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Reeds Vol 3: Applied Thermodynamics for Marine Engineers 5th edition [Mīkstie vāki]

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  • Formāts: Paperback / softback, 448 pages, height x width: 234x156 mm, weight: 678 g, 150+ black and white diagrams
  • Sērija : Reeds Marine Engineering and Technology Series
  • Izdošanas datums: 07-Feb-2019
  • Izdevniecība: Reeds
  • ISBN-10: 1472969049
  • ISBN-13: 9781472969040
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Reeds Vol 3: Applied Thermodynamics for Marine Engineers 5th editionPalielināt
  • Formāts: Paperback / softback, 448 pages, height x width: 234x156 mm, weight: 678 g, 150+ black and white diagrams
  • Sērija : Reeds Marine Engineering and Technology Series
  • Izdošanas datums: 07-Feb-2019
  • Izdevniecība: Reeds
  • ISBN-10: 1472969049
  • ISBN-13: 9781472969040
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9781472969040.html
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This book covers the principal topics in thermodynamics for officer cadets studying Merchant Navy Marine Engineering Certificates of Competency (CoC) as well as the core syllabi in thermodynamics for undergraduate students in marine engineering, naval architecture and other marine technology related programmes.
This new edition will cover the laws of thermodynamics and of perfect gases, their principles and application in a marine environment.
This key textbook takes into account the varying needs of marine students, recognising recent changes to the Merchant Navy syllabus and current pathways to a sea-going engineering career, including National Diplomas, Higher National Diploma and degree courses.



An essential text for all marine engineers, offering a comprehensive resource on thermodynamics within a marine setting.

Papildus informācija

An essential text for all marine engineers, offering a comprehensive resource on thermodynamics within a marine setting.
Preface viii
1 Units And Common Terms: Systeme International D'Units
1(20)
SI Units
1(1)
The Derived SI Units together with Names and Symbols
2(19)
2 Heat
21(8)
3 Thermal Expansion
29(9)
Expansion of Metals
29(4)
Expansion of Liquids
33(1)
Restricted Thermal Expansion
34(4)
4 Heat Transfer
38(16)
Conduction
38(6)
Convection
44(1)
Radiation
45(2)
Combined Modes
47(7)
5 Laws Of Perfect Gases
54(20)
Boyle's Law
55(2)
Charles' Law
57(1)
Combination of Boyle's and Charles' Laws
58(2)
The Ideal Gas (Characteristic) Equation
60(1)
Universal Gas Constant
61(1)
Dalton's Law of Partial Pressures
62(2)
Specific Heats of Gases
64(3)
Energy Equation (Closed Systems)
67(2)
Enthalpy
69(1)
Energy Equation (Open Systems)
70(4)
6 Expansion And Compression Of Perfect Gases
74(20)
Compression of a Gas in a Closed System
74(2)
Expansion of a Gas in a Closed System
76(2)
Determination of n from Graph
78(3)
Ratios of Expansion and Compression
81(1)
Relationships between Temperature and Volume, and Temperature and Pressure, When pVn = C
82(3)
Work Transfer
85(6)
The Relationship between Heat Energy Supplied and Work Done
91(3)
7 Ic Engines: Elementary Principles
94(26)
The Four-Stroke Diesel Engine
95(3)
The Two-Stroke Diesel Engine
98(1)
Modern Two-Stroke Designs
98(2)
Petrol Engines
100(1)
Mean Effective Pressure and Power
100(6)
Brake Power and Mechanical Efficiency
106(3)
Fault Finding - Morse Test
109(1)
Thermal Efficiency
110(3)
Heat Balance
113(2)
Clearance and Stroke Volume
115(5)
8 Ideal Cycles
120(19)
Constant Volume Cycle
121(4)
Diesel Cycle
125(4)
Dual Combustion Cycle
129(2)
Carnot Cycle
131(2)
Reversed Carnot Cycle
133(1)
Other Ideal Cycles
134(1)
Mean Effective Pressure
134(1)
Non-ideal Cycles
135(1)
Miller Cycle
135(4)
9 Reciprocating Air Compressors
139(16)
Effect of Clearance
142(2)
Work Done Per Cycle
144(1)
Neglecting clearance
144(3)
Including clearance
147(1)
Multi-stage Compression
148(7)
10 Steam
155(25)
Steam Tables
159(5)
Mixing Steam and Water
164(5)
Throttling of Steam
169(3)
Throttling Calorimeter
172(2)
Separating Calorimeter
174(1)
Combined Separating and Throttling Calorimeter
175(1)
Air in Condensers
176(4)
11 Entropy
180(12)
Entropy of Water and Steam
181(3)
Temperature-Entropy Chart for Steam
184(2)
Isothermal and Isentropic Processes
186(3)
Enthalpy-Entropy Chart for Steam
189(3)
12 Turbines
192(34)
The Impulse Turbine
192(3)
The Reaction Turbine
195(1)
Nozzles
195(5)
Isentropic Efficiency
200(2)
Velocity Diagrams for Impulse Turbines
202(5)
Force on Blades
207(3)
Velocity Diagrams for Reaction Turbines
210(2)
Ideal Cycles
212(3)
Actual Steam Cycles
215(2)
Thermal Efficiency
217(1)
Gas Turbine Cycles
218(8)
13 Boilers And Combustion
226(22)
Capacity and Equivalent Evaporation
226(2)
Boiler Efficiency
228(1)
Feed Water
229(2)
Principles of Combustion (Applicable to Boilers and Internal Combustion Engines)
231(7)
Composition of Flue Gases
238(1)
Exhaust Gas Analysis
239(9)
14 Refrigeration
Ozone Depleting Substances (ODSs)
248(1)
Refrigerants
249(2)
Refrigerant gases
249(2)
Working Cycle
251(1)
The Circuit of the Refrigerant
252(4)
Capacity and Performance
256(7)
Solutions To Test Examples 263(81)
Selection Of Examination Questions - Second Engineer 344(8)
Solutions To Examination Questions - Second Engineer 352(29)
Selection Of Examination Questions - Chief Engineer 381(10)
Solutions To Examination Questions - Chief Engineer 391(45)
Index 436
Paul A Russell was Head of School at the National Sea Training Centre at North West Kent College, UK as well as lecturer in Marine Engineering at the University of Greenwich. He is Managing Director of Thamesview Maritime Limited, a marine engineering consultancy specialising in the professional development of marine engineers and has previously worked as the Editor for the journal Marine Propulsion and Auxiliary Machinery. Paul has also completed two terms in office as the Chair of the South East branch of the Institute of Marine Engineering Science and Technology.