Troubleshooting Water Softener Capacity Problems

Design and Operational Impacts

  • 17 octobre 2023
  • Author: Jeff Lazor
  • Number of views: 2903
  • 0 Comments
Troubleshooting Water Softener Capacity Problems

Theoretically, the maximum hardness-removal capacity of a water softener can be calculated from the grains of hardness of the water to be softened, the volume of resin, and the resin capacity expressed in grains/gallon. The actual capacity of a water softener may be impacted by many factors:

How to Properly Size an Industrial Water Softener

  • 3 novembre 2020
  • Author: Kevin Blake
  • Number of views: 6816
  • 0 Comments
How to Properly Size an Industrial Water Softener

Water softeners are ion exchange systems designed to remove scale-forming calcium and magnesium ions prior to boiler, cooling, and reverse osmosis systems. Many different sizes and configurations of softeners are available, with selection based upon factors such as water quality, system demand, and the overall application. In industrial applications, it is imperative that a properly sized softener is selected to ensure that hardness is not allowed to pass to critical system components. Both over and under-sized softeners can result in serious problems due to hard water in these systems.

How to Calculate Softener Capacity

  • 18 juin 2019
  • Author: Chem-Aqua, Inc
  • Number of views: 81729
  • 0 Comments
How to Calculate Softener Capacity

Water softeners are ion exchange systems designed to remove scale-forming calcium and magnesium ions prior to boiler, cooling, and reverse osmosis systems. The amount of hardness a softener can remove between regenerations is known as the softener capacity and can be expressed either in grains or in gallons. Capacity is important when sizing, configuring, or troubleshooting a softener.

Softener Regeneration in Four Easy Steps

How to Achieve Optimal Softener Performance

  • 13 mars 2018
  • Author: Chem-Aqua, Inc
  • Number of views: 34310
  • 0 Comments
Softener Regeneration in Four Easy Steps

Everyone knows soft water feels different than hard water—but did you know soft water may be better for your water systems? To improve efficiency and extend the life of your water systems, scale-causing calcium and magnesium ions are replaced with sodium ions in the softening process. To regenerate a softener that has reached capacity, you must conduct four steps: backwash, brine draw, slow rinse, and fast rinse.

Review this infographic for details about how to achieve optimal softener performance, and turn to Chem-Aqua for all of your water treatment needs.

How Sodium-Cycle Water Softeners Work

Four Steps to the Regeneration Process

How Sodium-Cycle Water Softeners Work

Hard water can cause a variety of serious problems. Water containing dissolved calcium and magnesium ions can lead to the buildup of limescale, which can impair and damage industrial equipment such as heat exchangers. Furthermore, the presence of these ions significantly reduces the lathering ability and overall effectiveness of soaps, making for subpar wash water.  Water softening is used to combat hard water.

RSS