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Hamon Thermal (Tianjin) Optimizes Steel Structure for Xinjiang Jinhui Power Plant Using Single STAAD.Pro Model

Hamon Thermal (Tianjin) Optimizes Steel Structure for Xinjiang Jinhui Power Plant Using Single STAAD.Pro Model
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Hamon Thermal (Tianjin) Optimizes Steel Structure for Xinjiang Jinhui Power Plant Using Single STAAD.Pro Model - 1

CASE STUDY Project Summary Organization: Hamon Thermal (Tianjin) Co. Ltd. Solution: Structural Engineering Location: Baicheng County, Xinjiang, China Project Objective: • Design steel structure for aircooling island at Xinjiang Jinhui Power Plant. • Calculate construction loads and internal forces on steel structure. • Optimize design and improve safety and reliability of steel structure. Products used: STAAD.Pro Fast Facts • Hamon Thermal (Tianjin) implemented mechanical ventilation direct air-cooling condenser technology developed by the Hamon Group. • The air-cooling island served 2x300 megawatt generator sets, each containing 30 cooling modules, 30 electric motors and fans, 360 cooling pipe bundles, and 7,000 steel member bars. • STAAD.Pro enabled structural engineers to perform load calculations and structural analysis within a unified model. ROI • The optimized design decreased steel consumption from 3,500 tons to 3,100 tons, saving more than CNY 2.5 million. • STAAD.Pro reduced the time for calculations from three weeks to three or four days, and the time for modeling from more than 400 man-hours to about 300 man-hours. STAAD.Pro Saves USD 400,000 on Hamon Air-cooling Island Design Hamon Thermal (Tianjin) Optimizes Steel Structure for Xinjiang Jinhui Power Plant Using Single STAAD.Pro Model Applying Proven Technology Hamon Thermal (Tianjin) Co., Ltd. is part of the Hamon Group, an international engineering and contracting company that is a leader in the specialized markets for cooling systems, process heat exchangers, air quality systems, chimneys, and heat recovery steam generators and waste heat boilers. Xinjiang Jinhui Zhaofeng Energy Co. Ltd. retained Hamon to design the CNY 45 million steel structure for the air-cooling island at the CNY 3 billion Xinjiang Jinhui Power Plant located in the Baicheng Heavy Chemical Industrial Park in Baicheng County, Xinjiang, China. The air-cooling island will cool off steam produced by the turbines in 2x300 megawatt generator sets. Modeling the design of the steel structure took about 25 percent less time using STAAD.Pro®, Bentley’s 3D structural analysis and design engineering software. STAAD.Pro enabled Hamon to optimize the design and decrease steel consumption from 3,500 tons to 3,100 tons. This represented a savings of CNY 2.5 million. Multiple Load Calculations Air-cooling islands use air as the medium for cooling off steam turbines. The designers of the Jinhui power plant specified a mechanical ventilation direct air-cooled condenser, which is a mature technology developed by Hamon Group. The technology includes environmental protection, energy saving, and water conservation features, and has been widely used in coal-fired power plants in China and around the world. For this project, each generator set contained 30 cooling modules, 30 electric motors and fans, 360 cooling pipe bundles, and associated gear cases and pipe systems. The steel structure supporting the air-cooling system required a complex layout to accommodate the ductwork, pipes, and equipment. The steel platform itself was supported by a huge trussing system, with each generator set containing 7,000 irregularly arranged steel member bars. Construction of this massive steel structure required numerous falseworks, supporting pipe bundles, and ductwork systems. The design had to consider the construction load to ensure the safety of the structure and construction workers. The standard method for calculating loads and forces called for simplification of the structure and separation into local parts, which would not provide an accurate analysis of the whole. Unified Structural Model To optimize the design of the steel structure and improve its safety and reliability, the project team chose STAAD.Pro. The software allows structural engineers to analyze and design virtually any type of structure through its flexible modeling environment, advanced features, and interoperability. The team used STAAD.Pro to build a uniform model that reflected the actual load and internal forces on each member bar. The model was used to perform analyses and calculations, then seamlessly transition the basic steel structure design into the detail design phase. Collaborative design and information sharing improved the overall efficiency of the design process. STAAD.Pro enabled the design team to quickly resolve the complex modeling problems related to the air-cooling steel structure. Designers were able to input the geometry of complex or existing structures, such as octagonal beams and pipe bundles, and perform necessary computations. The accurate results met Hamon’s requirements for holistic analysis of the internal force distribution. Yang Xiaobing, Chief Engineer, Hamon Thermal (Tianjin), noted: “With STAAD.Pro, we can easily add load cases and design various load combinations. Therefore, we can fully consider construction conditions and design construction load and load combinations accordingly.” Time and Material Savings STAAD.Pro greatly reduced the time required to define calculation parameters for the air-cooling steel structure. It also provided the flexibility to customize calculation parameters for more than 7,000 member bars. The ability to import data for collaborative design in other software applications facilitated modification of the structural model. Any modifications were easily shared among peers so that

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Hamon Thermal (Tianjin) Optimizes Steel Structure for Xinjiang Jinhui Power Plant Using Single STAAD.Pro Model - 2

“The Bentley solution helps us meet the unprecedented challenges that Hamon faces in aircooling programs. With this solution, we save 120 man-hours and 400 tons of steel everyone had the updated version and no time was wasted on redundant modeling. Seamless transitioning among disciplines reduced the time for calculations from three weeks to three or four days, and the time for modeling from more than 400 man-hours to about 300 man-hours. Because the design requirements for multiple load cases were considered, the designers were assured that the loads under construction conditions would be...

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