Author:
Belousov Evgen,Marchenko Andrii,Rybalchenko Mykola,Tuluchenko Galina,Gritsuk Igor,Savchuk Volodymyr,Volodarets Mykyta
Abstract
<div class="section abstract"><div class="htmlview paragraph">Obtaining and analyzing indicator diagrams are mandatory procedures stipulated by
the technical operating rules for most types of marine engines. For this purpose
a whole arsenal of mechanical and electronic indicating devices of periodic or
continuous action is created. Information on the results of engine indications
in bench tests are usually provided by the manufacturer in the form of bitmaps.
This complicates the process of using them as reference diagrams necessary for
comparison with real diagrams obtained during operation using electronic
diagnostic systems. Changes in approaches to logistics operations in maritime
transport have imposed a number of limitations, narrowing the use of indicator
methods. The tendency to reduce the commercial speed of ships makes it
impossible to take indicator diagrams on the specified modes of operation. As a
result, the effectiveness of using indicator diagrams for assessing the current
technical condition is drastically reduced. In this regard, there is an
objective need to harmonize various methods for obtaining and storing
information about the results of checking the technical condition of the engine
and bringing this information to a single presentation method that is convenient
for processing and analysis. It is also necessary to develop methods for
obtaining reference indicator diagrams for the entire range of operating modes
based on the processing of the results of bench tests of a particular engine.
The present study is devoted to solving these problems.</div></div>
Reference26 articles.
1. Bilousov ,
I. ,
Bulgakov , M. ,
and
Savchuk , V.
Modern Marine Internal Combustion Engines Springer Series on Naval Architecture, Marine Engineering,
Shipbuilding and Shipping Cham Springer 2020 https://doi.org/10.1007/978-3-030-49749-1
2. Suvorov , P.S.
Ship Vehicles and Their Technical Operation Odessa ONMA 2017
3. Odintsov , V.I.
and
Kabysh , S.A.
Diagnosing the Technical Condition of Diesel
Engines by Working Process Parameters Vestnik
ASTU 1 2012 123 128
4. LEUTERT
2017
5. MAN B&W Diesel
2007