Date post: | 20-Nov-2015 |
Category: |
Documents |
Upload: | anand-nagaraj |
View: | 28 times |
Download: | 5 times |
Italicized page numbers represent sources of data in tables, figures, and appendices.
Ind
ex
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
AABET (see Accreditation Board for
Engineering and Technology)Ablation, 34-2 (ftn)Abrasive, 45-19
cleaning, 63-13machining, 63-5type, 63-5 (tbl)
Abscissa, 7-2Absolute
convergence, 3-12English system, 1-4position, 55-9pressure, 14-2temperature, 24-4, 24-5
Absorbent, 33-7Absorber, 31-2, 33-7Absorptance, 31-2Absorption
coefficient, 21-7, A-135coefficient, sound, 68-8cycle, 33-6dry, 66-37dynamometer, 62-12factor, 66-40process, 66-21
ABS pipe, 16-10Abundance, relative, 21-2Accelerated
Cost Recovery System, 69-21depreciation, 69-23
Accelerationcentripetal, 15-19 (ftn)Coriolis, 55-8head, 18-2, 18-3linear, 55-4normal, 55-8of fluid mass, 15-19of gravity, 1-2resultant, 55-8second, 57-10tangential, 55-7uniform, 55-3, 55-3
Accelerometer, 58-21Acceptance, 61-25, 70-3
plan, 61-25quality level, 61-25
Accounting, 69-36Accreditation Board for Engineering and
Technology, 71-1 (ftn)Accrual system, 69-34Accumulation, 8-7Accumulator, 17-32, 19-5
exponents, 19-6
Accuracy, 11-13, 61-16 (ftn), 62-1Acetylene gas, 63-11Acid, 21-8
carbonic, 21-13, 21-15, 66-41 (ftn)gas, 66-4rain, 66-5-test ratio, 69-35
Acidity, 21-13AC machine, 67-14Acme thread, 52-22Acoustic
absorber, 68-8barrier, 68-9emission testing, 46-11holography, 46-11
Acoustical velocity, 14-14, 68-5Across-variable, 59-3Actinide, 21-2Actinon, 21-2Action
capillary, 14-11chimney, 22-16error in, 52-14galvanic, 21-11limit, 61-22line of, 5-1, 43-2, 52-11
Activated carbon, 66-23Active
base, isolation, 58-14coil, 52-5element, 59-2solar system, 31-2system, 60-11wire length, 52-5
Activity, 61-3-on-branch, 61-5-on-node, 61-3
Actuator, 19-6, 42-1Acute angle, 6-1Addendum, 52-10Addition
of vectors, 5-3polymerization, 45-15
Adhesion, 14-11 (ftn)Adhesive bonding, 63-13Adiabatic
compressibility, 14-13compression, 15-13compression efficiency, 32-3efficiency, 27-8flame temperature, 22-15flow with friction, 26-15head, 32-5process, 25-2saturation process, 38-7, 38-10tip, 34-17
Adjacentangle, 6-2side, 6-2
Adjoint, classical, 4-5Admiralty bronze, 45-12
Admittance, 67-5Adsorbent, 38-11, 38-12 (ftn), 66-23Adsorption, 66-23, 66-24Advanced
flue gas cleanup, 66-24flywheel, 57-3oxidation, 66-24reactor, 30-2scrubbing, 22-5turbine system, 29-14 (ftn), 29-17
Advantagemechanical, 43-10pulley, 43-11pulley block, 43-11
Aeroderivative turbine, 29-14Aero horsepower, 17-34Affinity
law, 18-17law, fan, 20-8
Afterburner, 66-34Aftercooler, 29-10, 32-7Age hardening, 45-8 (ftn), 45-11, 47-9Agency, 70-2Agent, 66-38 (ftn), 70-2Agglomeration, 64-6AGMA gear design, 52-14Agreement, letter of, 70-3Air
