Wisconsin Pump Distributor for Industrial Pumps

When it comes to selecting pumps, valves, and other fluid handling equipment for your plant, understanding the properties of the fluids you're working with is crucial. One of the most important distinctions is between Newtonian and Non-Newtonian fluids.

At Crane Engineering, our team of experienced Engineers understand the unique challenges posed by different fluid types in industries such as Sanitary, Industrial, Water & Wastewater, Pulp & Paper, and Tissue applications. We're here to help you navigate the complexities of pump selection by providing expert guidance and tailored solutions.

Whether you're dealing with Newtonian or Non-Newtonian fluids, our team has the expertise to help you select the most appropriate pump for your specific application. We'll work closely with you to understand your fluid properties, flow requirements, and operating conditions to ensure that you get the optimal equipment for your plant.

What's the Difference Between Newtonian and Non-Newtonian Fluids?

NEWTONIAN FLUIDS

Newtonian fluids maintain a constant viscosity regardless of the applied shear stress. This means that their flow behavior is predictable and consistent. Examples of Newtonian fluids include:

Examples:

• Water
• Mineral oil
• Gasoline
• Alcohol

NON-NEWTONIAN FLUIDS

Non-Newtonian fluids exhibit a change in viscosity when subjected to different shear stresses. Their flow behavior can be more complex and difficult to predict. Examples of Non-Newtonian fluids include:

• Dilatant - Viscosity of the fluid increases when shear is applied. For example:
  • Quicksand
  • Corn flour and water
  • Silly putty
• Pseudoplastic - Pseudoplastic is the opposite of dilatant; the more shear applied, the less viscous it becomes. For example:
  • Ketchup

This chart shows how viscosity changes with respect to the amount of shear or stress applied to the fluid.

• Rheopectic - Rheopectic is very similar to dilatant in that when shear is applied, viscosity increases. The difference here is that viscosity increase is time-dependent. For example:
  • Gypsum paste
  • Cream
• Thixotropic - Fluids with thixotropic properties decrease in viscosity when shear is applied. This is a time-dependent property as well. For example:
  
  • Paint
  • Cosmetics
  • Asphalt
  • Glue

This chart shows how viscosity changes in respect to shear applied over time to the fluid.

Why is This Distinction Important for Pump Selection?

The viscosity of a fluid directly impacts the pump's performance and efficiency. Newtonian fluids generally have a more straightforward relationship between flow rate and pressure. However, Non-Newtonian fluids can exhibit shear thickening or shear thinning behavior, which can affect pump design and operation.

Here's a brief video to recap:

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