| 1. | At last the benefit evaluation is made and an idea to enlarge the application with the water tank test is put forward
最后,进行了效益评价并提出了扩大技术应用?围和进行水槽实验的完善思路。 |
| 2. | Being the nonlinear function of attack angle , the hydrodynamic forces acting upon the submersible are determined by a towing tank test
作用于潜水器上的水动力系攻角的非线性函数,可用拖曳水池试验加以测定。 |
| 3. | The paper goes on analog rolling motion by forcing regular waves on tank test platform and investigates the anti - rolling performance of passive anti - rolling tank . the test platform runs normally and meets with the test needs
最后论文作者利用所设计的水舱试验台架对规则波作用下的船舶横摇运动进行了模拟,并对被动式减摇水舱模型的减摇性能进行了试验研究。 |
| 4. | The paper is based on the project " anti - rolling tank test equipments on the ship " among the country " 211 " key invested projects . the design and realization of test platform and related theoretical questions are analyzed and further discussed
本文是结合国家“ 211 ”工程重点投资建设项目“船舶减摇水舱试验装置”的研制工作进行的,对船舶减摇水舱试验台架的设计和实现及相关的理论问题进行了深入分析和研究。 |
| 5. | The paper is based on the project " anti - rolling tank test equipments on the ship " among the country " 211 " key invested projects . the design and realization of examination equipment and related theoretical questions are analyzed and further discussed
本文是结合国家“ 211 ”工程重点投资建设项目“船舶减摇水舱试验装置”的研制工作进行的,对船舶减摇水舱试验装置的设计和实现及相关的理论问题进行了深入分析和研究。 |
| 6. | The paper is based on the item the anti - rolling tank test setup among the school " 211 " key construction projects . the control method of the controlled passively anti - rolling tank is mainly investigated , and test about the controlled passively anti - rolling tank is researched
本论文是基于学校“ 211 ”重点建设项目“船舶减摇水舱试验装置”进行的,主要研究可控被动式减摇水舱控制方法和对可控被动式减摇水舱进行摇摆台模型试验。 |
| 7. | Experimental data from the towing tank tests show that the hydrofoils give more water - drags on the raft ' s hull , and that the hydrodynamic performance of a ferrying raft will be improved by rational designs of the hydrofoils ' profile , angles of attack as well as the position of hydrofoil on the hull
船模水池中的模型拖曳试验表明,尽管水翼会增加门桥的水阻力,但只要合理地设计水翼的翼型、攻角和安装位置,可以改善和提高门桥水动力性能。 |
| 8. | In this respect , it tends to be an alternative of towing tank tests . the solution of 3d viscous flows around a ship in steady straightforward courses is capable of capturing more nearfield flow features than model tests and predicting viscous resistance with high accuracy , whilst for viscous flows around a ship in maneuvering motions such predictions are only in general good
三维船舶粘性流计算方法,具有准确捕捉船体周围粘性流动细节包括船模试验难以测量的流动形态的能力,已成功地应用于船舶快速性方面的阻力预报;在船舶操纵性方面,这类方法虽处于初始发展阶段,但也已获得重大进展,具有精确预报船舶操纵水动力的潜力。 |
| 9. | 4 . seeking out typically ae characteristic parameters , with the experience on the tank testing of dqpl ( daqing petroleum institute ) ae testing and structural integrality evaluating lab . , working out the software evaluating tank floor integrality grade , which can give out the tank grade automatically , achieve intellective evaluating
根据我们实验室在常压立式储罐评价上的经验,编制出储罐罐底完整性等级评价方法,并提出用计算机进行罐底完整性等级智能评价的思路。 |
| 10. | In order to provide data reference for ships equipped with anti - rolling tank , based on the item the anti - rolling tank test equipments on the ship among the country 211 key construction projects , the paper goes on deep analysis and research on test platform of tank and motion of rolling and swaying
为了给实船装备减摇水舱提供数据参考,结合国家“ 211 ”工程重点投资建设项目“船舶减摇水舱试验装置”的研制工作,本课题对水舱试验台架及横摇、横荡运动进行了较深入的分析和研究。 |