-and-water system, 42-1atmospheric, 22-8, A-99bypass, recirculating, 41-3change method, 39-1classification, 64-10composition, 22-8conditioner, 33-2conditioning load, 41-1conditioning process, 38-6-cooled exchanger, 36-12density ratio, 20-2 (ftn)excess, 22-12film coefficient, 35-4, 35-5, 40-3filter, 39-5-fuel ratio, 22-9, 22-12, 29-3handling unit, 39-6, 42-2heater, 27-15heater ash, 22-3horsepower, 20-4moist, 38-2, 38-3pollutant, 66-3preheater, 27-15primary, 27-3properties, A-14, A-54, A-73refrigeration cycle, 33-6resistance, 56-20
Index
sample, whole, 66-20saturated, 38-2space, 35-7, 40-3-standard Carnot cycle, 29-4-standard cycle, 29-2-standard diesel cycle, 29-10-standard dual cycle, 29-11-standard Otto cycle, 29-5stripping, 66-38table, 24-10thermal conductance, 40-3-to-cloth ratio, 66-24toxic, 66-3unsaturated, 38-2volume control, 42-1washer, 38-2 (ftn), 38-10, 38-11
Aircraft cable, 64-2Airflow, cooling, 36-24Airfoil, 17-33Alclad, 45-11 (ftn)Alcohol, 22-7Algebra, 3-1, 4-3Algebraic equation, 3-2Alias component, 9-7 (ftn)Alkali metal, 21-2Alkaline
earth metal, 21-2fuel cell, 31-8
Alkalinity, 21-13, 21-14methyl orange, 21-14phenolphthalein, 21-14
Alkane, 22-1Alkyne, 22-1All-air system, 42-1Allergen, 66-5Allotrope, 47-4Allowable stress, 50-1
bolt, 53-15effective, of pressure vessel, 53-9gear, 52-13pressure vessel, 53-4spring, 52-3, 52-4working pressure, 19-3
Allowable stress vs. temperature, steel, 53-5Allowance
clash, 52-5exposure, 40-1time, 61-16
Alloyaluminum, 45-11binary, 47-1copper, 45-12miscible, 47-1SAP, 45-19unified numbering system, 45-1
Alloying ingredients, 47-1cast iron, 45-10steel, 45-6
All-volatile treatment, 21-16Alnico, 45-13Alphabet, Greek, 3-1, 3-1Alpha-iron, 47-4Alternating
combined stress, 50-8
current, 67-2, 67-4stress, 50-6
Alternator, 67-10 (ftn)Altitude
effect on power, 29-13pressure at, 20-2, 20-2properties at, A-88
Alumina, 45-11Aluminum
alloy, 45-11bronze, 45-12designations, 45-11, 45-11hardening of, 47-9heat treatment, 45-12production of, 45-11properties of, 45-11tempers, 47-9, 47-10
Amagat-Leducs rule, 24-17Amagats law, 24-17American Society of Civil Engineers, 71-1Amine, 21-15Ammonia slip, 66-37 (ftn)Amorphous film, 31-4Amortization, 69-24Ampere, 67-2Amperometric sensor, 62-3Amplifier, pressure, 32-2Amplitude, 58-3, 58-19Analogy, electrical/thermal, 34-5, 34-12Analysis
chemical, 21-6fault-tree, 61-27Fourier, 9-6frequency, 9-7 (ftn)gravimetric, 22-2hazard, 61-27proximate, 22-2sensitivity, 69-43signature, 9-7 (ftn)time-series, 9-7 (ftn)ultimate, 21-4, 21-5, 22-2volumetric, 22-2
Analytic function, 8-1Analyzer
FFT, 9-7signal, 9-7spectrum, 9-7
Andrades equation, 46-15Anechoic room, 68-6Anemometer, 17-21Angle, 6-2 (see also type)
between lines, 6-1clearance, 63-2contact, 14-12convergent, 26-5deviation, 26-11direction, 5-2, 7-5factor, 37-2function of, 6-2helix, 52-12helix thread, 51-13lead, 52-22lift valve, 16-12Mach, 26-11 (ftn)of contact, 14-12
