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Industrial Furnace Transformer

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MOQ : 1 Unit

Industrial Furnace Transformer Specification

Voltage Booster Type
Automatic Tap Changer (Optional)

Coil Material
Electrolytic Copper

Operating Temperature
-10C to +50C

Dimension (L*W*H)
Custom Built, Depends on Rating

Low Voltage
150 V - 1,200 V

Load Loss
As per IS 2026 / IEC Standards

Cooling Type
ONAN / ONAF / OFAF

Capacity
500 kVA - 20,000 kVA

High Voltage
Up to 33,000 V

Standard
IS 2026 / IEC 60076

Rated Voltage
11 kV / 33 kV (Primary), As Per Requirement (Secondary)

Product Type
Step Down Furnace Transformer

Material
Copper

Output
Product wise

Frequency (MHz)
50 Hertz (HZ)

Efficiency
99.9%

Phase
Three Phase

Usage
Industrial Furnace Applications

Coil Structure
Toroidal

Coil Number
Double Winding

Power Scope
Up to 20,000 kVA

Weight
Approx. 2-10 Tons (varies with design)

Insulation Class
Class F or H

Ambient Condition
Indoor / Outdoor Installation

Protection
Overload / Short Circuit / Buchholz Relay

Terminal Type
Bus Duct / Cable Box

Tap Changer
Off Load or On Load Tap Changer

Winding Technique
Layer / Disc Winding

No Load Loss
As per Design Specification

Paint Finish
Epoxy Powder Coated

Sound Level
< 65 dB at 1 Meter

Core Type
Core Type / Shell Type

Mounting Type
Floor Mounted

Cooling Medium
Mineral Oil / Synthetic Oil

Impedance
8% (Typical)

Industrial Furnace Transformer Trade Information

Minimum Order Quantity
1 Unit

Supply Ability
100 Units Per Month

Delivery Time
2-3 Months

About Industrial Furnace Transformer

Having rich experience of 25 years in this domain, we offer supreme quality Industrial Furnace Transformer. This transformer is manufactured with the use of quality-assured components and state-of-the-art techniques by our adept technocrats. Widely used for providing electricity in industrial furnaces, offered transformer is cherished for its excellent performance. Besides, our precious patrons can avail this Industrial Furnace Transformer from us at reasonable prices within prescribed time frame in bulk.

Key Points of Industrial Furnace Transformer:

Less maintenance
Noise free functioning
Longer service life
Easy to install

Arc, Submerged Arc, Ladle, Induction, Upto 10 MVA,Upto 33kV,ONAN/OFWF Cooling

A high current furnace transformer is provided by having the low-voltage windings arranged in a closed delta configuration within the transformer enclosure. Bus bar terminals are mounted exterior to the enclosure for providing electrical connection with the low-voltage windings.

Furnace transformers are used to step down from voltages between 11 and 33 kV to levels of several hundred volts only. This results in massive secondary currents. As an example a 30 MVA unit at 150 V would result in a secondary current of 115 kilo Ampere. For these high secondary currents special bushings are required to connect to the bus-bars. These bushings are specified with very specific arrangements to suit the bus-bar arrangement and cooling system. Furnace bus-bars are mostly water cooled. Due to the high secondary currents and resistive losses the furnace layout is such as to limit the bus-bar length.

The furnace transformers are then located close to the furnace itself and if they are single phase units, arranged in a triangle around the furnace. This means that there is a high risk of fire, a high ambient temperature and this whole set up is located at a level associated with the third story of the building. The location above ground level encourages single phase units due to the structural limitations of the buildings. To reduce the fire risk the transformers are contained in rooms, which adds to the high ambient temperature.

Furnace transformers are very much in a production environment. Loading of these transformers is then very close to rated values and even beyond. This demands very reliable transformers. Shutdowns due to transformer problems are frowned upon. When shutdowns occur, the problem needs to be solved quickly. This in turn calls for good accessibility of the tap changer and other parts of the transformer. Large inspection covers in close proximity to the tap changer are often specified.

