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Green Y-strainers on black pipes

Strainers

An economical filtration solution for
a wide range of applications.

Y-strainer on the white background
FAUDI Y-strainer

Sieve filters:

T- and Y-Strainers
(S8 and S9)

In chemical, petrochemical, refinery and power plant industries, fluid transport is realized through piping systems. A wide range of different forms of contamination occur in piping systems throughout all industries, either as a result of processes or due to aging and wear processes. Regardless of the fluid (gas, steam or liquids) flowing through the pipelines, sensitive plant components such as pumps, measuring and control instruments must be protected from such contamination. FAUDI strainers offer an economical and robust solution for applications with small amounts of dirt or where regular inspection is not necessary. The Y-strainer and T-strainer are named after the arrangement of the chamber for the dirt collection sieve. This branches off from the main line in either an angled Y-shape or a vertical T-shape. T-strainers are designed with a single sieve disc, while a sieve cylinder is used in a Y-strainer.

Drawing of a functional description of strainers_EN
Function of a FAUDI T-strainer_EN

How does a
Strainer work?

T-strainer:

In a T-strainer, the flow is directed in a straight line through the filter housing. The fluid is injected through the inlet opening, flows through a strainer disc where contaminants are retained, and exits the filter housing through an outlet opening at the same level. The sieve disc is inserted into the housing by a third T-shaped outlet. Contaminants retained on the sieve disc create a differential pressure as they flow through. Increasing contaminants cause an increasing differential pressure. If a predetermined differential pressure is exceeded, the strainer disc must be removed and cleaned.

Y-strainer:

In a Y-strainer, the flow is injected into the filter housing by an inlet opening, flows through an inclined sieve cylinder in which contaminants are retained, and exits the filter housing through an outlet opening at the same level. The sieve cylinder is inserted into the housing by an angled outlet. The contaminants retained in the sieve cylinder cause a differential pressure during the flow. Increasing contaminants cause an increasing differential pressure. If a predetermined differential pressure is exceeded, the sieve cylinder must be removed and cleaned.

Benefits: Your advantages
at a glance

  • Cost-effective filtration solution
  • Highest achievable
    filtrate qualities
  • Compact and robust design
  • Particularly economical
    at large volume flows
  • High design variability
  • Low pressure loss
  • Cleanable filter materials
  • In-line version
    (version without height offset of
    inlet & outlet)
  • Horizontal or vertical
    installation position possible
  • Suitable for liquids, gases and steam

Data and facts
S8/S9

 :

  • Filtration fineness

    100 µm – 5,000 µm

  • Fluids

    Liquids, gases and steam

  • Filter material

    Sieve disc with/without stainless steel wire mesh, sieve cylinder with/without stainless steel wire mesh

  • Filtration capacity

    50 m³/h to 7,500 m³/h for
    T-strainers; 15 m³/h to 2,000 m³/h for Y-strainers; depending on filter size, filter fineness and medium

Industries: Where they are used

labor-utensilien

Chemical industry

kraftwerk-mit-zwei-tuermen

Refineries/oil & gas

kraftwerk-mit-strommast

Energy production

staudamm

Water treatment

Application areas: How they are used

  • T-Strainer FAUDI
    T-Strainer FAUDI
  • Close view strainer
    Close view strainer

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References: projects with strainers

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