Power Transformer 66Kv (Um=72.5kV)

Introduction to 66kV (Um=72.5kV) Power Transformers

Our company's 66kV power transformers (with system maximum voltage Um=72.5kV) are suitable for 66kV power transmission and distribution systems. The product maintains the technical characteristics of low loss, low noise, and low partial discharge. No lifting cover is required for on-site installation, and the body can achieve long-term maintenance-free operation. The core is made of high-quality silicon steel sheets bound with non-woven fabric, and the clamping parts are of a large plate frame structure, with strong short-circuit resistance. The coils are calculated through electric field and mechanical force simulation, using self-adhesive wires or semi-rigid wires, and are pre-pressed and shaped, ensuring good stability. The oil tank is of full vacuum design, and the sealing surface adopts limit hard connection. Combined with the full vacuum oil reservoir for oil filling, it effectively controls partial discharge and leakage. This product has a sturdy structure and is suitable for various layout environments.

Product Parameters

Rated Capacity (kVA)	Voltage Combination			Connection Group Symbol	No-load Loss (kW)	Load Loss (kW) (75℃)	No-load Current (%)	Short-circuit Impedance (%)
	High Voltage (kV)	High Voltage (kV)%	Low Voltage kV		22
3150	35~ 38.5	±2x2.5% 土5%	3.15 6.3 10.5	Yd11	1.7	20.7	0.45	7.0
4000					2.0	24.6	0.45
5000					2.4	28.2	0.35
6300					2.9	31.5	0.35	8.0
8000		±2x2.5%	3.15 3.3 6.3 6.6 10.5	YNd11	4.0	34.6	0.30
10000					4.8	40.8	0.30
12500					5.5	48.4	0.30
16000					6.7	59.2	0.25
20000					7.9	71.6	0.25
25000					9.4	84.6	0.28	10.0
31500					11.1	100.8	0.28

Rated Capacity kV-A	Voltage Combination		Connection Group Symbol	No-load Loss (kW)	Load Loss (kW)	No-load Current (%)	Short-circuit Impedance (%)
	High Voltage and Tap Range (kV)	Low Voltage		22
6300	110±2x2.5% 115±2x2.5% 121±2x2.5%	6.3 6.6 10.5	YNd11	4.1	32.0	0.62	10.5
8000				4.9	38.0	0.62
10000				5.8	45.0	0.58
12500				6.8	53.0	0.58
16000				8.3	65.7	0.54
20000				9.7	79.0	0.54
25000				11.4	94.0	0.50
31500				13.5	111	0.48
40000				16.2	133	0.45
50000				19.4	158	0.42
63000				22.9	187	0.38
75000		13.8 15.75 18 21		26.0	212	0.33	12~14
90000				29.9	245	0.30
120000				37.3	303	0.27
150000				44.1	359	0.24
180000				49.5	411	0.20
Note 1: For step-up transformers, a tapless structure is recommended. Taps can be provided if required by operation. Note 2: When the annual average load factor of the transformer is between 42% and 46%, the maximum operating efficiency can be achieved using the loss values in the table.

Rated Capacity kV-A	Voltage Combination		Connection Group Symbol	No-load Loss (kW)	Load Loss (kW)	No-load Current (%)	Short-circuit Impedance (%)
	High Voltage and Tap Range (kV)	Low Voltage		22
31500	220±2×2.5% 242±2×2.5%	6.3 6.6 10.5	YNd11	15	115	0.56	12～14
40000				18	134	0.56
50000				21	161	0.52
63000				25	188	0.52
75000		10.5 13.8		29	213	0.48
90000				34	246	0.44
120000				41	304	0.44
150000		10.5、13.8 11、13.8 15.75 18、20		49	360	0.40
160000				51	378	0.39
180000				56	413	0.36
240000				70	484	0.33
300000		15.75 18 20		83	577	0.30
360000				95	662	0.30
370000				97	675	0.30
400000				103	716	0.28
420000				106	742	0.28
Note 1: Transformers with a rated capacity of less than 31500 kVA and those with other voltage combinations can also be provided upon request.Note 2: Transformers with a low voltage of 35 kV and 38.5 kV can also be provided upon request.