of depression, 6-2of elevation, 6-2of internal friction, 46-7, 56-7, 64-4of kinetic friction, 64-5of natural friction, 64-4of natural slope, 64-4of nip, 64-6of obliquity, 52-11of repose, 56-6, 64-4of rupture, 46-7of static friction, 56-6of twist, 46-7, 51-13pitch, 52-14plane, 6-1power, 67-7pressure, 52-11, 52-12, 57-11rake, 63-2relief, 63-2semivertex, 26-11shock, 26-11shock, wedge, 26-11solid, 6-6thread, 52-22trihedral, 6-5valve, 16-11wedge, 63-2
Angle of repose, 64-4Angles between figures, 7-8Angular
acceleration, 55-6frequency, 58-3, 67-4impulse, 56-12momentum, 56-3motion, 55-6orientation, 5-1perspective, 2-3position, 55-6velocity, 55-6
Anisotropic material, 5-1, 34-2 (ftn), 45-19Annealing, 47-9 Annual
amount, 69-7 cost, 69-7cost method, 69-15return method, 69-15
Annuity, 69-7Annular flow, 36-8Annulus gear, 57-5Anode, sacrificial, 21-12Anodizing, 63-13ANSI piping symbols, A-30Anthracite, 22-4Anthropometric data, 61-29Anticipation control, 42-2Antiderivative, 9-1Antoine equation, 14-9 (ftn)Apex, 43-22Aphelion, 56-19API scale, 14-4Apogee, 56-19Apparatus
dew point, 38-8, 41-4Orsat, 22-11sensible heat ratio, 38-6
Apparent modulus, 46-10
M E C H A N I C A L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-2
Italicized page numbers represent sources of data in tables, figures, and appendices.
I N D E X I-3
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
Ind
ex
Italicized page numbers represent sources of data in tables, figures, and appendices.
Applicationfor exam, 72-2point of, 5-1
Approach, 27-14, 36-13, 38-12point, 29-20temperature, 36-13velocity of, 16-4, 17-16
ApproximationDunkerley, 58-16small angle, 6-3
Approximations, series, 8-8Aquation, 21-7Aramid fiber, 66-5Arc, 61-3
furnace, 45-5length (by integration), 9-5welding, 63-12
Archimedes principle, 15-14Arching, 64-5Architect, 70-4Area, A-117
between two curves, 9-4by integration, 9-4centroid, 48-1daylight, 20-24density method, 65-6first moment of, 44-5, 48-2free, 20-24irregular, 7-1logarithmic mean, 34-8moment of inertia, 48-3, A-117reduction in, 46-6second moment of, 48-3sprinkler protection, 65-6transformation method, 49-19
Areas, A-7Areas, law of, 56-18Argon-oxygen-decarburization, 45-2 (ftn)Argument, 3-8Arithmetic
sequence, 3-11series, 3-11
Arm, 43-2, 57-5Aromatic liquid, 14-9 (ftn)Arrangement factor, 37-2, 37-3, 37-3Array, 4-1Arrest, thermal, 47-2Artificial
abrasive, 45-19aging, 47-9expense, 69-20
Asbestos, 66-5brake lining, 52-16cement (pipe), 16-10substitutes, 66-5, 66-6
Asbestosis, 66-5ASCE (see American Society of Civil
Engineers)As fired, 22-3Ash, 22-3, 66-6ASME long-radius nozzle, 17-26 (ftn)Aspect ratio, 17-33
duct, 20-14ellipse, 7-11
Assembly line balancing, 61-18
Asset, 69-33, 69-34Assignment, 61-12, 70-3Associative law
matrix, 4-4of addition, 3-3of multiplication, 3-3sets, 11-2
Aston process, 45-10Asymmetrical function, 7-4Asymptote, 7-2Asymptotic, 7-2Atactic polymer, 45-16Atmosphere
composition, 22-8of earth, 15-12standard, 24-5, A-88
Atmosphericair, 22-8air properties, A-14, A-99fluidized-bed combustion, 22-5head, 18-5 (ftn)pressure, 14-3
Atom, 21-1Atomic
fraction, 47-1 (ftn)mass unit, 21-1number, 21-2, A-39percent, 47-1 (ftn)structure, 21-1weight, 21-1, A-39
