Supercritical Fluid Extraction Assisted By Ultrasonic Extraction Equipment

Product Details

Supercritical Fluid Extraction Assisted By Ultrasonic Extraction Equipment

 

Minimum Order Quantity:

1 Set

Price:

Ask for quote

Packaging Details:

Foam case

Delivery Time:

In 7 Working Days 

Payment Terms:

T/T, WESTERN UNION

Supply Ability:

100 Sets/Month

 

Quick Detail:

Simple, low-cost design
Low operating costs
High efficiency
Low maintenance
Faster emulsification

 

Description:

Supercritical fluid extraction assisted by power ultrasound s is a new process based on the application of high-intensity ultrasound to accelerate the extraction effect of supercritical CO2. The new technology has shown to be efficient in a semi-industrial installation
Supercritical fluid extraction (SFE) is a separation process based on the contact of a substance containing the extractable compound with a solvent in supercritical conditions. Today, C02 SFE has become a promising technique used in many areas. Some of the motivations for its employment are that the solvent is non-toxic, recyclable, cheap, relatively inert, non-flammable and the process improves product quality and product recovery. Nevertheless, fixed bed SFE of oil from a solid matrix has a slow dynamics even when solute free solvent is recirculated and therefore improvements in mass transfer are required. The use of high-intensity ultrasound represents a potential efficient way of enhancing mass transfer processes. This is due to the effects produced by compressions and decompressions, as well as by radiation pressure, streaming, etc. In addition, this is probably the unique practical way to produce agitation in SFE because the use of mechanical stirrers is unable.

Ultrasonic technique as a physical means and tools, can product in the reaction medium in a series of close to the extreme conditions, this energy can not only stimulate or promote many chemical reactions, accelerate the rate of a chemical reaction, and even may also change the direction of chemical reaction, generate a beat all effect and miracles. 

Industrial ultrasonic sonochemistry system is mainly used for largescale industrial production. It has big power,high efficiency, the advantages of large radiation area etc.. And can be customized according to customer needs.   

 

 

Applications:

Ultrasonic in the biochemistry of the earliest applications should be used ultrasonic to crush the cell wall, to release its contents. Subsequent studies showed that, low intensity ultrasonic can promote the biochemical reaction process, such as ultrasonic irradiation can increase the speed of liquid nutrition growth of algal cells, making the cells to produce proteins increased 3 times.Energy density and cavitations bubble collapse of ultrasonic field energy density, energy density is enlarged trillion times, great concentration caused by energy; sound chemistry led to the phenomenon of extreme heat and pressure cavitations effect of luminescence, is unique in form of exchange of energy and substance of sonochemistry. Therefore, ultrasonic chemical extraction, biodiesel production, organic synthesis, governance microorganisms, degradation of toxic organic pollutants, the chemical reaction speed and yield, the catalytic efficiency, biological degradation, ultrasonic anti fouling, biological cell crushing, dispersion and agglomeration, and the chemical reaction is more and more important role. 

 

  

Specifications:

Model

S-P20-1000

S-P20-1500

S-P20-2000

S-P20-3000

Frequency

20±1 KHz

20±1 KHz

20±1 KHz

20±1 KHz

Power

1000 W

1500 W

2000 W

3000 W

Voltage

220±10% V

220±10% V

220±10% V

220±10% V

Temperature

300 

300 

300 

300 

Pressure

35 MPa

35 MPa

35 MPa

35 MPa

Intensity of sound

20 W/cm²

30 W/cm²

40 W/cm²

60 W/cm²

Max Capacity

> 10 L/Min

> 15 L/Min

> 20 L/Min

> 30 L/Min

Material Of Tip Head

Titanium Alloy

Titanium Alloy

Titanium Alloy

Titanium Alloy

PSIf you need more power, we can install two or more device.

 

Competitive Advantage:

1.Save mixing time 20%~60%

2.Lower temps 30%~60%(30)

3.Less methanol 5%~30%

4.Less chemical (KOH) less 20%~50%

5.Total production cost save 15%~50%

6.Another benefit is the time of glycerol separation.This is also faster and one of the reasons for it is that less methanol is been used,so glycerol separation is faster. 

 

 

 

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