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LSP-600

SonoMechanics 600W Ultrasonic Continuous Liquid Processor

Price $21,293.00

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LSP-600: Disassembly & Assembly Procedures, Batch-Mode

 

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Translucent Water in Oil Nanoemulsion Prepared by BSP-1200

 

 

 

Ultrasonic homogenizers, the modern version of "mortar and pestle", they can disrupt tissues and cells through cavitation and ultrasonic waves. Basically, an ultrasonic homogenizer has a tip which very rapidly vibrates, causing bubbles in the surrounding solution to rapidly form and collapse. This creates shear and shock waves which tear apart cells and particles.

Ultrasonic Homogenizers are recommended for homogenization and lysis of laboratory samples that do not require traditional grinding or rotor-stator cutting techniques for processing. Small and large ultrasonic probes are used in a variety of sample volumes to be processed. A solid probe allows for less chance of sample loss and cross-contamination between samples.

Sonication is the act of applying sound energy to agitate particles in a sample, for various purposes. Ultrasonic frequencies (around 20 kHz) are usually used, leading to the process also being known as ultrasonication or ultra-sonication. In the laboratory, it is usually applied using an ultrasonic bath or an ultrasonic probe, colloquially known as a sonifier.

Sonication can be used for the production of nanoparticles, such as nanoemulsions, nanocrystals, liposomes and wax emulsions, as well as for wastewater purification, degassing, extraction of plant oil, extraction of anthocyanins and antioxidants, production of biofuels, crude oil desulphurization, cell disruption, polymer and epoxy processing, adhesive thinning, and many other processes. Sonication is also commonly used in nanotechnology for evenly dispersing nanoparticles in liquids.

 

 

 

 

 


The LSP-600 600 watts bench-scale ultrasonic liquid processor from Industrial SonoMechanics

Features

  • The LSP-600 ultrasonic liquid processor is most commonly supplied with a 600 W ultrasonic generator, air-cooled transducer, and full-wave Barbell Horn®. Optional items include a flow-through reactor chamber (flow cell), conventional horn, microtips and support stand.
  • The LSP-600 processor can be used in batch and flow-through configurations (see schematics on the left). Details are available under the SPECIFICATIONS tab.
  • The LSP-600 processor utilizes patented Barbell Horn® Ultrasonic Technology (BHUT), which makes it possible to generate extremely high ultrasonic amplitudes at any scale of operation. By upgrading to our larger BHUT-based units, the BSP-1200 or ISP-3000, any process optimized with the LSP-600 can be directly scaled-up to a pilot or industrial production environment, while maintaining the same processing conditions and reproducible results.


LSP-600 in Batch Mode

Specifications

Specifications

 

 Model  LSP-600
 Electrical requirements
  100V-120V (20A max.), 220V-240V (10A max.), 50/60Hz
 Ultrasonic output  1000 V rms (max.), 20 (+/- 1) kHz, 600 W (max.)
 Air-cooled piezoelectric transducer
  (ACT-22-LSP)		  Output Characteristics: amplitude — 22 microns (max.),
  frequency  20 (+/- 1) kHz, power — 600 W (max.)
 Full-wave Barbell Horn®
  (FBH, 21 mm tip diameter)		  Output characteristics: amplitude — 115 microns (max.),
  frequency — 20 (+/- 1) kHz, power — 600 W (max.)
 Materials of wetted parts
  Reactor chamber — 304 stainless steel. Food compatible.
 Horns (FBH, CH, microtips) — Grade 5 Titanium (Ti6Al4V). Food compatible.
 Gaskets — Buna-N or Teflon. Food compatible.
 O-rings — Buna-N. Food compatible.
 Noise level
  103 - 106 dBa at 2' away. Noise reducing earmuffs or sound enclosure required.
 Capacity

 15 ml - 100 ml — with CH (batch mode)
 100 ml - 500 ml — with FBH (batch mode)
 500 ml - 1 L — with FBH + reactor chamber (flow-through mode).
 Productivity rates  Productivity rates are highly dependent on the nature of each process and range
  from about 200 mL/h for challenging tasks (e.g., top-down nanocrystallization of
  active pharmaceutical compounds) to over 10 L/h for fast processes
  (e.g., degassing, deagglomeration).
 Optional accessories
  Flow-through reactor chamber (flow cell, 1/2" tri-clamp inlet and outlet, cooling jacket)
 Conventional horn (CH, 12.7 mm tip diameter, amplitude — 113 microns (max.))
 Support stand with clamp holders
 Noise reduction ear muffs
 Warranty  One year
 Reading  Medical Cannabis & Case Studies, Commercial Production of Water-Soluble THC & CBD  
Standard Packages

Standard package

 

 Part description

 Quantity

Part image
 SonoMechanics LSP-600 system
 1 set

 Chiller for reactor chamber
 1 pc
Bench-Scale Peristaltic Pump with 0.211 - 3600 ml/min flow rate range, reversible operation, LED display
 1 pc
  
 Full-wave Barbell Horn, output tip diameter - 21mm
 1 pc  
 User Manual 1 pc

Overview

 

Ultrasonic homogenizers, the modern version of "mortar and pestle", they can disrupt tissues and cells through cavitation and ultrasonic waves. Basically, an ultrasonic homogenizer has a tip which very rapidly vibrates, causing bubbles in the surrounding solution to rapidly form and collapse. This creates shear and shock waves which tear apart cells and particles.

Ultrasonic Homogenizers are recommended for homogenization and lysis of laboratory samples that do not require traditional grinding or rotor-stator cutting techniques for processing. Small and large ultrasonic probes are used in a variety of sample volumes to be processed. A solid probe allows for less chance of sample loss and cross-contamination between samples.

Sonication is the act of applying sound energy to agitate particles in a sample, for various purposes. Ultrasonic frequencies (around 20 kHz) are usually used, leading to the process also being known as ultrasonication or ultra-sonication. In the laboratory, it is usually applied using an ultrasonic bath or an ultrasonic probe, colloquially known as a sonifier.

Sonication can be used for the production of nanoparticles, such as nanoemulsions, nanocrystals, liposomes and wax emulsions, as well as for wastewater purification, degassing, extraction of plant oil, extraction of anthocyanins and antioxidants, production of biofuels, crude oil desulphurization, cell disruption, polymer and epoxy processing, adhesive thinning, and many other processes. Sonication is also commonly used in nanotechnology for evenly dispersing nanoparticles in liquids.

 

 

 

 

 


The LSP-600 600 watts bench-scale ultrasonic liquid processor from Industrial SonoMechanics

Features

  • The LSP-600 ultrasonic liquid processor is most commonly supplied with a 600 W ultrasonic generator, air-cooled transducer, and full-wave Barbell Horn®. Optional items include a flow-through reactor chamber (flow cell), conventional horn, microtips and support stand.
  • The LSP-600 processor can be used in batch and flow-through configurations (see schematics on the left). Details are available under the SPECIFICATIONS tab.
  • The LSP-600 processor utilizes patented Barbell Horn® Ultrasonic Technology (BHUT), which makes it possible to generate extremely high ultrasonic amplitudes at any scale of operation. By upgrading to our larger BHUT-based units, the BSP-1200 or ISP-3000, any process optimized with the LSP-600 can be directly scaled-up to a pilot or industrial production environment, while maintaining the same processing conditions and reproducible results.


LSP-600 in Batch Mode

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