Difference between revisions of "Twin Shaft Batch Mixers"

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[[File:twin-shaft batch mixer1.jpg|thumb|200px|right|twin-shaft batch mixer]]
 
The '''twin-shaft batch mixer''' has become a preferred technology for concrete production in many countries. This mixer is used to replace manual mixing with a shovel in which a line of aggregate, cement, and water positioned on the ground, was repeatedly shoveled from right to left. This concept was later abandoned and over a number of development stages, was replaced by today’s highly dynamic movement process.
 
 
==Operation Principles==
*Generation of a circular three-dimensional movement of the whole mixture
*Intensive material exchange in the turbulent overlap area of the two mixing circles
*Optimal utilization of the energy input into intensive relative movements of the mixture
*Inclusion of the whole material volume in the mixing process at any time of the process
 
 
==Advantages==
===Consistent high level of homogeneous mixture within rapid mix cycles===
*Homogeneous mixture levels of 95% are achievable within 30 seconds
*Batch after batch the mixers produce high level uniform and homogeneous mixtures
*The mixing techniques preserve the grain structure of the individual recipe components
 
===High energy efficiency===
*High mixture performance is achieved at low speeds
*Reduced energy consumption due to short mixing cycles, effectiveness of mixing tools and efficiency of drive units
 
===Low-wear===
*Minimal wear of mixing tools and trough liners achieved from relatively low mixing speed and mixer compact design
*Reduced wear compared to pan or planetary mixers
*All wear parts have been optimized and designed for longevity
 
===Efficient concrete production===
*Fast and optimal use of cement and other binders
*Potential for saving of cement and other binders
*Consistent and fast distribution of additives and admixtures throughout the whole mixture volume
*Batch to batch consistency for every mixing cycle
*Minimum batch filling levels of 10% are possible
*Guranteed future-proof in view of new concrete recipes (SCC, UHPC, etc.)
*Hybrid mixing cycles possible (slow – fast – slow)
 
 
==Video==
<youtube>BxVpH4ZPHCU</youtube>

Latest revision as of 00:46, 3 September 2012


twin-shaft batch mixer

The twin-shaft batch mixer has become a preferred technology for concrete production in many countries. This mixer is used to replace manual mixing with a shovel in which a line of aggregate, cement, and water positioned on the ground, was repeatedly shoveled from right to left. This concept was later abandoned and over a number of development stages, was replaced by today’s highly dynamic movement process.


Operation Principles

  • Generation of a circular three-dimensional movement of the whole mixture
  • Intensive material exchange in the turbulent overlap area of the two mixing circles
  • Optimal utilization of the energy input into intensive relative movements of the mixture
  • Inclusion of the whole material volume in the mixing process at any time of the process


Advantages

Consistent high level of homogeneous mixture within rapid mix cycles

  • Homogeneous mixture levels of 95% are achievable within 30 seconds
  • Batch after batch the mixers produce high level uniform and homogeneous mixtures
  • The mixing techniques preserve the grain structure of the individual recipe components

High energy efficiency

  • High mixture performance is achieved at low speeds
  • Reduced energy consumption due to short mixing cycles, effectiveness of mixing tools and efficiency of drive units

Low-wear

  • Minimal wear of mixing tools and trough liners achieved from relatively low mixing speed and mixer compact design
  • Reduced wear compared to pan or planetary mixers
  • All wear parts have been optimized and designed for longevity

Efficient concrete production

  • Fast and optimal use of cement and other binders
  • Potential for saving of cement and other binders
  • Consistent and fast distribution of additives and admixtures throughout the whole mixture volume
  • Batch to batch consistency for every mixing cycle
  • Minimum batch filling levels of 10% are possible
  • Guranteed future-proof in view of new concrete recipes (SCC, UHPC, etc.)
  • Hybrid mixing cycles possible (slow – fast – slow)


Video