下载本文档
版权说明:本文档由用户提供并上传,收益归属内容提供方,若内容存在侵权,请进行举报或认领
文档简介
1、精选优质文档-倾情为你奉上Lesson 1 HOW DOES A MARINE DIESEL ENGINE WORK? The diesel engine is a type of internal combustion engine which ignites the fuel by injecting it into hot, high pressure air in a combustion chamber. The marine diesel engine is a type of diesel engine used on ships. The principle of its op
2、eration is as follows: A charge of fresh air is drawn or pumped into the engine cylinder and then compressed by the moving piston to very high pressure. When the air is compressed, its temperature rises so that it ignites the fine spray of fuel injected into the cylinder. The burning of the fuel add
3、s more heat to the air charge, causing it to expand and force the engine piston to do work on the crankshaft which in turn drives the ship's propeller. The operation between two injections is called a cycle, which consists of a fixed sequence of events. This cycle may be achieved either in four
4、strokes or two. In a four-stroke diesel engine, the cycle requires four separate strokes of the piston, i.e. suction, compression, expansion and exhaust. If we combine the suction and exhaust operations with the compression and expansion strokes, the four-stroke engine will be turned into a two-stro
5、ke one, as is shown in Figures l (a)-(d). The two-stroke cycle begins with the piston coming up from the bottom of its stroke, i.e. bottom dead centre (BDT), with the air inlet ports or scavenge ports in the sides of the cylinder being opened (Fig. 1 (a). The exhaust ports are uncovered also. Pressu
6、rised fresh air charges into the cylinder, blowing out any residual exhaust gases from the last stroke through the exhaust ports. As the piston moves about one fifth of the way up, it closes the inlet ports and the exhaust ports. The air is then compressed as the piston moves up (Fig. 1 (b). When th
7、e piston reaches the top of its stroke, i.e. the top dead center (TDC), both the pressure and the temperature of the air rise to very high values. The fuel injector injects a fine spray of fuel oil into the hot air and combustion takes place, producing much higher pressure in the gases. The piston i
8、s forced downward as the high pressure gases expand (Fig. 1 (c) until it uncovers the exhaust ports. The burnt gases begin to exhaust (Fig. 1(d) and the piston continues down until it opens the inlet ports. Then another cycle begins. In the two-stroke engine, each revolution of the crankshaft makes
9、one power or working stroke, while in the four-stroke engine, it takes two revolutions to make one power stroke. That is why a two stroke cycle engine will theoretically develop twice the power of a four stroke engine of the same size. Inefficient scavenging and other losses, however, reduce the pow
10、er advantage to about 1.8.Each type of engine has its application on board ship. The low speed (i.e. 90 to 120 r/min) main propulsion diesel operates on the two-stroke cycle. At this low speed the engine requires no reduction gearbox between it and propeller. The four-stroke engine (usually rotating
11、 at medium speed, between 250 to 750 r/min) is used for alternators and sometimes for main propulsion with a gearbox to provide a propeller speed of between 90 to 120 r/min.READING MATERIALWORKING CYCLES A diesel engine may be designed to work on the two-stroke or on the four-stroke cycle. Both of t
12、hem are explained below.The Four-Stroke Cycle Figure 2 shows diagrammatically the sequence of events throughout the typical four-stroke cycle of two revolutions. It is usual to draw such diagrams starting at TDC (firing) but the explanation will start at TDC (scavenge). Top dead centre is some times
13、 referred to as inner dead centre (IDC). Proceeding clockwise round the diagram, both inlet (or suction) and exhaust valves are initially open. (All modern four-stroke engines have poppet valves.) If the engine is naturally aspirated, or is a small high-speed type with a centrifugal turbocharger, th
