Specification

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What is MSVC Reactor Type Reactive Power Compensation Device?

The MSVC Reactor-type Reactive Power Compensation Device is a critical stabilizing device for reactive power in power systems. Magnetic control is used to control the reactor output and the device provides a fast and precise reactive power compensation. Particularly effective in reactive power demand environments where rapid response to demand changes is required, the ability of its operating modes to respond quickly to changes is used in power systems, petrochemical plants, metallurgy, electrified railways, renewable energy facilities, and the coal industry. It greatly raises voltage quality, by keeping the voltages steady and by lowering voltage fluctuation caused by reactive power imbalances. The device enhances the efficiency of the total power system by optimizing reactive power flow and therefore reduces energy losses for the utility and perceived by the end user. Additionally, it helps increase the life and reliability of distribution infrastructure and connected industrial equipment.

Features

1. Reliable and easy to maintain:

The reactive compensation in power system makes reactive compensation operation and maintenance simple and reliable to transformers such that they can be operated in the long term.

2. Strong overload capacity:

It is capable of up to 5% overload for up to 10 minutes and will endure stable performance in the face of temporary surges or high demand.

3. Low harmonic distortion:

Very small harmonic currents and total distortion of less than 3% are produced by the device, which avoids any perturbation to power quality and there will not be any interference with the power grid.

4. No need for a complex cooling system:

Compared with other devices, MSVC does not need a complex cooling system or specific cooling conditions and can be installed directly outdoors, enhancing its flexibility.

5. Compact size:

It has a small footprint, and is appropriate for installations with limited space, thereby facilitating a reduction in total land and installation costs.

6. Closed core design:

The closed core structure sucks in the magnetic field, keeping it inside instead of leaking through to interfere with electrical equipment, control equipment, or instruments surrounding the device.

7. Simple installation:

The low installation cost and simple installation further enhance the cost-effectiveness of the proposed system in its various industrial applications.

Working Principle

This reactive compensation works on this principle: the reactive power in the electrical system is electrically controlled by a magnetically controlled reactor (MCR). Its core function is to compensate for reactive power demand by reactive power flow adjustment through load control on the inductance of the reactor in real-time. It is a reactor, an excitation control box, and a control system. Both alternating current (AC) and direct current (DC) magnetization technology are used by the magnetically controlled reactor (reactor) as its key component. The control is achieved by changing the conduction angle of the thyristor to change the excitation current in the reactor core. The magnetic field in the reactor can be controlled by controlling the excitation current, which can vary the inductance of the reactor continually and smoothly. It offers a fast and flexible means of compensating power load fluctuations and managing reactive power with adjustable inductance. The reactor drops its inductance when the load demands a reactive power injection to pass that current into the system.

Application

1. Power systems:

Maintenance of voltage stability, and as a means to help power factor are two uses where it is widely used in power transmission and distribution networks. To control the power grids with large reactive power demands, it is necessary for its fast response compensation capability to compensate for the power flowing in the change.

2. Petrochemical industry:

MSVC equipment flow compensation allows real-time reactive power compensation in petrochemical plants, where reactive power, which represents variations in power loads, varies due to complex production processes.

3. Metallurgy:

Heavy machinery and reactive processes within the matalleteric industry result in large amounts of reactive power fluctuations. The constant of the power supply and elimination of voltage falls sustains smelting and steel mills by preserving continuous and effective manufacturing.

4. Electrified railways:

Having a reliable power that powers electrified railways is a must for an efficient train operation. These networks are supported by MSVC systems which maintain voltage stability and power usage efficiency under highly dynamic railway environments.

5. Coal industry:

Reactive compensation equipment compensates for reactive power imbalance, enhances energy efficiency, and shares the power system infrastructure, in the case of large motors and electrical equipment used in coal mining operations.

Certificate

Factory

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