Technical Advantages
Optimisation
Multi-size automatic parametric modelling and design optimisation for moving and stationary blades
Automation
Automatic mesh generation, automated computation, and automatic result evaluation
Intelligence
Intelligent design adjustments based on aerodynamic efficiency calculations
Completion of 500 design scheme optimisations and automatic evaluations within 24 hours (32-core computational resources)
Efficiency improvement of 2%
Technical Advantages
System Characteristics
Keywords:XEMC
High-speed steam turbine unit
Classification:Products
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OUR PRODUCT
Distributed Phase-Shifting Machine
With the implementation of the new GB 38755-2019 Guidelines for Security and Stability of Power Systems, requirements for short-circuit capacity and inertial support at new-energy stations have risen sharply. Distributed synchronous condensers are thus set to become standard equipment at such stations. High-capacity synchronous condensers offer outstanding reactive-power compensation; their sub-transient characteristics keep the internal voltage practically constant during faults, allowing them to absorb or inject large amounts of reactive power instantaneously and thereby safeguard grid operation. In particular, as the country vigorously expands its new-energy power sector, the deployment of distributed synchronous condensers can effectively counteract current surges, frequency deviations, voltage fluctuations and flicker—mitigating the inherent volatility and intermittency of renewable-energy sources.
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Flywheel Energy Storage System
Flywheel energy storage constitutes a physical energy storage method, harnessing the kinetic energy inherent in a rotating body to store and release electrical energy. This conversion between kinetic and electrical energy is achieved via an electric motor/generator coaxially mounted with the flywheel assembly. When operating as a motor, the drive unit accelerates the flywheel rotor, converting input electrical energy into stored kinetic energy. When operating as a generator, the drive unit decelerates the flywheel rotor, converting stored kinetic energy back into electrical energy for output. The acceleration and deceleration of the drive unit are controlled by a dedicated control unit.
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·The QF and QFW series synchronous generators represent a range developed to high standards and specifications through the introduction, assimilation and adaptation of advanced motor manufacturing technologies from both domestic and international sources. This development draws upon our company's extensive design and manufacturing expertise accumulated over more than eighty years. ·This series of generators boasts significant advantages including rational design, compact structure, superior craftsmanship, reliable operation, ease of maintenance, and extended service life. They offer excellent compatibility with various prime movers such as steam turbines and gas turbines. They are widely applicable in energy-saving and environmentally friendly sectors including biomass power generation, waste heat and pressure power generation, natural gas or coal gas utilization power generation, and combined heat and power generation.
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WHY CHOOSE US
Technical research and innovation capability
XEMC is the enterprise in China that promotes the most efficient motor models and has the widest coverage. Since 2010, its promotion volume has consistently ranked first in the industry. The "ultra green" series of motor products developed by it have a motor efficiency of 96.91% and key technical indicators reaching the international leading level.
ONLINE MESSAGE
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No. 66 Diandian North Road, Yuetang District, Xiangtan City, Hunan Province
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