CHAPTER I.

PRELIMINARY MATTER.

Page

The Steam Engine, a Subject of popular Interest 4

Effects of Steam 5

Great Power of Steam 7

Object of this Work 9

Disputes respecting the Invention 11

Hero of Alexandria's Machine 13

Blasco De Garay's Proposition to propel Vessels by a Machine 16

Solomon De Caus 17

Giovanni Branca proposes to work Mills by Steam 22

Marquis of Worcester 23

Mechanical Properties of Fluids 25

Elastic and Inelastic Fluids 25

Elasticity of Gases 28

Effects of Heat 29

Application of these Principles to the Engines of Hero, De Caus, and Lord Worcester 30

Sir Samuel Morland 34

Denis Papin 36

Atmospheric Pressure 38

Weight of Air 39

Pressure of Air 41

Barometer 41

Elastic Force of Air and Gases 42

Force obtained by a Vacuum 43

Common Pump 43

Rarefaction by Heat 44

Process of filling Thermometers 44

Papin's Method of producing a Vacuum 44

His Discovery of the Condensation of Steam 45

Thomas Savery 47

CHAP. II.

ENGINES OF SAVERY AND NEWCOMEN.

Savery's Engine 49

Boilers and their Appendages 50

Working Apparatus described 51

Mode of Operation 52

Defects of Savery's Engine 58

Newcomen's Engine described by Papin 62

Newcomen and Cawley obtain a Patent for Atmospheric Engine 65

Accidental Discovery of Condensation by Injection 69

Potter's Discovery of the Method of working the Valves 71

His Contrivance improved by the Substitution of a Plug Frame 72

Advantages of the Atmospheric Engine over that of Savery 72

The Power of Savery's Engine restricted 73

It contained no new Principle 73

Its practical Superiority 73

CHAP. III.

EARLY CAREER AND DISCOVERIES OF JAMES WATT.

Atmospheric Engine improved by Beighton 75

Smeaton's Improvements in the Atmospheric Engine 76

Brindley obtains a Patent for Improvement in 76

Invents the Self-regulating Feeder 76

Infancy of James Watt 77

His Descent and Parentage 77

Anecdotes of his Boyhood 78

His early Acquirements 79

Goes to London 80

Returns to Glasgow 80

Appointed Instrument-maker to the University 81

Opens a Shop in Glasgow 81

His Friends and Patrons 81

Professor Robison's Remarks on Watt's personal Character 82

His industrious and studious Habits 82

His Attention first directed to Steam 83

Experiments on High-pressure Engine 83

Repairs an Atmospheric Model 84

Experimental Inquiry consequent on this 84

Its Results 84

Observes great Defects in the Atmospheric Engine 85

His first Attempt to improve it 85

His early Experiments on Steam 87

Discovery by Experiment of the Expansion which Water undergoes in Evaporation 90

Discovers the latent Heat of Steam 91

Informed by Dr. Black of the Theory of latent Heat 93

His Improvement not due to Black 93

CHAP. IV.

EXPOSITION OF PHYSICAL PRINCIPLES.

Construction of Thermometer 98

Method of graduating it 99

Freezing and boiling Points 99

Latent Heat of Water 101

Quantity of Heat necessary to convert Ice into Water, first noticed by Dr. Black 101

Examination of the analogous Effects produced by the continued Application of Heat to Water in the liquid State 102

Process of Boiling 104

Reconversion of Steam into Water 104

Conversion of Water into Steam 105

Latent Heat of Steam 107

Boiling Point varies 108

Different in different Places 109

Inquiry whether a Diminution of Pressure will produce a corresponding Effect on the boiling Point 112

Table showing the Temperature at which Water will boil under different Pressures of the Atmosphere 113

Mechanical Force of Steam 115

Facts to be observed in 117

CHAP. V.

FURTHER DISCOVERIES OF WATT.

