Hygienic Pneumatic Conveying of Milk Powders

Hygienic Pneumatic Conveying of Milk Powders
Food industry comes up with the most quality equipment’s on their processes, especially milk protein industries are investing the most in manufacturing with the most quality technologies.

This is a case study for a new factory we have been commissioned to design and develop with the highest technology and for safety controls and cleaning processes.

The peculiarity of these systems comes not only by the extract requirements but also by the complexity of the products to be managed which are described as middle–bad fluidity. After analyzing the material for different powders we’ve come up with a Hausner index of 1.28-1.35.

In addition, we have done the analysis under the Geldart index which measures the fluidization and air retention capacity, and come up that the different products oscillate between products of type A and B and we place it specifically in zone 3 (for this we have considered a particle density of around 1500 kg/m3 and an average particle size of 200 µ).

Analysis of bulk solids

First and foremost, an analysis of the bulk goods to be conveyed is required in order to choose the appropriate procedures/systems and components

Geldart divides the bulk cargos according to their fluidization behavior and air retention into groups A, B, C, D, providing a rough classification of the conveying characteristics

A     fine-grained powder with low density, easily fluidized with good air retention

B     medium granulation with medium density, some fluidization properties with poor air retention

C     fine powders with higher density, cohesive, poor fluidization properties with poor air retention

D     larger granulation with higher density, no fluidization properties, no air retention

This is the reason why to maintain the integrity of the particle as much as possible and to carefully transport the products, a dense phase pressure conveying system by a push conveying process with high load and slow conveying speed is chosen for this commissioned project.

Chosen conveying system

  • solids Vibro Puls Pneu Plug conveying with bypass, impulse valve and relay stations Pressure conveying system

Patented pneumatical plug conveying solids PULS PNEU

In 1970 H.J. Linder’s German patent DE-PS 2-122858 described a complete procedure for pneumatical plug conveying for the first time. It features an impulse valve that forms plugs and a second feed line with so-called relay stations to maintain the plugs and continue their transport without dispersing them.
For about 40 years the solids solutions group has planned and built over 1000 systems based on this patent for thousands of different products in all European countries, the USA, Japan, and India.

The innovative and key characteristics were and still are

  • virtually infinite conveying methods and capacities
  • no blockage at slow speeds and large loading (µ = kg material/kg air, gas)
  • slow, gentle conveying from approximately 0,5 m/sec
  • almost nonwearing – even for extremely firm and abrasive bulk solids e.g. silicon carbide or grinding material
  • hardly any grain destruction and minimal abrasion of supersensitive products e.g. spray granulate
  • no decomposition with mixtures and processed masses
  • low energy costs due to an efficient use of the pressure energy
    reliable operating procedures even with damp, cohesive, sticky or poorly flowing bulk goods

Vibro-Pulsor Neumático PIVS-Hygienic-Dry for top hygienic systems.

Operation purpose: Pneumatic pressure conveying vessel with complete facilities. The discontinuous operation, filling with bulk solid when the inlet valve is open under atmospheric conditions. Then locking pressure-tight and discharging the bulk solid and conveying with compressed air into the connected pipeline.

Operating conditions: Permissible operating pressure: 3 barg, Product temperature max: 70° C Max./Min. ambient temperature: -10 °C ≤ T ≤ 50 °C Bulk solids data: Powdered till granulates, up to middle hardness, from free-flowing up to non-flowing products.

This one in the picture is a HYGIENIC pneumatic impeller that has been designed with an internal roughness <= 0.8 microns.

Consisting of:

1. Connection for Butterfly valve for loading and closing the pulsator.

2. Pressure vessel:

   – Volume: 450 usable liters

   – Material: stainless steel AISI-304L

   – Maximum working pressure: 6 bar.

   – Maximum temperature: 100°C

   – DN-100 manhole. 

It comes with outlet elbow, supporting legs, connection for Safety valve s/97/23/EG, de-aeration system, connection for Pressure transducer, and electro-pneumatic panel. ATEX 22.

In this project, we have provided a total of 3 units of our Hygienic-Wet Design according to EHEDG-Guidelines with high hygienic requirements and wet cleaning. As per is a total of three towers to fulfill the production requirements

Production requirements

The capacity of pneumatic conveyors shall be sized to meet the capacity of both drying towers (towers one and two).

– Tower 1 (main):

o Milk powder: 5,300 kg/h.

o MPC85 and MCI: 1750-2300 kg/h.

Pneumatic conveying capacity tower 1 – bagging = 5,300 kg/h. (maximum production of milk powder feeding two bagging machines).

– Tower 2:

o WPI: 200-300 kg/h.

Pneumatic conveying flow rate tower 2 – bagging = 2,700 kg/h. (maximum capacity of a bagging machine to bag daily production of WPI stored in a hopper upstream).

– Tower 3:

o Permeated:  3000-3500 kg/h.

 Pneumatic conveying capacity tower 3 – It is sized to meet the capacity of the permeate tower.

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Hosokawa Solids, part of Hosokawa Alpine and member of the Hosokawa Micron Group, was founded in 1969 and has more than 50 years of experience in the field of bulk solids handling technology. The company provides its own developed process solutions and equipment in core competences such as storage, pneumatic conveying, dosing, milling, classifying, ...