Oil Distribution Transformer up to 3150 kVA - Experts Electrical

English
RFQ

Download the app

Oil Distribution Transformer up to 3150 kVA

discuss personally

Model

Minera Set Series

Basic info Product Detail Supplier

Basic info

Brand	Schneider
Model NO.	Oil Distribution Transformer up to 3150 kVA
Rated voltage	12/17.5kV
Series	Minera Set Series

Product Detail

Overview

Mineral oil-immersed, 50 Hz, three-phase
distribution transformers with the following
characteristics:

Hermetically sealed with integral filling
Cover bolted to the tank
ONAN
Minerai oil in accordance with IEC 60296
lndoor / outdoor use (depending on selected fittings and options)
Anti-corrosion surface treatment: corrosivity category class C3, 'Medium'
durability (according to ISO 12944-2)
Final colour RAL 7033

Standards
These transformers comply with standards:

EN 50588-1 (supersedes EN 50464-1:2007, EN 50708-1, EN 50541-1:2011)
EN 60076-1
Ecodesign regulation EU 548-2014 and its amendment EU 2019/1783

Characteristics
12 kV, 400 V

Dimensions and weights

Characteristics
17.5 kV, 400v

Dimensions and weights

Characteristics
24 kV, 400v

Dimensions and weights

Characteristics
36 kV, 400v

Dimensions and weights

Know your supplier

Schneider

Chengdu Fabo Automation Complete Equipment Co., Ltd is an authorized distributor of Schneider Electric, a global leader in energy management and automation solutions.

Main Categories

High voltage/Low voltage

Business Type

Manufacture/Sales

Highest Annual Export (USD)

$400000000

Professional Experience

9 years

Workplace

20000m²

占位

占位

Documents

Public.

Minera - Oil Distribution Transformer

Manual English

ZIP

Related Products

Related Knowledges

Load Frequency Control (LFC) & Turbine Governor Control (TGC) in Power System

Load Frequency Control (LFC) & Turbine Governor Control (TGC) in Power System

Brief Introduction to Thermal Generating UnitsElectricity generation relies on both renewable and non - renewable energy resources. Thermal generating units represent a conventional approach to power production. In these units, fuels such as coal, nuclear energy, natural gas, biofuel, and biogas are combusted within a boiler.The boiler of a generating unit is an extremely complex system. In its simplest conception, it can be visualized as a chamber whose walls are lined with pipes, through which

Analysis and Discussion on the Main Shaft Fault of Vacuum Circuit Breaker in EIB Mechanism

Analysis and Discussion on the Main Shaft Fault of Vacuum Circuit Breaker in EIB Mechanism

A vacuum circuit breaker is a type of circuit breaker in which both the arc - extinguishing medium and the insulating medium in the gap between the contacts after arc - extinction are vacuum. As a protection and control unit for power equipment and power - driven equipment in industrial and mining enterprises, indoor AC high - voltage vacuum circuit breakers have diverse applications and can be installed in fixed cabinets, middle - mounted cabinets, and double - layer cabinets. As a crucial elec

Analysis of a Burning - out Fault of VS1 Vacuum Circuit Breaker

Analysis of a Burning - out Fault of VS1 Vacuum Circuit Breaker

VS1 Indoor High - Voltage Vacuum Circuit Breaker Fault Analysis and Improvement MeasuresThe VS1 indoor high - voltage vacuum circuit breaker is an indoor switching device used in 12 kV power systems. Due to its excellent performance, it is especially suitable for places that require frequent operation at rated working current or multiple interruptions of short - circuit current. The operating mechanism of the VS1 indoor high - voltage vacuum circuit breaker is integrated with the circuit breaker

Generator Protection – Types of Faults & Protection Devices

Generator Protection – Types of Faults & Protection Devices

Common Generator Faults and Protection SystemsClassification of Generator FaultsGenerator faults are primarily categorized into internal and external types:Internal Faults: Arise from issues within generator components.External Faults: Stem from abnormal operating conditions or external network issues.Faults in prime movers (e.g., diesel engines, turbines) are mechanical in nature and defined during equipment design, though they must integrate with generator protections for tripping purposes.Typ

Classification of Electric Power Distribution Network Systems

Classification of Electric Power Distribution Network Systems

The typical electric power system network is categorized into three main components: generation, transmission, and distribution. Electric power is produced in power plants, which are often located far from load centers. As a result, transmission lines are employed to deliver power over long distances.To minimize transmission losses, high-voltage power is used in transmission lines, and the voltage is reduced at the load center. The distribution system then delivers this power to end-users.Types

Why 3-Phase Power? Why Not 6, 12 or More for Power Transmission?

Why 3-Phase Power? Why Not 6, 12 or More for Power Transmission?

It is well-known that single-phase and three-phase systems are the most prevalent configurations for power transmission, distribution, and end-use applications. While both serve as fundamental power supply frameworks, three-phase systems offer distinct advantages over their single-phase counterparts.Notably, multi-phase systems (such as 6-phase, 12-phase, etc.) find specific applications in power electronics—particularly in rectifier circuits and variable frequency drives (VFDs)—wher

商品视频播放