Best systems are constructed with components from same manufacturer
by Tom O'Donnell
December 20, 2017

The reliable, safe and efficient feeding of chemicals into various critical stages of the steam-water cycle during power generation operations at power plants is an irreplaceable necessity for an industry that is one of the world’s most important.

Among the most significant stages are:

Pretreatment: The raw makeup water that passes through the power plant’s boilers that are used to create the steam that drives the turbines has to be as “perfect” as possible, or what is termed in the industry as “ultra-pure.” To get the water as pure as it can be, it passes through a series of filters, or clarifiers and demineralizers.

To aid in the purification process, substances like ferric sulfate and sulfuric acid are injected in tightly controlled dosage amounts into the water.

a complete chemical-feed system packageImage 1. The feeding of chemicals is paramount to the successful completion of many power-generation operations, so some pump and mixer manufacturers have begun creating complete chemical-feed system packages with all of the components built by the same manufacturer. (Images courtesy of Neptune)

Ferric sulfate is a coagulant that causes any particles in the water to clump together for easier removal, while sulfuric acid is a strong mineral acid that helps regulate the water’s pH, or alkalinity, level.

Internal treatment: The water in the boiler is treated for corrosion control where phosphates are fed as buffers to resist or control pH change, hydrazine is fed as an oxygen scavenger to remove or help decrease oxygen and amines are fed as steam-line treatments.

Cooling treatment: The cooling water is treated for corrosion control, deposition and microbial growth. Corrosion inhibitors are fed to prevent corrosion, scale inhibitors to prevent scaling (i.e. a dense coating of water-soluble constituents on cooling-tower surfaces) or sodium hypochlorite to prevent biological growth.

Since the feeding of chemicals is paramount to the successful completion of these power generation operations, by extension the chemical feed systems that are used to propagate chemical injection must be equally important.

When designed and used properly, chemical feed systems are effective, cost efficient and versatile devices that can be counted on to reliably and accurately feed the required chemical into the process.

Assemble the Hardware

The challenge, then, for the operators of power generation facilities and their operations that require chemical feed is selecting the correct chemical-feed system. Too often, however, not enough thought goes into the components used in the construction of the system. Think of a person who chooses to buy an automobile. Would he purchase components that make up the automobile separately, or would he rely on a trusted manufacturer of a complete automobile to use vehicle components that are compatible with each other, with careful thought given to how they will interact during operation?

Just opening a supply catalog and selecting the cheapest alternative, or choosing a brand that sounds familiar, is not enough to ensure a successfully operating chemical-feed system.

Let’s take a quick look at the particular parts that make up a complete chemical-feed system.

The pumps that are used to inject or dose chemicals into the process are critical components.

Diaphragm-style metering pumps have been proven to be the most effective technology for use in chemical-feed applications, and there are generally three types of diaphragm pumps that can be used in these situations.

Poly Tank SingleImage 2. When building a chemical-feed system for use in power generation, it’s best to rely on the expertise and experience of the manufacturer of the actual equipment, the company that can build the system correctly and quickly solve any operational issues that may arise.

Another piece of equipment that is vital in the operation of a chemical-feed system is the mixer. Mixers are provided to make sure the chemical is adequately blended in the supply or holding tank prior to being injected by the metering pump. The tanks will vary from a tote or intermediate bulk container (IBC) to a small day tank or a larger holding tank. The mixers used will vary in size and shape depending on the tanks being used and the chemical mixing requirements. Mounting configurations can be a c-clamp, angle riser, flange mount or threaded mount while props can be fixed or folding in myriad different configurations. Also, these mixers can be direct drive, gear-reduced or variable speed, again dependent on the application.

Take a Systems Approach

While selecting the proper pump and mixer style is the most important step in creating a successful chemical-feed system, finding the right ancillary components for that system is also critical. What many design engineers don’t realize is that many metering pump companies also develop and manufacture the components that make up a chemical-feed system. Many metering-pump manufacturers offer standard, semi-custom and custom chemical-feed systems.

Planning the installation from the supply tank or liquid source to the injection point and determining the accessories required is critical. Some of the components that go into the chemical-feed system, along with their usage recommendations, are as follows.

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