GENERATOR SYNCHRONIZATION

OUR SYNC SOLUTIONS

Services we provide regarding synchronous generator systems:
Detection and elimination of faults in existing synchronous generator systems, general system control and maintenance,
Adding or removing synchronous generators to single or multiple generator systems,
Revision of synchronous switchgear (change of switches and panels)
Revision of synchronous generator systems (card and panel changes)
System optimization (Power back-up transformer-generator)
Synchronization of power generation plant generators (Installation, commissioning)

SYNCHRONIZATION MODULE & INSTALLATION

Many brands of synchronous modules are used in synchronous systems.
Comap and Deepsea branded synchronization modules, whose reliability and durability are proven worldwide, are provided by us.

Our company offers solutions in the supply chain, installation and service of ComAP & DeepSea products in order to meet the needs of our customers.

GENERATOR SYNCHRONIZATION

Synchronization and commissioning of single-running generators, implementation of the working scenario in accordance with the customer's request,
construction of the synchronization panel and transfer panel necessary for the synchronous operation of generators of different powers and different brands with each other and with the network. 
Backup working system of generators, application of generator starting scenario according to load.

STAR GENERATOR's area of expertise is to create a synchronous working scenario in line with the demands, to determine the devices, to create the projects and to put the system into use.

Although we can manufacture all kinds of synchronization panels, we also provide project and commissioning support to our customers who manufacture panels.

SYNCHRONIZATION IN BRIEF;

Synchronization is the operation of two or more generator groups by connecting them to a common busbar at the same time to feed the plant load.
Diesel generator groups; They produce electrical energy at different voltages, from 400 volts at low voltage to 13800 volts at higher voltage.
Different arrangements can be made with suitable diesel generators to meet the electrical energy needs of the facility.

● Continuous feeding of the facility with a single generator,
● Continuous feeding of the facility with synchronous generators,
● Feeding the facility with generators running synchronously as backup to the grid energy,
● Parallel operation of the grid with single or synchronous generators
● Uninterrupted transition system between mains energy and backup generator or generators.

Advantages of synchronous system; The price of two synchronous machines that are synchronous compared to a single machine that will give the same power,
the fact that the other generators can feed emergency loads in case one generator fails, and fuel savings can be achieved by shutting down the excess generator at night and during holidays when the energy need is low.

GENERATOR SYNCHRONIZATION PANEL MANUFACTURING

With a customer focus, synchronization panels are manufactured for generators suitable for synchronization of all brands and models in the desired scenario.
The synchronization panels produced can be manufactured only as synchronization control panels for our customers with existing switchgear, or they may be in an integrated structure including the switchgear system.
The control card on it can choose a different brand according to the scenario. If desired, it can be remotely monitored and controlled with SCADA.

TRANSFORMER SYNCHRONIZATION

In cases where the power requirement increases, two or more transformers are connected in parallel to the busbar instead of an existing transformer.
Thus, more power capacity is obtained.
It is more economical as the maintenance costs of the transformers that are connected in parallel and put into operation are reduced. Parallel transformers are more reliable than a single transformer.
In addition, the power requirement of enterprises may decrease in some cases. (Night, holiday, etc.) In such times, more transformers than needed increase operating costs.
As it is known, transformers have losses during their operation. Deactivating redundant transformers helps to eliminate these losses.

Parallel Connection Conditions of Transformers:

The primary and secondary voltages of the transformer to be connected in parallel must be equal at all times.
Rated powers should not be equal to each other or the ratio between their powers should not be greater than 1/3.
The short-circuit voltages (Uk) of the transformers to be connected in parallel should be equal to each other or the difference between them should not be greater than 10%.
The same polarity ends of the transformers to be connected in parallel must be connected to each other. Thus, transformers are prevented from being short-circuited over each other.
The connection groups of the transformers to be connected in parallel must be compatible.