Gemi diesel motorlarında silindir modellemesi

dc.contributor.advisor Sağ, Osman Kamil
dc.contributor.author İçelliler, Suat
dc.contributor.authorID 14208
dc.contributor.department Gemi İnşaatı ve Gemi Makinaları Mühendisliği tr_TR
dc.date.accessioned 2023-03-16T05:51:59Z
dc.date.available 2023-03-16T05:51:59Z
dc.date.issued 1990
dc.description Tez (Yüksek Lisans) -- İstanbul Teknik Üniversitesi, Fen Bilimleri Enstitüsü, 1990 tr_TR
dc.description.abstract Bu tezde sunulan çalışma, Gemi Diesel Motorlarında Silindir Modellemesi ve bu modellemenin tek silindirli bir motor için özelleştirilmesidir. Önce, bu konuda bugüne kadar yapılan çalışmaları içeren bir kaynak araştırması yapılmış ve bu çalışmalar hakkında kısaca bilgi verilmiştir. Tek boyutlu zamana bağlı homentropik olmayan gaz akımı hakkında bilgi verildikten sonra silindir içerisinde enerji dengelenmesi detaylı bir biçimde incelenmiştir. Boru sistemlerindeki süreksiz basınç ve sıcaklıkları tayin etmede kullanılan ve sayısal bir çözüm yöntemi olan Mesh metod hakkında da bilgi verilmiştir. Bu araştırmada sunulan bilgisayar programında modellemesi yapılan diesel motoru sonsuz büyüklükteki bir kontrol hacminden aldığı temiz havayı yine sonsuz büyüklükteki diğer bir kontrol hacmine egzost olarak göndermektedir. Seçilen Ricardo E6 tipi motorun silindiri içerisindeki basınç, sıcaklık, hacim ve toplam kütle değerleri krank açısı artımları için hesaplanmış ve karşılaştırılmıştır. Burada krank açısı artımlarının seçimi, araştırmacıların isteğine bırakılmış olup, yapılan bu çalışmada beşer derecelik artımlar seçilmiştir. Tezin son kısmında ise elde edilen eğriler hakkında açıklama ve yorumlar yapılmış olup, elde edilen sonuçlar ile bu konuda gelecekte yapılabilecek çalışmalar için öneriler sunulmuştur. tr_TR
dc.description.abstract The objective of the work presented in this thesis is the modelling of the gas exchange process in Marine Diesel Engines and specializing the model for an engine which has one cylinder. The classical approach to Marine Diesel Engine design in the form of manual theoretical calculations, prototype manufacturing and experimental investigations can be extremely expensive in terms of money and time. From the point of the engineer, a theoretical model should be the simplest version which will achieve the desired objective. Thus, CAD - CAM design and manufacture investigation programs and simulation models can be of great assistance to the researcher, designer and engine manufacturer. It is given that the power output from an engine depends upon the amount of fuel that will be usefully burnt inside the engine cylinder. This in turn depends on the air which the engine will draw in. In many cases a theoretical model is used to help interpret correctly the results of an experimental ivestigation. A theoretical model can be used as an aid to design and development. Marine Diesel Engines have complex systems of pipes and cylinders. A theoretical model of a complex system requires the assembly of a number of submodels. A typical example is made up of a series of pipes connected to valves, pipe branches and cylinders. The theoretical treatment appropriate for each component will be different but it is necessary to couple these different calculations in order to simulate the overall system. The system consists of unsteady flow in pipes, filling and emptying of cylinders and boundary conditions. The equations for one - dimensional unsteady flow which govern the flow are derived. The treatment is a general one» the equations allow for non - homentropic flow, effects of heat transfer to or from the walls of the duct, gradual changes in cross sectional area of the duct and irreversibilities caused by the influence of the skin friction at the wails of the duct. The homentropic flow is a reversible adiabatic flow in which the entropy of the fluid is constant. IX The fundamental equations for one - dimensional unsteady flow as follow : 1. Continuity Equation 9u. u dE + 1 ( 3P_ + u ^_) = 0 ax e * dx p at ax 2. Momentum Equation dn +u 3u+J_ 4i+F = 0 at 3x p ^x 3. Energy Equation <"> p c ¦<*>- c -H ¦-#->" "2 's are disturbance characteristics, and the o< 's are path lines. The path lines are also characteristics. A practical method of performing a numerical solution, by the Mesh Method, to the characteristic problem. In this method the pipe is divided into a number of equal length parts, called meshes. A line of constant