Due to the nature of the process furnace transformers are specified with large tapping ranges. Thirty tap positions is not uncommon. Adding to the wide tapping range is the utilisation of the tap changer. Some users require up to 800 operations of the tap changer per day. This demands high maintainability and efforts to increase the maintenance intervals. On line tap changer oil filters are thus essential. To reduce downtime further, plug-in type diverters are specified. This allows a quick changeover of the diverter switch and an overhaul in a workshop environment with more time at hand.

Another aspect of the process is the large number of short circuits that these transformers are subjected to every day. Transformers associated with open arc furnaces can be subjected to a number of short circuits per melt as the material being melted collapses across the electrodes. Bus-bar flash overs are also a fact of life on most furnace installations. To add to this peril, furnace transformers are required to have a lower than normal impedance. This gives rise to higher over-current factors. very robust design in terms of the transformers ability to withstand the dynamic effects of repeated short circuits is required. Minimum impedance values for furnace transformers of the core type are in the order of 4 -5 %. To achieve lower values, one would need a shell type transformer. Upper levels for impedance could be any value from 10 to 24 % depending on the configuration and tapping range.

Application in following industries :
Chemical, Pharmaceuticals, Steel, Textile, Engineering, Plastic, Cement, Refineries, Mining, Captive Power Projects, Hydro Power Projects, Wind Mill Farms, Construction Houses, Pharma, Electrical, Electronics, Renewable Energy, Automobile.

Optimized for High-Performance Furnace Applications

Engineered for industrial furnace usage, this transformer delivers exceptional reliability and precise voltage control. Its design features, like double-layer disc winding and toroidal structures, ensure durability even under intensive operational cycles. Compliance with rigorous international standards ensures long-lasting performance and minimal maintenance requirements.

Flexible Installation and Custom Engineering

With mounting options for both floor spaces and varied terminal types including bus duct and cable box, these transformers are highly adaptable to specific site conditions. Each unit is custom-built according to the required capacity, dimensions, and output specification, catering to distinct industrial needs across India and global markets.

Advanced Protection and Durable Construction

Safety and resilience are prioritized through overload, short circuit protection, and Buchholz relay mechanisms. An epoxy powder-coated finish and robust construction protect the system against environmental hazards. Designed for both indoor and outdoor use, it maintains a noise level under 65 dB, ensuring a quieter workspace.

FAQ's of Industrial Furnace Transformer:

Q: How does the insulation class F or H impact transformer performance in industrial furnace applications?

A: Insulation class F or H allows the transformer to safely operate at elevated temperatures, enhancing durability and reliability in high-heat industrial furnace environments. This provides greater longevity and stability under continuous heavy-duty usage.

Q: What are the benefits of using On Load and Off Load Tap Changers in these transformers?

A: On Load Tap Changers enable voltage adjustment while the transformer is in operation, ensuring continuous voltage regulation. Off Load Tap Changers require the transformer to be de-energized for adjustments, suitable for less frequent changes. Both types enhance voltage control flexibility for furnace processes.

Q: When should mineral oil or synthetic oil be chosen as the cooling medium?

A: Mineral oil is widely used for its cost-effectiveness and proven performance, while synthetic oil is preferred for environments requiring higher fire resistance and better biodegradability. The choice depends on installation site safety and ecological requirements.

Q: Where can this industrial furnace transformer be installed?

A: These transformers are suitable for both indoor and outdoor installation, thanks to robust weather-resistant construction and flexible mounting options that cater to varied industrial environments.

Q: What is the typical process for customizing a transformer for specific furnace requirements?

A: The process begins with a thorough analysis of the furnace's power needs, voltage specifications, and installation site conditions. Based on this data, the transformer is custom-designed for optimal fit, including adjustments in dimensions, cooling, tap changer type, and protection features.

Q: How does the transformer ensure safety during overload or fault conditions?

A: Advanced protection systems like overload and short circuit protection, plus the Buchholz relay, automatically detect and mitigate abnormal conditions, safeguarding both the transformer and connected furnace equipment.

Q: What operational advantages do users gain from the high efficiency (99.9%) of this transformer?

A: A high efficiency of 99.9% means minimal energy loss, reduced operational costs, and enhanced overall system performance. This is especially beneficial for industries relying on continuous, heavy-load processes such as metal melting and heat treatment.

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