessive heat makes it an attractive option for sustainable and high-quality extractions.


Specifications: 
Model SPS20-500S SPS20-1000 SPS20-2000 SPS20-3000 SPS20-3000Z
Frequency 20Khz 20Khz 20Khz 20Khz 20Khz
Power 500 W 1000 W 2000W 3000W 3000 W
Voltage 220V 220V 220V 220V 220V
Pressure Normal Normal 35 MPa 35 MPa 35 MPa
Intensity of sound >10 W/cm² >10 W/cm² >40 W/cm² >60 W/cm² >60 W/cm²
Processing capacity
(L/H)
0.5-2.0 1.0-5.0 20.0 50.0 100.0
Material of probe Titanium Alloy Titanium Alloy Titanium Alloy Titanium Alloy Titanium Alloy
 
Generator Digital type Digital type Digital type Digital type Digital type

Ultrasonic Homogenizer Applications:
Food processing Reaction Acceleration - cavitation accelerates chemical and physical reactions. Fine Particle Dispersion - e.g. nanoparticle processing 
Disruption and Cell Lysing - will break open biological tissues and Cells to extract enzymes and DNA, prepare vaccines.
Homogenization - making uniform mixtures of liquids or liquid suspensions.
Emulsification - processing foods, pharmaceuticals, and cosmetics.
Dissolution - dissolving solids in solvents.
Degassing - removing gases from solutions without heat or vacuum.
Inline pipe cleaning, removes scale or build/up without disassembly.Cylindrical 360° internally radiating chamber.


Ultrasonic Homogenizer Advantages: 

1.Enhanced Extraction Efficiency: Ultrasonic waves create cavitation bubbles within the solvent, which disrupt the cell walls of plant material and enhance the release of bioactive compounds. This results in higher extraction yields compared to traditional methods.

2.Shorter Extraction Time: The mechanical action of ultrasonic waves accelerates the extraction process by facilitating the penetration of solvent into plant tissues. This leads to significantly reduced extraction times, allowing for higher throughput and faster production cycles.

3.Preservation of Phytochemical Integrity: Ultrasonic extraction operates at lower temperatures compared to heat-based extraction methods, minimizing thermal degradation of heat-sensitive phytochemicals such as polyphenols, flavonoids, and enzymes. This helps retain the natural properties and potency of herbal extracts.

4.Selective Extraction: Ultrasonic parameters such as frequency, power, and duration can be adjusted to selectively extract specific compounds from herbs based on their solubility and molecular characteristics. This enables targeted extraction of desired phytochemicals while minimizing the extraction of unwanted components.

5.Eco-Friendly Process: Ultrasonic extraction requires minimal solvent usage due to its efficient mass transfer capabilities, leading to reduced solvent consumption and waste generation. Additionally, the lower energy consumption and shorter processing times contribute to a more environmentally sustainable extraction process.
 

Extract Pure Essential Oils from Plants with Ultrasonic Homogenizers
Extract Pure Essential Oils from Plants with Ultrasonic Homogenizers
Extract Pure Essential Oils from Plants with Ultrasonic Homogenizers


Ultrasonic Extractor Reviews:
ustomers' evalution as follow:
The ultrasonic sonicator works very well. Production process improvement: After using ultrasonic extraction equipment, our entire production process has been greatly improved, and the extraction quality of the product has also been greatly improved. You have been most kind and helpful. Thank you for your expert communication. Customers' recognition and trust is our driving force. Shengpai Technology relies on "Customer Service Being First" as its corporate culture. Aim is "Quality First, Service First". Today, because of its abundant professional knowledge and good after-sales service, Shengpai Technology has gained a very good reputation.

Extract Pure Essential Oils from Plants with Ultrasonic HomogenizersExtract Pure Essential Oils from Plants with Ultrasonic Homogenizers
FAQS:
What is ultrasonic extraction?
Ultrasonic extraction is a process that uses high-frequency sound waves (ultrasound) to enhance the extraction of compounds from solid or liquid samples. The mechanical waves create cavitation, leading to the release of target compounds from the matrix.

How does ultrasonic extraction work?
Ultrasonic waves generate microscopic bubbles in the extraction solvent. When these bubbles collapse, they produce intense shockwaves and microjets, creating turbulence that enhances mass transfer and facilitates the extraction of compounds from the sample.

What are the advantages of ultrasonic extraction?
Ultrasonic extraction offers several benefits, including increased extraction efficiency, shorter processing times, reduced solvent consumption, and the ability to extract a wide range of compounds. It is also a non-thermal process, preserving heat-sensitive compounds.

What types of samples can be processed with ultrasonic extraction?
Ultrasonic extraction is versatile and can be applied to various samples, including plant materials, food products, pharmaceuticals, and environmental samples. It is suitable for extracting bioactive compounds, flavors, fragrances, and other target substances.

Is ultrasonic extraction suitable for large-scale production?
Yes, ultrasonic extraction can be scaled up for industrial applications. There are ultrasonic processors designed for both laboratory and industrial use, allowing for efficient and consistent extraction on a larger scale.

Are there any limitations to ultrasonic extraction?
While ultrasonic extraction is highly effective, its efficiency may vary depending on factors such as sample characteristics, ultrasonic frequency, and power. Additionally, some compounds may be sensitive to the mechanical forces generated during the process.

Can ultrasonic extraction replace traditional extraction methods?
Ultrasonic extraction is often used as a complementary or alternative method to traditional extraction techniques. Its efficiency, speed, and ability to work at lower temperatures make it a valuable tool, but the choice between methods depends on the specific requirements of the extraction process.

What parameters should be considered for optimizing ultrasonic extraction?
Optimization involves adjusting parameters such as ultrasonic frequency, power, extraction time, and solvent choice. These factors should be tailored to the specific characteristics of the sample and the desired compounds to achieve the best results.
 

Send your message to this supplier

*From:
*To:
*Message:

Enter between 20 to 4,000 characters.

This is not what you are looking for? Post a Sourcing Request Now
Contact Supplier