Product Introduction

Transformer Features

Our company manufactures transformers with the following characteristics: low loss, low noise, low partial discharge, no leakage, and strong short-circuit resistance. They do not require core lifting during on-site installation, and the transformer body is maintenance-free for 20 years. Below are the main features of transformers with voltage ratings below 110 kV in terms of structure and process.

Core Section

1.Core Material and Structure

High-performance grain-oriented silicon steel sheets are selected for the core. The core adopts a fully oblique multi-stage step joint structure, and the non-overlapping yoke process is used, which helps reduce no-load losses and noise.

2.Core Assembly

The core column and yoke are bound using high-strength resin mesh banding materials, mechanically bundled and cured. This ensures good core perpendicularity.

3.Mechanical Strength

The core structure has high mechanical strength. Notably, the frame structure made of large laminated clamp plates effectively clamps the core together, ensuring sufficient short-circuit mechanical strength. This design also meets the requirement for no core lifting during transportation and on-site installation.

4.Core Connectors

All core structural components are rounded to avoid sharp edges. In areas with high field strength where lead wires pass through, special insulation sheaths are added to reduce partial discharge.

5.Electrical Reliability

All core component connections are left unpainted to ensure reliable electrical connection and prevent localized electrical potential. Both the clamps and core are grounded separately.

Coil Section

1.Electrical Structure Design

Electrical structural parameters are calculated using analysis software.

2.Voltage Distribution

All coils are analyzed using wave process calculation software for voltage distribution and repeatedly adjusted to ensure a reasonable gradient distribution. The electrical field strength of the transformer body is also verified to ensure optimal main longitudinal insulation parameters and electrical strength.

3.Coil Insulation

All coils are wound on hard insulation tubes that have been pre-dried and impregnated with oil for pre-stabilization. The outer coils are supported with external support strips, and additional auxiliary support strips are added inside the inner coils to improve short-circuit resistance.

4.Short-Circuit Resistance

Based on short-circuit mechanical force calculations, self-adhesive transposed conductors or semi-rigid conductors are used for the inner coils, which have extremely high mechanical strength and meet short-circuit resistance requirements.

5.Enhanced Short-Circuit Strength

All coil terminals and end parts are bound with high-shrink polyester heat-shrink tubes and heat-shrink tapes to increase short-circuit resistance.

6.Coil Structure and Cooling

The inner and outer coil spacers are designed based on calculated values and may differ, ensuring a rational distribution. The coils are equipped with a guided cooling structure for optimal heat dissipation. In addition, heat-pressed insulation molded parts replace traditional cardboard spacer strips at the coil transposition points. The oil gap spacer blocks are rounded and pre-impregnated, improving axial short-circuit resistance.

7.Vacuum Drying and Assembly

After vacuum drying, individual coils are assembled in phase. The main oil gap spacers between the coils are fixed using special positioning plates. After vacuum drying the coils, their heights are checked and adjusted to ensure that coils in the same phase are under consistent load, improving short-circuit strength.

Transformer Body Section

1.Body Structure

The transformer body adopts a single-phase structure. The body press plates are made of laminated insulation board or laminated wood, which have sufficient short-circuit impact resistance.

2.Compression Structure

The compression structure of the body uses laminated insulation board press blocks instead of traditional nails, increasing the cross-sectional area of the compression blocks and reducing the compression force. This structure uses hydraulic devices to set a pre-compression force during assembly after the drying process.

3.Lead Supports

All lead supports are made of high-density laminated wood and form a frame structure. Some lead supports are formed using laminated insulation paperboard, which increases both mechanical and electrical strength. All supports use laminated wood insulation nuts with a special anti-loosening structure.

