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ThermodynamicsAn Engineering Approach

Fourth Edition

Yunus A. Çengel

Michael A. Boles

Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

CHAPTER

1

Basic Concepts of Thermodynamics

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 3Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

• Mechanical Engineering– Mechanics– Energy– Systems– Design

The over arching goal is design of products to meet societal needs.

• Mechanical Engineering– Mechanics– Energy– Systems– Design

The over arching goal is design of products to meet societal needs.

General overviewGeneral overview

• Thermodynamics– A part of the Energy

component of mechanical engineering.

– Governs all energy consuming and transforming devices and system.

• Thermodynamics– A part of the Energy

component of mechanical engineering.

– Governs all energy consuming and transforming devices and system.

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 4Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

The engineering frameworkThe engineering framework

THEORY

JUDGMENT(DESIGN)

DATA

FIGURE 1–5Some application areas of thermodynamics.

Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

1-1

Diet

Air vents

FIGURE 1–7The definition of the force units.

Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

1-2

1 lbm will have a gravitational force on it of 1 lbf on earth.

Check for dimensional homogeneity!

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 7Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

Beginning ideas and Beginning ideas and concepts...concepts...

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 8Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

Macroscopic vs. microscopic Macroscopic vs. microscopic viewpoints...viewpoints...

A collection of atoms within a container, each with a unique velocity.

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 9Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

Number of atoms = N

Energy of each atom =2

2

1Vme

Total Energy =

N

i

keVmN

eN1

1

2

2

Energy in a microscopic descriptionEnergy in a microscopic description

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 10Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

The energy in both casesis the same, E. In the macroscopic description,atomistic concepts aredisregarded.

How we describe the system chosen for studyrequires careful selection ofproperties that are basedon observable, measurablequantities.

The macroscopic descriptionThe macroscopic description

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 11Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

The macroscopic The macroscopic viewpoint...viewpoint...

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 12Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

State of a thermodynamic system.

Enumeration of all of itsproperties.

In macroscopic thermodynamics, In macroscopic thermodynamics, the properties of system are the properties of system are assigned to the system as a whole.assigned to the system as a whole.

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 13Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

Properties in macroscopic thermodynamicsProperties in macroscopic thermodynamics

m

lim0

Den

sity

,

Molecular and atomicMolecular and atomiceffects are importanteffects are important

Limit of the macroscopic Limit of the macroscopic model and assumptions.model and assumptions.

(m3)

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 14Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

How does the state of How does the state of system change?system change?

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 15Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

SystemSystem

Energetic interactionsEnergetic interactions

Surroundings

EnergyFlow

System BoundarySystem Boundary

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 16Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

Basic definitions...Basic definitions...

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 17Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

SystemSystem

0dtdm

Closed System

Open System

Mass Flow

Mass Flow

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 18Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

System and surroundingsSystem and surroundingsUniverse = Systems +Surroundings

Closed SystemClosed System

SurroundingsSurroundings

System Boundary

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 19Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

System and surroundingsSystem and surroundings

Open systems have mass flow across their boundaries.

Open System( Fixed space orvolume)

Surroundings Control Surface

Mass flow

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 20Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

Interactions between Interactions between system and surroundings...system and surroundings...

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 21Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

Closed systemClosed system

System

Surroundings

Work

Heat

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 22Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

Open systemOpen system

System

Surroundings

Mass Flow

Mass Flow

Power

Heat

Usually look at rates.

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 23Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

Example: Piston and cylinder - a closed system

m

Gas at pressure, p

Piston

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 24Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

Example: The gas turbine engine - an open system

Shaft Work Output

Combustor

Fuel Flow In

Air Flow In

Exhaust Gases Out

Compressor Work Out

FIGURE 1–17A control volume may involve fixed, moving, real, and imaginary boundaries.

Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

1-5

A control volume is an open system

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 26Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

Key concepts and termsKey concepts and terms

Closed SystemOpen System

System BoundarySurroundings

Universe Thermodynamic Properties

Thermodynamic State

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 27Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

Equilibrium states and Equilibrium states and propertiesproperties

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 28Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

PropertiesProperties

Properties:•Temperature•Pressure•Volume•Internal energy•Entropy

Properties:•Temperature•Pressure•Volume•Internal energy•Entropy

SystemSystem

The system can be either open or The system can be either open or closed. The concept of a propertyclosed. The concept of a property

still applies.still applies.

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 29Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

Classes of propertiesClasses of properties• ExtensiveExtensive

– MASSMASS– VOLUMEVOLUME– ENERGYENERGY

ADDITIVEADDITIVE OVER OVER

THE SYSTEMTHE SYSTEM..

• ExtensiveExtensive– MASSMASS– VOLUMEVOLUME– ENERGYENERGY

ADDITIVEADDITIVE OVER OVER

THE SYSTEMTHE SYSTEM..

• IntensiveIntensive– TEMPERATURETEMPERATURE– PRESSUREPRESSURE– DENSITYDENSITY

NOTNOT ADDITIVEADDITIVE OVER OVER

THE SYSTEMTHE SYSTEM..

• IntensiveIntensive– TEMPERATURETEMPERATURE– PRESSUREPRESSURE– DENSITYDENSITY

NOTNOT ADDITIVEADDITIVE OVER OVER

THE SYSTEMTHE SYSTEM..

Specific Properties

Continuum approach is valid if system is large compared to distance between molecules

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 30Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

StateState

• At a given state, all the properties of the system have fixed values.

• If the value of one property changes, the state changes.

• If no properties are changing, then it is at equilibrium

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 31Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

EquilibriumEquilibrium

• Thermodynamics deals with equilibrium states.

• No driving forces

• Mechanical equilibrium– No change in pressure with time

• Thermal equilibrium– Temperature is same throughout system

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 32Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

EquilibriumEquilibrium

• Phase equilibrium– No change in the amounts of different phases

• Chemical equilibrium– Chemical composition does not change with

time.

Instructor’s Visual AidsHeat Work and Energy. A First Course in Thermodynamics© 2002, F. A. Kulacki

Chapter 1 Module 1 Slide 33Energy, Heat and Work

Introduction to Macroscopic Thermodynamics

State PostulateState Postulate

• The state of a simple compressible system is completely specified by two independent, intensive properties

• Simple compressible system:– Absence of electrical, magnetic, gravitational,

motion and surface tension effects.

– Independent if one property can be held constant while another is varied