Watt finds that Condensation in the Cylinder is incompatible with a due Economy of Fuel 119

Conceives the Notion of condensing out of the Cylinder 120

Discovers separate Condensation 121

Invents the Air Pump 123

Substitutes Steam Pressure for Atmospheric Pressure 123

Invents the Steam Case, or Jacket 124

His first Experiments to realise these Inventions 125

His experimental Apparatus 125

His experimental Models fitted up at Delft House, in Glasgow 128

Difficulties of bringing the improved Engines into Use 129

Watt first employed by Roebuck as a Civil Engineer 130

His Partnership with Roebuck 130

His first Patent 130

Experimental Engine at Kinneal 131

Abstract of the Act of Parliament for the Extension of his Patent 132

Description of his single-acting Steam Engine 133

CHAP. VI.

WATT'S ENGINES.

Correspondence of Watt with Smeaton 145

Failure of Condensation by Surface 146

Improvements in Construction of Piston 147

Method of Packing 148

Improvements in boring the Cylinder 149

Disadvantages of the new compared with the old Engines 150

Greatly increased Economy of Fuel 150

Economy of the Engine 151

Expedients to force the new Engines into Use 151

Correspondence of Boulton 153

Correspondence with Smeaton 155

Efficiency of Fuel in the new Engines 156

Discovery of the expansive Action of Steam 157

Watt states it in a Letter to Dr. Small 157

Its Principle explained 158

Mechanical Effects resulting from it 162

Computed Effect of cutting off Steam at different Portions of the Stroke 163

Produces a variable Power 163

Expedients for equalising the Power 164

Expansive Principle in Watt's Engines limited 165

Its more extensive Application in the Cornish Engines 165

CHAP. VII.

DOUBLE-ACTING ENGINE.

Common Steam 168

Superheated Steam 170

Laws of Dalton and Gay Lussac 171

Law of Mariotte 171

Relation between Temperature and Pressure of common Steam 171

Effects of the Expansion of common Steam 173

Mechanical Effects of Steam 173

Method of equalising the expansive Force 174

Hornblower's Engine 175

Woolf's Engine 176

Watt's Attempts to extend the Steam Engine to Manufactures 178

Papin's projected Applications of the Steam Engine 178

Savery's Application of the Engine to move Machinery 180

Jonathan Hull's Application to Water Wheels 180

Champion of Bristol applies the Atmospheric Engine to raise Water 181

Stewart's Application of the Engine to Mill-work 182

Wasbrough's Application of the Fly-wheel and Crank 183

Reasons why Watt's single-acting Steam Engine was not adapted to produce continuous uniform Motion of Rotation 184

Watt's Second Patent 186

Sun-and-Planet Wheels 187

Valves of double-acting Engine 189

CHAP. VIII.

DOUBLE-ACTING ENGINE.

Methods of connecting the Piston-rod and Beam in the double-acting Engine 193

Rack and Sector 194

Parallel Motion 195

Connection of Piston-rod and Beam 195

Connecting Rod and Crank 203

Fly-wheel 205

Throttle-valve 207

Governor 209

Construction and Operation of the double-acting Engine 216

Eccentric 225

Cocks and Valves 227

Single-clack Valves 227

Double-clack Valves 228

Conical Valves 228

Slide Valves 229

Murray's Slides 229

D Valves 230

Seaward's Slides 235

Single Cock 238

Two-way Cock 239

Four-way Cock 239

Pistons 242

Common hemp-packed Piston 242

Woolf's Piston 243

Metallic Pistons 244

Cartwright's Engine 245

Cartwright's Piston 247

Barton's Piston 248

CHAP. IX.

BOILERS AND FURNACES.