time is considered as an initial value line and the calculation carried forward to a later instant in time from this. It is important that the time step should not be too large in this method. XL However, in this thesis, a brief summary of the "Method of Characteristics - Mesh Method" is presented. The method of calculating nonhomentropic unsteady flow in a pipe is the "Method of Characteristics - Mesh Method". This method is used successfully solving different problems encountered in the inlet and exhaust systems of internal combustion engines. Thermodynamics variables in the pipes are calculated accurately by means of the Characteristics Method allowing the increment of the crank angle or time steps to be calculated in the program. In this work presented, a theoretical investigation using the simulation computer program is carried out to predict the effects of different thermodynamics factors such as motor speed, compression ratio, cylinder bore, stroke, opening and closing timings of valves all together, on the fluctuations of pressure, temperature, volume and mass flow rate of the Ricardo E6 type Marine Diesel Engine cylinder for every increment of the crank angle throughout the cycle. The presentation of all the theoretical results. are in graphical form and they are given in the Appendix B. The comparisons of the diagrams are presented in detail in the section 5. A listing of the computer program used is also given. Furthermore, the descriptions of the programs and subroutines are given in the section of descriptions of the program. A data list of the computer program are also presented in this thesis. This program was written in Fortran IV. The detailed conclusions are made at the end of the thesis and some suggestions are put forward for future work. The mean thermodynamic variables in the cylinder will be calculated using other numerical methods and a comparison will be made between two or more numerical methods. The computer program presented in this thesis intends to simulate a Marine Diesel Engine which has a single cylinder. This program will be developed for an engine with inlet and exhaust pipes and multi - cylinders. A comparison will be made on total central processing unit (CPU) using time. The computing time for calculations with using Runge - Kutta Method and the computing time for calculations with one of the numerical solution methods are compared. If the compression ratio is increased while all the variables are kept fixed, the power obtained from the motor increases. As the number of revolution increases, the amount of mass in the cylinder throughout the exhaust stroke increases whereas the condition is just the reverse in the suction stroke. xii The computer program presented is comprised of a main program and three subprograms and the results are computed for one cycle. It is possible to analyse the effect of cycle -to the steadiness of results by increasing the number of cycles. During the comparison and interpretation of results it should be noted that dhe discussions are depending on theoretical bases and according to theoretical results. These computed results will be analysed in a wide data range and will be compared with the experimental results, so that, a more definite judgement about the sensitivity of results will be reached. Finally, a list of references related to the topic is also presented. en_US
dc.description.degree Yüksek Lisans tr_TR
dc.identifier.uri http://hdl.handle.net/11527/22908
dc.language.iso tr
dc.publisher Fen Bilimleri Enstitüsü tr_TR
dc.rights Kurumsal arşive yüklenen tüm eserler telif hakkı ile korunmaktadır. Bunlar, bu kaynak üzerinden herhangi bir amaçla görüntülenebilir, ancak yazılı izin alınmadan herhangi bir biçimde yeniden oluşturulması veya dağıtılması yasaklanmıştır. tr_TR
dc.rights All works uploaded to the institutional repository are protected by copyright. They may be viewed from this source for any purpose, but reproduction or distribution in any format is prohibited without written permission. en_US
dc.subject Dizel motorlar tr_TR
dc.subject Gemiler tr_TR
dc.subject Silindir modellemesi tr_TR
dc.subject Diesel engines en_US
dc.subject Ships en_US
dc.subject Cylinder modelling en_US
dc.title Gemi diesel motorlarında silindir modellemesi tr_TR
dc.title.alternative The Modelling of the cylinder in marine diesel engines en_US
dc.type Tez tr_TR
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