Do you need examples for a specific type of plant (e.g., , nuclear , or renewables )?
The ( Kraftwerk-Kennzeichensystem ) is a standardized, hierarchical coding system used worldwide to uniquely identify equipment, systems, and structures in power plants. It ensures a common language for engineering, construction, operation, and maintenance. Core Identification Types
KKS (Kraftwerk-Kennzeichensystem) is a globally recognised identification system for power plants, designed to uniquely tag every system, piece of equipment, and component . Developed by the VGB (now vgbe energy kks power plant identification system pdf free
(Level 1, Letters): Represents the Feedwater System (under the "L" category for steam/water cycles).
Identifies specific systems like the steam cycle or fuel supply using three letters (e.g., LAA for Feedwater System). Do you need examples for a specific type of plant (e
[ Level 0 ] ---> [ Level 1 ] ---> [ Level 2 ] ---> [ Level 3 ] Total Plant Function Equipment Component Breakdown Level 0: Total Plant Identifies the overall plant site or unit. : Usually 1 alpha or numeric character. Example : 1 for Unit 1, 2 for Unit 2. Breakdown Level 1: Function Identifies the specific system or process loop. Format : 3 letters and 2 numbers (GAA10, LAB20). Key Letter Categories : A : Grid and distribution systems H : Conventional heat generation (boilers) L : Steam, water, and gas cycles (turbines) P : Cooling water systems W : Renewable energy systems (wind/solar) Breakdown Level 2: Equipment Unit
We recommend that power plant personnel: [ Level 0 ] ---> [ Level 1
This is the most common use of KKS. It identifies systems and equipment according to their function in the power plant process. Total Plant (e.g., Unit 1 or Unit 2). Level 1: Function/System (e.g., Feedwater system). Level 2: Equipment Unit (e.g., A specific pump).
This article explores the structure of KKS, its importance in lifecycle management, and how to find reliable documentation. ⚡ What is the KKS Identification System?