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Customized Titanuim High Pressure Homogenizer Processor High Efficiency 35 Mpa

Place of Origin: Guangdong

Company Profile

Location: Hangzhou, Zhejiang, China (Mainland)
Business Type: Manufacturer
Main Products: Ultrasonic Welding Transducer, Ultrasonic Converter, Ultrasonic Homogenizer

Product Detail

Model No.: AIA-1

Product Description

Customized Titanuim High Pressure Homogenizer Processor High Efficiency 35 Mpa

 

Minimum Order Quantity:

1pcs

Price:

negotiation

Payment Terms:

T/T 

Supply Ability:

100pcs per month

Delivery Time:

10 working days after received your payment 

Packaging Details:

Packed in carton, and PE form inside

 

Specifications:

Model

S20-1000

S20-1500

S20-2000

S20-3000

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

 

 

 

 

Description:
Sonochemistry—the application of ultrasound to chemical reactions and processes—is based on the phenomenon of cavitation: the formation, growth and implosive collapse of bubbles in a liquid.
Cavitation can be produced through different means, including high pressure nozzles, high velocity rotation, or ultrasonic transducers. The input energy is transformed into friction, turbulences, waves and cavitation.
Cavitation bubbles are vacuum bubbles, created by a fast moving surface on one side and an inert liquid on the other. The resulting pressure differences serve to overcome the cohesion and adhesion forces within the liquid. Cavitational collapse produces intense local heating (~5,000 K), high pressures (~1,000 atm), and enormous heating and cooling rates (>109 K/sec and liquid jet streams (~400 km/h).

 

Applications:
Biodiesel conventionally is produced by the base-catalyzed transesterification of fatty acids from vegetable oils or animal fats with methanol in a batch reactor using heat and mechanical mixing energy as energy inputs. Glycerol is a byproduct of the reaction, and must be separated from the biodiesel product.
The use of ultrasonic processing not only can provide energy for the reaction, but can achieve better mixing and more rapid separation.
Hielscher estimates that costs for ultrasonication in biodiesel processing will vary between €0.002 and 

  • Researchers at Iowa State University are exploring the use of ultrasonics to boost ethanol production from corn. (Earlier post.)

  • Advanced Plant Pharmaceuticals, through its merger with World Health Energy, is adopting ultrasonication as its biodiesel process to provide itself with production cost advantages. (Earlier post.)

  • GreenShift Corporation formed General Ultrasonics Corporation, a development stage company that owns patented technologies that use ultrasonic energies to enhance physical and chemical reactions including more efficient steam reformation to produce hydrogen. (Earlier post.)

 

Competitive Advantage:

 

Flexible system designs for any length of pipe.

May be adapted to most any diameter pipe or tube.

Will drive most any pipe thickness (e.g.1mm to 30mm) at high power.

Flow through design allows easy adaptation to lab and industrial systems.

Long wave guides options allow for very high temperature applications.

Wide ranging power options offer:

Simplified one-piece tube design without seams or joints allows easy internal cleaning and sterilization.

 

 

 

 

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