100kVA 10kV three-dimensional wound core oil immersed transformer, pure copper coil, high energy saving. Lower loss, quiet operation, strong overload capacity, fully sealed maintenance-free, widely used in power grid and factory power supply.
Specifications
ModelS22-M-100/10
Rated Capacity100 kVA
Rated Voltage10/0.4 kV (10 kV at high voltage side, 0.4 kV at low voltage side, with ±2% or ±5% off-circuit tap changer)
Winding MaterialAll-Copper Winding
Cooling MethodONAN (Oil Natural Air Natural / Oil-immersed Self-cooled)
Energy Efficiency ClassClass 1 Energy Efficiency (Compliant with the latest national energy efficiency standards for distribution transformers)
Noise Level≤55 dB(A) (Measured at 1m distance under rated load)
MaintenanceLow-maintenance fully sealed design, no routine oil change required, only periodic inspection and oil quality testing needed
Installation MethodOutdoor/Indoor floor-standing installation, gauge matches standard concrete foundation
Core AdvantagesLow loss, low noise, high reliability, strong short-circuit withstand capability, off-circuit tap changing, fully sealed leak-proof design
Application ScenariosAC 50Hz, 10kV distribution systems such as urban & rural power grids, industrial plants, commercial buildings, and residential communities
Details
Product Overview
The oil-immersed three-dimensional wound core transformer is a high-efficiency and energy-saving power transformer. It adopts advanced three-dimensional wound core technology. The core is assembled from three identical frames. When the silicon steel is slit, nearly 100% utilization can be achieved through nesting, and there is less leftover material. The silicon steel sheets are tightly wound and have no seams. The core filling coefficient is high and the magnetic resistance is small. Continuous winding can ensure that the magnetic conductivity direction of silicon steel is consistent with the actual magnetic flux direction. The length of the three-phase magnetic circuits of the three-dimensional wound core is the same, which can achieve the balance of the three-phase magnetic circuits. The no-load loss and no-load current are greatly reduced, and the noise is reduced by more than 10dB. The product is widely used.
High efficiency and energy saving: It adopts a three-dimensional rolled core structure with even magnetic circuit distribution, which reduces the joint loss of the traditional laminated core. The no-load loss and load loss are significantly reduced. The energy efficiency level reaches S20 standard and above, and the energy saving effect is obvious.
Low-noise operation: The three-dimensional rolled iron core has fewer seams and small magnetic resistance. The vibration and noise are greatly reduced during operation. It is suitable for noise-sensitive environments, such as residential areas, hospitals and schools.
Oil-immersed cooling: Using mineral oil as the cooling and insulating medium, it has excellent heat dissipation performance and can effectively reduce the operating temperature of the transformer. It is suitable for long-term high-load operation and extends the life of the equipment.
High reliability: optimized insulation and heat dissipation design, strong short-circuit resistance, stable and reliable operation, adaptable to various complex working conditions, and reduced failure rate.
Environmentally friendly design: using environmentally friendly materials and processes, complying with green manufacturing standards, reducing the impact on the environment, and meeting the environmental protection requirements of modern power systems.
Compact structure: The three-dimensional rolled iron core design makes the transformer small and light, easy to transport and install, saving space, and is especially suitable for places with limited space.
Easy maintenance: The oil-immersed design facilitates internal inspection and maintenance, reduces operation and maintenance costs, and extends the service life of the transformer.
Strong short-circuit resistance: the three-dimensional wound iron core has a solid structure and reasonable winding design, which can withstand large short-circuit current impacts and ensure safe operation of the equipment.
Low temperature rise: Oil-immersed cooling and the optimized design of the three-dimensional wound core make the temperature rise lower when the transformer is running, improving the reliability and life of the equipment.
Strong adaptability: It can adapt to various complex environments and working conditions, such as high temperature, high humidity, high altitude, etc., and is widely used in power systems, industrial and mining enterprises, urban power grids, rural power grids and other scenarios.
Good economy: Although the initial investment is high, due to its high efficiency, energy saving and low maintenance costs, the long-term operation economy is significant and the overall cost is low.
Intelligent optional: can integrate intelligent monitoring system to monitor current, voltage, temperature and other parameters in real time, support remote control and fault diagnosis, and improve operation and maintenance efficiency.