Analysis of Coal 252

Process of Combustion 253

Heat evolved in it 254

Form and Structure of Boiler 255

Waggon Boiler 255

Furnace 256

Method of feeding it 257

Combustion of Gas in Flues 260

Williams's Patent for Method of consuming unburned Gases 260

Construction of Grate and Ash-pit 261

Magnitude of heating Surface of Boiler 262

Steam-space and Water-space in Boiler 263

Position of Flues 264

Method of feeding Boiler 265

Method of indicating the Level of Water in Boiler 266

Level Gauges 266

Self-regulating Feeders 267

Steam Gauge 270

Barometer Gauge 272

Watt's Invention of the Indicator 274

Counter 278

Safety-valve 279

Fusible Plugs 280

Self-regulating Damper 281

Brunton's Self-regulating Furnace 283

Gross and useful Effect of an Engine 285

Power and Duty of Engines 287

Horse-power of Steam Engines 289

Evaporation proportional to Horse-power 290

Sources of Loss of Power 292

Absence of good practical Rules for Power 292

Common Rules followed by Engine-makers 292

Duty distinguished from Power 294

Duty of Boilers 294

Proportion of Stroke to Diameter of Cylinder 295

Duty of Engines 296

Cornish System of Inspection 297

Table showing the Improvement of Cornish Engines 298

Beneficial Effects of Cornish Inspection 299

Successive Improvements on which the increased Duty of Engines depends, traced by John Taylor in his "Records of Mining" 299

CHAP. X.

LIFE OF WATT.

Watt's Friends and Associates at Birmingham 302

His Invention of the Copying Press 302

Heating Apartments and Buildings by Steam 303

Watt's Machine for drying Linen 303

His Share in the Discovery of the Composition of Water 303

The Merit of this Discovery shared between Cavendish, Lavoisier, and Watt 305

Anecdote of Watt's Activity of Mind 309

His Introduction of the Use of Chlorine in Bleaching 310

One of the Founders of the Pneumatic Institution at Clifton 310

His first Marriage 311

Death of his first Wife 311

His second Marriage 311

Death of his younger Son 311

Extracts from his Letters 312

Character of Watt by Lord Brougham 313

Extract from Sir Walter Scott's "Monastery" on the Character of Watt 314

Sketch of the Life of Watt from the "Scotsman" by Lord Jeffrey 315

Occupation of his old Age 318

His Invention of Machine for copying Sculpture 318

His last Days 318

Monuments to his Memory 319

Inscription by Lord Brougham on the Pedestal of the Monument in Westminster Abbey 320

CHAP. XI.

LOCOMOTIVE ENGINES ON RAILWAYS.

Page High-pressure Engines 322

One of the earliest Forms of the Steam Engine 322

Description of Leupold's Engine 323

Non-condensing Engine of Messrs. Trevethick and Vivian 324

Construction of a Machine for moving Carriages on Railroads 328

Effects of Railway Transport 329

Moral and political Consequences of 334

History of the Locomotive Engine 337

Construction of Locomotive Engine by Blinkensop 337

Messrs. Chapman's Contrivance 337

Walking Engine 337

Mr. Stephenson's Engines at Killingworth 339

Liverpool and Manchester Railway 342

The Directors offer a Prize for the best Locomotive Engine 344

Experimental Trial 344

The "Rocket," "Sanspareil," and "Novelty" 344

Admirable Arrangement in the Rocket 345

Description of the "Sanspareil" 347

Description of the "Novelty" 349

The Superiority of the "Rocket" 350

Method of subdividing the Flue into Tubes 353

Progressive Improvement of Locomotive Engines 354

Dr. Lardner's Experiments in 1832 357

Adoption of Brass Tubes 360

Great Expense of Locomotive Power 361

Mr. Booth's Report 362

Detailed Description of the most improved Locomotive Engines 365

Substitution of Brass for Copper Tubes ascribed to Mr. Dixon 370

Power of Locomotive Engines 379

Position of the Eccentrics 379

Pressure of Steam in the Boiler 401

Dr. Lardner's Experiments in 1838 406

Resistance to Railway Trains 407

Dr. Lardner's Experiments on the Great Western Railway 408

Experiments on Resistance 409

Restrictions on Gradients 410

Compensating Effect of Gradients 412

Experiment with the "Hecla" 412

Disposition of Gradients should be uniform 415

Methods of surmounting steep Inclinations 415

CHAP. XII.

LOCOMOTIVE ENGINES ON TURNPIKE ROADS.