14、e period of valve overlap, i.e. when both valves are open, will be short, and the exhaust valve will close some 10o after top dead centre (ATDC). Propulsion engines and the vast majority of auxiliary generator engines running at speeds below 1,000 r/min will almost certainly be turbocharged and will
15、 be designed to allow a generous throughflow of scavenge air at this point in order to control the turbine blade temperature. In this case the exhaust valve will remain open until exhaust valve closure (EVC) at 50-60o ATDC. As the piston descends to outer or bottom dead centre (BDC) on the suction s
16、troke, it will inhale a fresh charge of air. To maximise this, balancing the reduced opening as the valve seats against the slight ram or inertia effect of the incoming charge, the inlet (suction) valve will normally held open until about 25-35o ABTC (145-155o BTDG). This event is called inlet valve
17、 closure (IVC). The charge is then compressed by the rising piston until it has attained a temperature of some 550oC. At about 10-20o BTDC (firing), depending on the type and speed of the engine, the injector admits finely atomised fuel which ignites within 2-7o (depending on the type again) and the
18、 fuel burns over a period of 30-50o, while the piston begins to descend on the expansion stroke, the piston movement usually helping to induce air movement to assist combustion. At about 120-150o ATDC the exhaust valve opens (EVO), the timing being chosen to promote a very rapid blow-down of the cyl
19、inder gases to exhaust. This is done: (a) to preserve as much energy as is practicable to drive the turbocharger, and (b) to reduce the cylinder pressure to a minimum by BDC to reduce pumping work on the 'exhaust' stroke. The rising piston expels the remaining exhaust gas and at about 70-80o
20、 BTDC the inlet valve opens (IVO) so that the inertia of the outflowing gas, plus the positive pressure difference, which usually exists across the cylinder by now, produces a through flow of air to the exhaust to scavenge the cylinder.If the engine is naturally aspirated the IVO is about 10o BTIDC.
21、 The cycle now repeats.The Two-Stroke Cycle Figure 3 shows the sequence of events in a typical two-stroke cycle, which, as the name implies, is accomplished in one complete revolution of the crank. Two-stroke engines invariably have ports to admit air when uncovered by the descending piston. The exh
22、aust may be via ports adjacent to the air ports and controlled by the same piston (loop scavenge) or via poppet exhaust valves at the other end of the cylinder (uniflow scavenge). Starting at TDC combustion is already under the way and the exhaust opens (EO) at 110-120o ATDC to promote a rapid blow-down before the inlet opens (IO) about 20-30o later (130-150o ATDC). In this way the inertia of the exhaust
温馨提示
- 1. 本站所有资源如无特殊说明,都需要本地电脑安装OFFICE2007和PDF阅读器。图纸软件为CAD,CAXA,PROE,UG,SolidWorks等.压缩文件请下载最新的WinRAR软件解压。
- 2. 本站的文档不包含任何第三方提供的附件图纸等,如果需要附件,请联系上传者。文件的所有权益归上传用户所有。
- 3. 本站RAR压缩包中若带图纸,网页内容里面会有图纸预览,若没有图纸预览就没有图纸。
- 4. 未经权益所有人同意不得将文件中的内容挪作商业或盈利用途。
- 5. 人人文库网仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对用户上传分享的文档内容本身不做任何修改或编辑,并不能对任何下载内容负责。
- 6. 下载文件中如有侵权或不适当内容,请与我们联系,我们立即纠正。
- 7. 本站不保证下载资源的准确性、安全性和完整性, 同时也不承担用户因使用这些下载资源对自己和他人造成任何形式的伤害或损失。
最新文档
- 纺纱厂工艺流程优化制度
- 某麻纺厂企业战略调整细则
- 暑假校外出行旅游安全告知单
- 血液透析留置导管护理规范与临床实践指南
- 某陶瓷厂产品追溯办法
- 肝部分切除术后康复指导
- 某电子厂技术研发准则
- 印刷厂设备保养规范
- 医药厂设备维护制度
- 2026年高考语文真题及答案解析(全国卷)
- 2026-2030中国蒸汽眼罩行业深度调研及投资前景预测研究报告
- 根据新版事故类型(27 类)编制的生产安全事故应急预案
- 企业法务合同风险排查指南
- (2026版)国开电大法学本科知识产权法历年期末考试总题及答案
- 自身免疫性胃炎诊疗专家共识
- SH∕T 3237-2025 石油化工建筑物抗爆评估技术标准
- GB/T 7702.3-1997煤质颗粒活性炭试验方法强度的测定
- GB/T 21380-2008行人反光标识夜间光度性能及测试方法
- 中国药典2005版一部
- 系统工程原理课件
- 高原切花玫瑰编制说明(农标委报批)
评论
0/150
提交评论