About us
Focus on the existing and sustainable development problems of the industry, and provide solutions through technological innovation.
News
Learn about the latest company, productss, business news and technological developments of SHEMAR POWER. Every day, SHEMAR is bringing safer and more economical electric energy closer to you.
Solutions
Innovative CICA solutions offering savings in materials, manpower, ROW, carbon emissions, and power loss for new builds and retrofits.
Products
Building a new generation of power system with new materials and technologies.
Transmission
Substation
Distribution
CICA is assembled from insulators and replaces the original iron crossarms and suspension insulator strings with a horizontal layout. The end sections are directly connected to the conductors using suspension fittings, achieving a compact tower design structure. This effectively reduces accidents and losses caused by flashovers while providing mechanical support and electrical insulation for overhead conductor systems.
SHEMAR offers various kinds of standardized off-the-shelf products and custom engineered solutions which are tailored to the customer’s requirements.
SHEMAR’s Line Compaction and Upgrading Solutions:
- Line Post Insulators
- Braced Line Post Insulators
- Compact Integrated Suspension/Tension Insulator Sets
- High Strength Insulated Cross-Arms (CICATM) for both Suspension and Tension Structure Applications
The world's first application of composite crossarm towers in an ultra-high voltage direct current (UHVDC) transmission line project.
The project addressed the issues of restricted corridor space and inadequate ground clearance, thereby enhancing the safety and reliability of the power grid operation.
The Canadian company aims to increase the ground clearance for the 240kV double-circuit lattice tower conductors in order to address land occupancy issues. They plan to replace the angle steel crossar
The conductor suspension point was raised by approximately 2 meters, effectively resolving the issue of insufficient ground clearance distance in the original line.
Located in a coastal area, the line has been severely corroded and has withstood multiple strong typhoons, yet continues to operate normally.
Since its commissioning in 2000, the line has experienced multiple instances of wind-induced deflection. Various methods to prevent wind-induced deflection have been employed, but they have not comple
The project involved studying the use of composite material crossarms to reduce the corridor width of the line in Dali, Yunnan, China, taking into consideration the area's unique geographical environm
The world's first application of composite crossarm towers in an ultra-high voltage transmission line project. Utilization of 7 foundation straight-line towers.
The world's first application of composite crossarm towers in an ultra-high voltage alternating current (UHVAC) transmission line project.
Raising the conductor-to-ground distance to 2 meters effectively reduces the cost of the transmission line project.
Minimizing capital expenditure of the project: reducing raw materials and lowering construction workload. Reducing the use of steel and foundation materials to minimize carbon emissions. Excellent res
The project is located in Leizhou City, Zhanjiang, Guangdong Province, China. This area is a typical coastal region with high salinity, located near the Qiongzhou Strait. The wind intensity is signifi
The highest AC voltage used in Europe is 400kV. The "diamond-shaped" composite cross-arm towers were applied in the Hinkley Point C Nuclear Power Transmission Project in the UK in 2015. The project in
Reduce tower height by at least 6 meters. Reduce right-of-way, lowering Bill of Quantities (BOQ) and Right-of-Way (ROW) costs.
Using the CICA solution to optimize tower height while maintaining the existing corridor width, achieving the required airspace for aviation.
TS Transco Hyderadad 132kV upgrade project
The Ultra High Voltage Direct Current (UHVDC) ±800kV Lingzhou-Shaoxing Line ProjectThe 220kV Transmission Line Project from Jinhua Substation to Jichang Substation in Xinjiang
The Ultra High Voltage Direct Current (UHVDC) ±800kV Lingzhou-Shaoxing Line Project
The Second 750kV Interconnection Project between Xinjiang and the Northwest Main Grid
The Nuozaodu ±800kV Grounding Electrode Line Project in Yunnan
The 750kV Transmission Project in Wujiaqu, Xinjiang
The 500kV Technical Upgrade Project of Jiangsu Dongsan Line
The 220kV Transmission Project of Henan Nanyang Zhong 500kV Substation
The 220kV Supporting Line Project from Zhuzhou Yuntian to Changsha Huaichuan in Zhuzhou, Hunan Province.
The 220kV Maoqiang Line Renovation Project of Lianyungang Power Supply Company in 2009
The 220kV Manxia I Phase Transmission Line Project in 2019
The 110kV Tianqing Line Project in Dali, Yunnan Province in 2019
The 110kV Miceng Line in Urumqi, Xinjiang
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