Oil Tank and Assembly Section

1.Vacuum Oil Tank

All transformers rated for 110 kV and below use a fully vacuum-sealed oil tank with a barrel-shaped structure. The upper and lower sections of the oil tank can be connected either by bolts or welded to meet the requirement for no core lifting and maintenance-free operation. The inside of the oil tank is fully polished and rounded.

2.Oil Conservator

All transformer oil conservators can withstand full vacuum strength and are equipped with airbags and pointer-type oil level indicators. After all transformer accessories are assembled, the conservator can be evacuated to a full vacuum before oil injection, effectively preventing the formation of bubbles inside the insulation components and transformer, reducing partial discharge.

3.Sealing Structure

The sealing surfaces of the transformer, including bushings, adopt a hard connection structure with limit grooves, and high-quality sealing components are used with sealing adhesives to ensure no leakage.

4.Positioning and Reliability

The transformer is equipped with a special upper and lower positioning structure, which ensures reliability, resistance to transportation shocks, and meets the requirement for no core lifting during installation.

5.Secondary Wiring

Secondary wiring is arranged according to the user’s requirements, using stainless steel cable trays or armored cables, and all wiring is connected to terminal boxes to facilitate user installation.

6.Advanced Assembly Process

The transformer body undergoes an equivalent exposure time control from drying to vacuum oil impregnation, ensuring continuous high-vacuum degassing during the assembly of all accessories. This effectively controls moisture absorption in insulation components.

Quality Control

Our company’s entire transformer production process follows an advanced process management system for quality control. Processes such as wire production, insulation material fabrication, coil manufacturing, and body assembly are all carried out in dust-free work zones, with the air cleanliness controlled to 3 μg/cm²·day or below.

Company Profile

Changzhou Pacific Electric Equipment (Group) Co., Ltd. Is a high-tech enterprise in China specializing in the research and manufacturing of high and low voltage power transmission and distribution equipment. Since its establishment in 1989 and the implementation of group operation in 1997, the company has taken technological innovation as its core driving force. With a registered capital of 130 million yuan, it has grown into an industry innovation leader.
The company's base is located in a modern 240,000-square-meter industrial park, with a construction area of 120,000 square meters and fixed assets of 500 million yuan. It possesses a strong manufacturing capacity capable of producing over 20,000 sets of electrical equipment annually.

Our core strength stems from technological innovation and lean manufacturing:

Industry technical leadership position: As a regular member of the China Electrical Appliance Industry Association and the vice-chairman of the sub-committee on electrical control and distribution, as well as high-voltage switches, the company actively participates in the discussion of cutting-edge industry technologies and the formulation of standards, promoting the advancement of industrial technology.

Comprehensive layout of intelligent products: The product line comprehensively covers from high-voltage switches, transformers to low-voltage intelligent power distribution and overall substation solutions. Each product achieves technical synergy and system compatibility, providing customers with intelligent and integrated power equipment options.

Continuous R&D innovation capabilities: The company has a professional R&D team that has been dedicated to the development of intelligent, environmentally friendly, and highly reliable products for a long time. It actively integrates advanced technologies such as the Internet of Things and digital control, aiming to enhance the intelligence level and operational efficiency of the power grid.

Outstanding craftsmanship and quality assurance: The manufacturing system strictly adheres to international and domestic standards, and the core processes are completed in a clean environment. The company has an advanced testing and inspection center to ensure that every stage from raw materials to finished products meets the highest quality requirements.

Rich experience in successful applications: The product has undergone over 30 years of market testing and has been widely used in key projects such as power grid main lines, rail transit, data centers, and new energy power generation. It has won the trust of the industry with its outstanding stability and economy.

Customer-centered service culture: Adhering to the principles of "professionalism, integrity, cooperation, and innovation", we provide customers with full-cycle technical support and customized solutions. We constantly strive for excellence and collaborate with customers to innovate together, creating a smart power future.

With its solid technical capabilities and reliable product performance, the company has become the preferred brand for many customers and partners in the construction of power infrastructure.