SOLUTIONS FOR THE UNSTABLE WORKING OF A TURBOCHARGER IN MARINE DIESEL ENGINES

Q3 Engineering
V. V. Le, Thanh H. Truong
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引用次数: 0

Abstract

We know the development trend of industries in general and the shipbuilding industry, in particular, is the increase in energy efficiency to contribute to global emissions reduction, especially CO2 emissions. It is not difficult to realize that gas turbines utilize exhaust gas energy to increase the intake air pressure. Exhaust gas turbines are convenient enough to complete the shipbuilding industry in line with the norms of the world maritime organization, including EEDI (energy efficiency design index) and SEEMP (ship energy efficiency management plan). Thus, satisfying IMO's EEDI and SEEMP criteria under MARPOL Annex VI, the completion of the design and exploitation of turbocharged exhaust turbines should be a top priority. Exhaust gas turbines increase the intake air pressure to improve the performance of diesel engines, so it is almost present on most diesel engines. Mastering the structure and working principles to improve the efficiency of turbines continuously is an urgent requirement. Besides, it is necessary to follow the manufacturer's instructions and research to effectively exploit turbines that will contribute to increasing economic efficiency and contributing to reducing environmental pollution emissions. The article focuses on analyzing measures to overcome the causes of working instability of the main diesel engine's exhaust gas turbine, which will contribute a small part in completing exhaust gas turbines. Based on mastering the knowledge of exhaust gas turbine, we can choose the turbine layout to utilize exhaust gas heat suitable for diesel engines. Moreover, mastering the factors that affect the working of turbines and compressors, thereby improving the quality of turbine extraction and maintenance to ensure they always work in the best conditions.
船用柴油机涡轮增压器工作不稳定的解决方法
我们知道,整个工业特别是造船业的发展趋势是提高能源效率,为全球减排做出贡献,特别是二氧化碳的排放。不难认识到,燃气轮机利用废气能量来增加进气压力。废气涡轮足够方便,可以完成符合世界海事组织规范的造船业,包括EEDI(能效设计指数)和SEEMP(船舶能效管理计划)。因此,在MARPOL附则VI下,满足IMO的EEDI和SEEMP标准,完成涡轮增压排气涡轮机的设计和开发应该是重中之重。废气涡轮通过增加进气压力来提高柴油机的性能,因此它几乎存在于大多数柴油机上。掌握汽轮机的结构和工作原理,不断提高汽轮机的效率是一项迫切的要求。此外,有必要按照制造商的指示和研究,有效地开发涡轮机,这将有助于提高经济效率,有助于减少环境污染排放。本文着重分析了克服主柴油机排气轮机工作不稳定原因的措施,对完善排气轮机工作有一定的贡献。在掌握废气轮机相关知识的基础上,选择适合柴油机利用废气热的涡轮布置方式。掌握影响汽轮机和压气机工作的因素,从而提高汽轮机的抽运和维修质量,确保汽轮机始终处于最佳工作状态。
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来源期刊
自引率
0.00%
发文量
0
审稿时长
9 weeks
期刊介绍: The scopes of the journal include, but are not limited to, the following topics: • Thermal Engineering and Fluids Engineering • Mechanics • Kinematics, Dynamics, & Control of Mechanical Systems • Mechatronics, Robotics and Automation • Design, Manufacturing, & Product Development • Human and Machine Haptics Specific topics of interest include: Advanced Manufacturing Technology, Analysis and Decision of Industry & Manufacturing System, Applied Mechanics, Biomechanics, CAD/CAM Integration Technology, Complex Curve Design, Manufacturing & Application, Computational Mechanics, Computer-aided Geometric Design & Simulation, Fluid Dynamics, Fluid Mechanics, General mechanics, Geomechanics, Industrial Application of CAD, Machinery and Machine Design, Machine Vision and Learning, Material Science and Processing, Mechanical Power Engineering, Mechatronics and Robotics, Artificial Intelligence, PC Guided Design and Manufacture, Precision Manufacturing & Measurement, Precision Mechanics, Production Technology, Quality & Reliability Engineering, Renewable Energy Technologies, Science and Engineering Computing, Solid Mechanics, Structural Dynamics, System Dynamics and Simulation, Systems Science and Systems Engineering, Vehicle Dynamic Performance Simulation, Virtual-tech Based System & Process-simulation, etc.
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