- Arts & Culture 5938
- Business & Economics 689
- Computers 310
- Dictionaries & Encyclopedias 81
- Education & Science 75859
- Abstracts 252
- Astrology 4
- Astronomy 1
- Biology 8
- Chemistry 2221
- Coursework 15546
- Culture 9
- Diplomas 411
- Drawings 574
- Ecology 5
- Economy 83
- English 75
- Ethics, Aesthetics 3
- For Education Students 17608
- Foreign Languages 11
- Geography 2
- Geology 1
- History 89
- Maps & Atlases 5
- Mathematics 13856
- Musical Literature 2
- Pedagogics 19
- Philosophy 23
- Physics 14841
- Political Science 5
- Practical Work 101
- Psychology 60
- Religion 4
- Russian and culture of speech 8
- School Textbooks 7
- Sexology 42
- Sociology 9
- Summaries, Cribs 87
- Test Answers 150
- Tests 9243
- Textbooks for Colleges and Universities 32
- Theses 24
- To Help Graduate Students 14
- To Help the Entrant 37
- Vetting 364
- Works 13
- Информатика 10
- Engineering 3058
- Fiction 696
- House, Family & Entertainment 107
- Law 132
- Website Promotion 71
Automation. SAR maintain a constant viscosity DG MAN
Uploaded: 02.02.2019
Content: 8 САР предназначена для поддержания постоянной вязкости топлива в ГД МАН Аскания 70%.docx 852,8 kB
Product description
Course work in automation. ACS. ATS maintaining constant fuel viscosity in DG MAN Askania 70%
Introduction
The aim of the course work is to study the optimal settings of the regulator ATS.
Coursework is a functional analysis of a given system of automatic control, analysis of the stability of the SAR with a known law of regulation and assessment of the quality of transients. As a source of data using the equations of the typical object of regulation and the equation elements of real regulators.
1. Schematic diagram of the SAR.
This SAR is designed to maintain a constant fuel viscosity in the DG MAN.
One of the most common is the pneumatic regulator of indirect action "Askania-Viskoimat", installed in the fuel systems of the main engines of the Kotovsky, Novgorod, etc. ships.
Additional information
Content:
Introduction 2
1. Schematic diagram of the SAR 3
2. Selection of optimal controller settings 7
2.1. The derivation of the equation of the dynamics of the control object
2.2. Dynamic controller model 9
2.3. Block diagram of the SAR 11
2.4. Calculation of the surge arrester 15
3. Static analysis of the SAR 17
3.1. Static regulation accuracy 17
4. The influence of individual elements of the regulator on the quality of SAR 20
4.1. Evaluation of the influence of the numerical values of the time of the actuator and the inertia of the sensor on the quality indicators of transients in a given SAR 20
4.2. Evaluation of the influence of the sensor lag time on the stability of the CAP 24
4.3. Evaluation of the effect of insensitivity of the regulator on the properties of ATS 27
5. Instructions for setting up and maintaining the regulator 31
Conclusion 36
References 37
Feedback
0Period | |||
1 month | 3 months | 12 months | |
0 | 0 | 0 | |
0 | 0 | 0 |