Tag Archives: mixing

SPX Flow brings mixing companies, brands into one entity

SPX FLOW Inc says it has fully integrated the additions to its mixing solutions portfolio, creating a bigger, more technologically advanced offering for customers.

By combining these legacy companies and brands – Lightnin, Plenty, Stelzer, Uutechnic and Philadelphia Mixing Solutions – both new and existing customers now have access to the best solution across all brands, it said.

“Together they bring industry-leading technical know-how to deliver solutions in a wide variety of industries, including specialty chemicals, mining and minerals, food and beverage, personal care, pharmaceuticals, environmental and wastewater, green technologies end markets,” the company said.

Ankur Jain, SPX FLOW’s Director of Product Management of Mixing Solutions, said: “SPX FLOW has taken the best of already trusted brands to build something truly unique for our customers. It’s an example where the whole is greater than the sum of its parts. Alone these brands were already top-notch trusted brands. Together, they are now truly the best of the best.”

Some of the greatest benefits for customers the company highlighted include:

  • Easy access to the best process know-how: Combining industry-leading brands ensures a wide variety of specialised mixing expertise to solve complex problems. Globally connected teams of industry experts offer a truly unique service to customers at their doorsteps;
  • Offering a greater array of solutions: Customers no longer need to search out multiple companies to solve their mixing needs. Customers have the options to choose from different solutions to satisfy their specific needs;
  • More locations worldwide, including manufacturing, service centres and innovation labs; and
  • Dedicated aftermarket and service organisation to enhance end-user operations.

“Not only are we able to offer better services and opportunities to our existing customers, but we can reach more customers and end-users and support them with our services,” Jain said. “By combining forces, we can offer our solutions and expertise in new markets and geographies, meaning a customer now has access to SPX FLOW Mixing Solutions and our expertise, trusted quality and aftermarket support at their doorstep.”

SPX Flow says it has a rich history and legacy with more than 1 million mixers installed worldwide. It also has a dedicated footprint of more than 92,000 sq.m consisting of state-of-the-art production facilities and service centres, along with four innovation and design centres spread across the world to run customer trials, innovate new solutions and develop technical advancements.

This move follows hot on the heels of SPX FLOW being acquired by an affiliate of Lone Star Funds.

Mixing in the minerals processing industry

For many operations in the minerals processing industries, the contacting of ore particles with a liquid is critical to the successful extraction of the desired metal product, Richard K Greenville* (pictured) says.

This operation is carried out in large vessels in which an agitator provides energy to suspend the particles above the base of the vessel and to promote contacting of the liquid with them.

There is a minimum speed at which the agitator must operate, often referred to as the “just suspension speed”. At this speed, no particles are stationary on the vessel base for an extended period. They are constantly in contact with the liquid.

When this mixing criterion has been met, the resistance to mass transfer between the particles and the liquid is diffusion through the liquid film around each particle. At lower speeds, when the particles can settle, the mass transfer rate depends on diffusion through the bed of settled particles, which is much slower. Also, at speeds below the just suspended speed, particles will accumulate on the base, since they are not moving. Eventually the vessel will have to be drained so these particles can be cleaned out. This reduces the productivity of the plant and adds to operational costs.

While mixing can affect the rate of mass transfer between the liquid and the particles, the overall rate of an extraction process will also be determined by the diffusion within the ore particle. This is independent of mixing. The rate in this step of the process can be increased by grinding the particles to a smaller size, but that can make the particles more difficult to separate from the liquid after extraction, because their settling velocity will be lower.

Sometimes there is a requirement for the particles to be distributed throughout the liquid to some fraction of the total depth. For example, if the particles leave the vessel by overflow, they must be suspended to the liquid surface. Operation at the just suspended speed does not guarantee the particles will be uniformly distributed, and the power and torque delivered by the agitator must be increased significantly to achieve this condition.

Another important operation is the dispersion of gas into the vessel. Like solids suspension, there is a minimum speed at which the agitator must operate called the “flooding speed”. At this speed, the flow generated by the impeller overcomes the buoyancy of the gas bubbles, ensuring they are well distributed throughout the liquid. Also, the impeller creates stresses in the liquid, reducing the size of the bubbles increasing the area for mass transfer between the gas and liquid.

Three-phase systems are common in minerals processing. The presence of the bubbles will reduce the agitator’s ability to suspend the particles, and it will usually have to operate at a higher speed to ensure the particles are all in motion and the gas is well dispersed.

There are rules for sizing agitators for solid-liquid and gas-liquid contacting and for three-phase systems. These have been applied successfully to design equipment for many minerals processing plants and research into mixing these processes continues today.

*Richard K Greenville is Director of Mixing Technology for Philadelphia Mixing Solutions Ltd