Standard Pumps
Standardized design, interchangeability, widely used in industrial applications.
Standard pumps
Industrial standard pumps are pumps that are manufactured and specified in accordance with certain industry-wide or international norms and standards. These standards specify certain requirements for the design, performance, dimensions, materials and operating parameters of the pumps in order to ensure uniform quality, interoperability and safety.
Standard pumps are often used in industries with specific requirements for pump performance and quality. One example of this is the chemical industry, where the handling of aggressive chemicals and precise dosing are of great importance. Standard pumps ensure that the pumps comply with the defined standards and thus meet the requirements of these demanding applications.
DIN 2532 and DIN 24255 are German standards that deal with flanges and connection dimensions of industrial pumps. These standards define the dimensions, tolerances and technical specifications for the flange connections of pumps to ensure interoperability between pumps and piping systems.
- DIN 2532: This standard deals with flanges for large flange connections used in industrial applications, including pumps. It specifies the dimensions and shape of the flanges as well as the thread and bore details.
- DIN 24255: This standard defines the flange dimensions and flange connections of centrifugal pump-like machines. It includes the types and dimensions of the flanges for pump housings and pump connections.
These standards are important to ensure a standardized interface between the pumps and the piping systems. This makes it possible to install pumps easily and safely in existing or new systems without having to make any adjustments to the flange connections. The standards also apply to other equipment in the industry and help to ensure the smooth operation and compatibility of various components.
Areas of application
DIN 2533 and DIN 24255 are German standards that deal with flange connections and connection dimensions of industrial pumps. The areas of application for industrial standard pumps in accordance with these standards are wide-ranging and include
- Chemical industry: In the chemical industry, standard pumps to DIN 2533 and DIN 24255 are used in systems that have to pump aggressive chemicals, solutions and liquids. The standardized flange connections facilitate the installation and maintenance of the pumps in such demanding environments.
- Petrochemical industry: Standard pumps are used in the oil and gas industry and in refinery plants to pump various media such as crude oil, chemicals and petrochemical products.
- Power generation: Standard pumps are used in power plants, both thermal and nuclear, to pump cooling water, steam, condensate and other media.
- Water treatment: Standard pumps to DIN 2533 and DIN 24255 are used in water treatment plants to pump, treat and distribute water, whether for drinking water, swimming pools or industrial processes.
- Food and beverage industry: In this industry, standard pumps are used for dosing and transporting food ingredients, liquids and beverages.
- Pharmaceutical industry: The standardized pumps are used for the precise dosing of medical solutions, medicines and other pharmaceutical products.
- Chemical processes: In various chemical processes, whether in research laboratories or industrial plants, standard pumps are used to move liquids or chemicals.
- Environmental technology: Standard pumps are used in waste water treatment plants and air purification applications to convey and treat media.
The standard pumps in accordance with DIN 2533 and DIN 24255 are versatile thanks to their standardized flange connections and connection dimensions and offer interoperability between different system components. However, the exact application depends on the specific requirements and processes in the respective industries. If you have any questions, please contact our experts at DIA Pumpen.
Our models:
Standard pumps
N-VDK
Q max. 600 m³/h
H max. 100 m
N/SN/ZN
Q max. 3500 m³/h
H max. 100 m
NB/NBN/SNB/ZNB
Q max. 1500 m³/h
H max. 30 m