Railways and Stone Roads compared 420

Gurney's Steam Carriage 423

The Boiler of Gurney's Engine 423

His Method of cleansing Boilers 428

Convenience and Safety of Steam Carriages 432

Two Methods of applying Locomotive Engines upon common Roads 434

Horse Carriages compared with Steam 435

Extract from Mr. Farey's Evidence before the House of Commons 435

Hancock's Steam Carriage 436

How it differs from that of Mr. Gurney 437

Ogle's Locomotive Carriage 438

Dr. Church's Steam Engine 439

CHAP. XIII.

STEAM NAVIGATION.

Form and Arrangement of Marine Engines 441

Arrangement of the Engine-room 446

Marine Boilers 448

Effects of Sea Water in Boilers 450

Remedies for them 451

Blow-off Cocks 452

Indicators of Saltness 453

Seaward's Indicator 454

His Method of blowing out 454

Field's Brine Pumps 456

Tubular Condensers applied by Mr. Watt 457

Hall's Condensers 458

Substitution of Copper for Iron Boilers 460

Process of Stoking 462

Watt's Expedient of attaching Felt to the Boiler Surface 463

Means of economising Fuel 463

Number and Arrangement of Furnaces and Flues 463

Howard's Marine Engine 464

Application of the expansive Principle in Marine Engines 466

Recent Improvements of Messrs. Maudslay and Field 467

Humphrey's Marine Engine 470

Common Paddle-wheel 472

Feathering Paddles 474

Galloway's Patent for a Paddle-wheel with movable Paddles 476

Split Paddle 478

Proportion of Power to Tonnage 480

Improved Efficiency of Marine Engines 482

Iron Steam Vessels 483

Steam Navigation to India 484

CHAP. XIV.

AMERICAN STEAM NAVIGATION.

Steam Navigation first established in America 487

Circumstances which led to it 488

Attempts of Fitch and Rumsey to apply the single-acting Engine to the Propulsion of Vessels 489

Stevens of Hoboken commences Experiments in Steam Navigation 489

Experiments of Livingstone and Fulton 489

Fulton's first Boat 490

The Hudson navigated by Steam 491

Extension and Improvement of River Navigation 492

American Steamers 494

Difference between them and European Steamers 494

Steamers on the Hudson 494

American Paddle-wheels 495

Sea-going American Steamers 496

Speed attained by American Steamers 497

Lake Steamers 499

The Mississippi and its Tributaries 499

Steam-boats navigating it 500

Their Structure and Machinery 500

New Orleans Harbour 503

Steam Tugs 503

APPENDIX.

_On the Relation between the Temperature, Pressure, and_ _Density of Common Steam._

Empirical Formula of Biot, showing the Relation between the Pressure and Temperature 505

Empirical formula of Southern 506 Tredgold 506 Mellet 506 De Pambour 506 MM. Dulong and Arago 506

Law of the Expansion of elastic Fluids, discovered by Dalton and Gay Lussac 506

Formula for the Relation between the Volumes and Temperatures 507

Law of Mariotte 507

Table of Pressures, Temperatures, Volumes, and Mechanical Effects of Steam 509

Empirical Formulæ for the Relation between the Volume of Water and that of the Steam produced by its Evaporation under given Pressures 511

Formula of Navier 511

Modified by De Pambour 511

_On the Expansive Action of Steam._

Mechanical Effect produced during a given Extent of Expansion 511

Mechanical Effect produced during Evaporation and subsequent Expansion 512

Application to double-acting Engines 513

Formula for Pressure of Steam in Cylinders 514

Formula for total Mechanical Effect per Minute of Steam when cut off at any proposed Part of the Stroke 514

Formulæ exhibiting the Relation between the Resistance of the Load, the Resistances of the Engine, the Evaporation, the Speed of the Piston, and the Magnitude of the Cylinder 515

Formulæ showing the Relation between the Power of the Engine, the Evaporation, and the useful Load 516

Formulæ for the _useful Effect_ and the _Duty_ 517

Estimates of the several Sources of Resistances 518

Tables to facilitate the Computation of the Effects of Expansive Engines 519

Table of the Areas of Pistons 520

EXAMPLES of the Application of these Formulæ 521

INDEX. 523

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THE STEAM ENGINE.

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