1) Jinzhushan power plant
金竹山电厂
1.
Main Electrical Connection of Extension Project (4×600 MW)in Jinzhushan Power Plant;
金竹山电厂扩建工程(4×600 MW)的电气主接线
2.
The Research on Electric Power Business Development Strategies of Jinzhushan Power Plant;
金竹山电厂电力业务发展战略研究
3.
Jinzhushan power plant s extension project(2 × 600MW)will be put into production in the Eleventh Five-Year Plan Period.
“十一五”期间金竹山电厂扩建工程(2×600MW)将建成投产。
2) Jinzhushan
金竹山
1.
Effects of CS Plant Restoration Technology on Jinzhushan Coal-waste Pile District;
CS植被恢复技术对金竹山煤矸石矿区的影响
3) Chimonobambusa utilis
金佛山方竹
1.
Technology of Harvesting Processing on Chimonobambusa utilis (Keng) Keng f.;
金佛山方竹笋的采收加工技术
2.
Control Technology of Chimonobambusa utilis (Keng) Keng f.Pests and Insect;
金佛山方竹的病虫害防治技术
3.
Different Types of Secondary Forests of Chimonobambusa utilis and Their Management;
金佛山方竹次生林类型与经营措施
4) Jinzhushan syncline
金竹山向斜
1.
By analyzing various indicators such as conjugated shear joins,tension fissures and small folds,the article reconstructs the main four episodes of structural stress field late Palaeoznic in Jinzhushan syncline,and discusses the process of formation and evolution of the syncline.
根据共轭剪、张节理和小褶皱发育特征的综合研究,本文恢复了金竹山向斜晚古生代以来的主要4期构造应力场,探讨了该向斜的形成和演化过程。
5) Chimonobabusa utilis
金佛山方竹
1.
Study on Fertilization Test of Chimonobabusa utilis(Keng) Keng Shoot Stands
金佛山方竹笋用林施肥试验研究
2.
Management Technology for Chimonobabusa utilis Plantation Cultivation in Karst Areas
喀斯特地区金佛山方竹人工繁殖与栽培管理技术
3.
Diseases and Pests Investigation and Control Technology for Chimonobabusa utilis
金佛山方竹病虫害调查及防治技术研究
6) Taishan Power Plant
台山电厂
1.
The experiences of economic operation realized in lime-stone/gypsum wet FGD system for two 600 MW units of Taishan Power Plant have been presented,and concrete measures for decreasing consumption of electricity,water,and lime-stone being given.
介绍台山电厂2×600 MW机组石灰石-石膏湿法烟气脱硫系统实现经济运行的经验,给出了降低电耗、水耗、石灰石耗量的具体措施。
2.
Based on the observed data,a 2D numerical model for tide and sediment of Guangdong Taishan power plant is developed.
运用建立的广东台山电厂二维潮流泥沙数学模型,在经过实测资料验证的基础上,研究了台山电厂不同取排水工况条件对电厂工程海域的海床地形演变以及电厂航道、港池的泥沙冲淤的影响,计算结果可以为台山电厂二期扩建工程的环境评价和工程优化提供技术支撑。
补充资料:山铁罗竹
山铁罗竹 即“沙园竹”,见“L2簩竹”。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条