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  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor
  • 0.5L mechanical seal zirconium lab reactor

0.5L mechanical seal zirconium lab reactor

No.00092
The 0.5L laboratory reactor is an essential tool for chemical and pharmaceutical research and development. It is designed for easy handling, precise control, and efficient small-scale production.
$1800.00
Description
Type Working pressure  Motor power Heating type Shaft Seal type Ports of kettle lid Controller Device
FCH05AEPGDY001 Bellow 0 to +52 Mpa 50~125 W Electric Stainless steel Mechanical sealed Gas port with needle valve. etc. PID
Volume Working temperature Stirring speed Heating power Stirring type Main material Discharging type Accessories
0.5 L N/A 20~1500 r/min 0.8~1 KW Paddle Zirconium Bottom Skirt support

The 0.5L laboratory reactor is an essential tool for chemical and pharmaceutical research and development. It is designed for easy handling, precise control, and efficient small-scale production.
As a versatile equipment, its specifications include electric heating, paddle stirring, stainless steel materials, bottom discharge, and mechanical sealing. 
The electric heating system is an efficient way to control the temperature of the reaction. It is equipped with a temperature sensor and controller that enable the precise control of the reaction temperature.
  • The paddle stirring system is used to mix the reactants uniformly. The stirrer is designed to maximize mixing efficiency while minimizing the damage to the materials during stirring.
  • Stainless steel materials provide excellent material compatibility, corrosion resistance, and hygiene. 
  • The bottom discharge system is designed for easier material transfer. It allows users to collect the product continuously or intermittently.
  • The mechanical sealing system provides a leak-proof and contamination-proof environment during the reaction. It has a longer service life and requires less maintenance than other sealing methods.

This laboratory reactor is widely used in the research and development of new chemicals, pharmaceuticals, and materials. It is also suitable for process optimization, small-scale production, and quality control. Its small size and versatility make it ideal for laboratory experiments and testing. It can be used for various chemical reactions, such as hydrogenation, oxidation, polymerization, and material synthesis. 

In the chemical industry, the reactor can be used for the production of new chemicals or intermediates, such as fine chemicals, specialty chemicals, and agrochemicals.
In the pharmaceutical industry, it can be used for developing new drugs, screening catalysts, and optimizing reaction conditions. In the materials science field, it can be used for synthesizing new materials with unique properties, such as nanomaterials, polymers, and composites. 

In summary, the 0.5L laboratory reactor is a versatile and efficient tool for chemical and pharmaceutical research and development.
Its electric heating, paddle stirring, stainless steel materials, bottom discharge, and mechanical sealing systems enable precise control, efficient mixing, excellent material compatibility, easy material transfer, and a leak-proof and contamination-proof environment during reactions. It is suitable for various chemical reactions and widely used in chemical, pharmaceutical, materials science, and other related fields.
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