Usage environment
Serial number
Name
Unit
Required value
1
Ambient temperature
Maximum daily temperature
℃
45
Minimum daily temperature
-45
Maximum daily temperature difference
K
25
2
elevation
m
≤1000
3
Solar radiation intensity
W∕cm2
0.1
4
Maximum ice thickness
mm
20
5
Seismic resistance
Ground horizontal acceleration
ms-2
3
Sinusoidal resonance three period safety factor
≥1.67
6
Installation location
Indoor/outdoor
Application environment
Oil-immersed laminated core transformer is suitable for the following scenarios:
Used as a boost or step-down device in power systems
Power distribution and transmission in industrial areas
Electricity supply and backup power in commercial buildings
Other places that require stable and reliable power supply
10kV oil-immersed three-dimensional wound core distribution transformer standardized design test plan
Technical parameters
Model
Rated capacity (kVA)
Typical voltage Combination (kV)
Connection group Label
Impedance voltage (%)
Total weight (t)
Reference size (mm) L*W*H L*W*H
No-load loss (W)
S20-M.RL-30/10
30
High voltage H.V.
6,
6.3,
10,
10.5
Low voltage L.V
0.4
Dyn11
YynO
4
0.4
800*700*800
70
505/480
S20-M.RL-50/10
50
0.57
1000*850*950
90
730/695
S20-M.RL-63/10
63
0.63
1100*800*1200
100
870/830
S20-M.RL-80/10
80
0.72
1100*800*1350
115
1050/1000
S20-M.RL-100/10
100
0.78
1100*800*1350
135
1260/1200
S20-M.RL-125/10
125
0.85
1100*850*1400
150
1510/1440
S20-M.RL-160/10
160
1.0
1100*950*1420
180
1850/1760
S20-M.RL-200/10
200
1.2
1150*1000*1500
215
2180/2080
S20-M.RL-250/10
250
1.4
1200*1100*1500
260
2560/2440
S20-M.RL-315/10
315
1.9
1300*1120*1500
305
3060/2920
S20-M.RL-400/10
400
2.3
1350*1200*1550
370
3610/3440
S20-M.RL-500/10
500
2.8
1500*1300*1600
430
4330/4120
S20-M.RL-630/10
630
4.5
3.3
1500*1300*1700
510
4960
S20-M.RL-800/10
800
3.7
1550*1350*1750
630
6000
S20-M.RL-1000/10
1000
4.5
1750*1500*1750
745
8240
S20M.RL-1250/10
1250
5.5
1800*1500*1900
870
9600
S20-M.RL-1600/10
1600
6.5
1900*1700*2000
1050
11600
Reference standard application environment
GB/T 1094.1 Power Transformers Part 1: General Provisions
GB/T 1094.2 Power transformer Part 2: Temperature rise of liquid-immersed transformer
GB/T 1094.3 Power transformer Part 3: Insulation level, insulation test and external insulation air gap
GB/T 1094.4 Power transformers Part 4: Guidelines for lightning impulse and operating impulse tests of power transformers and reactors
GB/T 1094.5 Power transformer Part 5: Ability to withstand short circuit
GB/T 1094.7 Power Transformers Part 7: Loading Guidelines for Oil-immersed Power Transformers
GB/T 1094.10 Power transformer Part 10: Sound level determination
GB 2536 Electrical fluids Unused mineral insulating oils for transformers and switches Transformers, voltage regulators and reactors
GB/T 4109 Insulating bushings with AC voltage higher than 1000V
GB/T 5273 Terminal blocks for transformers, high-voltage electrical appliances and bushings
GB/T 6451 Technical parameters and requirements for oil-immersed power transformers
GB/T 7595 Transformer oil quality during operation
GB/T 8287.1 Indoor and outdoor post insulators for systems with nominal voltages higher than 1000V Part 1: Tests of porcelain or glass insulators
GB/T 8287.2 Indoor and outdoor post insulators for systems with nominal voltages higher than 1000V Part 2: Dimensions and characteristics
GB 10230.1 Tap changer Part 1: Performance requirements and test methods
GB/T 10230.2 Tap-changer Part 2: Application Guidelines
GB/T 11022 Common technical requirements for high-voltage switchgear and control equipment standards
GB/T 13912 Metal covering layer Technical requirements and test methods for hot-dip galvanizing of steel parts
GB/T 13499 Guidelines for application of power transformers
GB/T 15153.1 Telecontrol equipment and systems Part 2: Working conditions Part 1: Power supply and electromagnetic compatibility
GB/T 16927.1 High voltage test technology Part 1: General definition and test requirements
GB/T 16927.2 High Voltage Test Technology Part 2: Measurement System
GB/T 17468 Guidelines for Selection of Power Transformers
GB 20052 Energy efficiency limit value and energy efficiency grade of power transformer