Attack, intergranular, 21-11Attemperator, 27-13Attenuation, sound, 68-9Attitude, bearing, 52-20Attribute chart, 61-22Augmented matrix, 4-1Austempering, 47-7Austenite, 47-5Austenitic stainless steel, 21-11 (ftn), 45-8Austenitizing, 47-7Autogenous
grinding, 64-7waste, 66-28 (ftn)
Autoignition temperature, 22-8Auxiliary
equation, 10-1view, 2-2
Availability, 25-11, 61-9Available
draft, 22-16hydrogen, 22-3, 22-14methods, 66-17
Averageoutgoing quality limit, 61-26power, 67-7pressure, 15-6run length, 61-22speed, 24-17time-weighted, 39-5value, 9-4, 67-5velocity, 16-8
Avogadroshypothesis, 21-4law, 24-13number, 21-4
A-Weighting, octave band, 68-7Axial
-centrifugal compressor, 32-1exhaust, 29-14-flow compressor, 32-1-flow fan, 20-3-flow impeller, 18-4, 64-12-flow turbine, 18-23loading, 49-11member, 43-11pitch, 52-12strain, 46-4
Axisconjugate, 7-11neutral, 49-10oblique, 2-2parabolic, 7-10principal, 48-7, 54-2rotation, 48-7
Axonometric view, 2-3
BBabcock formula, 17-9Backfitting, 27-16Backflush, thermal, 27-12Background noise, 68-3Backing strip, 53-7Back
pressure, 27-11pressure critical ratio, 26-12, 26-13work ratio, 29-17
Backlash, 52-11Backpressure turbine, 27-8Backward-curved fan, 20-4Baffle, 36-13Baghouse, 66-24Bainite, 47-7Bakelite, 45-15 (ftn)Balance
delay, 61-18sheet, 69-34
Balanceddraft, 22-16draft point, 66-28electrical load, 67-9
Balancing, 54-2, 58-18chemical equations, 21-6duct, 20-18line, 61-18
Ballast circuit, 40-4, 62-9Balling scale, 14-4 (ftn)Ballistic pendulum, 56-3Balloon payment, 69-41Ball valve, 16-11Band
brake, 52-18dead, 42-5octave, 68-7sound, 68-6, 68-7
Bandwidth, 60-10classification, 64-11of frequency analysis, 9-8
Banking, roadway, 56-21Barlow formula, 19-3Barometer, 15-2, 15-5
Ind
ex
Barometricheight relationship, 15-12pressure, 14-3
Barrel finishing, 63-14Barrier, sound, 68-9Barth speed factor, 52-13Base, 12-1, 21-8
-8 system, 12-2-10 number, 12-1-16 system, 12-2-b number, 12-1circle, 52-10, 57-11exchange, 21-14metal, 47-1of riser, 65-14pitch, 52-10unit, 1-5units, SI, 1-5wage, 61-20
Baseline rate, 67-7Base-load unit, 27-16Basic Motion Time Study, 61-16 (ftn)Basis, depreciation, 69-20Bathtub distribution, 11-7Battery, 31-10 (see also type)Baum scale, 14-5Bauxite, 45-11Bayer process, 45-11BDC (see Bottom-dead-center)Beam
-column, 49-11conjugate, 49-15continuous, 44-5curved, 49-19, 49-19deflection, 49-13 to 49-16, A-118A-120fixed-end, 44-1, 44-6indeterminate, 44-1shear stress, 49-9vibration, 58-19wide, 49-16, 52-9
Bearing, 51-10characteristic number, 52-22journal, 52-20, 52-21journal correlation, A-124stiffener, 49-18
Bedchemically active, 66-29moisture level, 22-3packed, 36-10residence time, 66-25
Behavior science, 61-27Bell-shaped curve, 11-6Belt
conveyor, 64-7elevator, 64-9feeder, 64-6flat, 52-15friction, 56-7tension, effective, 64-8V-, 52-16
Beltline, reactor, 30-2Bending
moment diagram, 49-8stress, beam, 49-10stress number, 52-14
Benefit-cost ratio, 69-16Bent-tube boiler, 27-4Benzoyl peroxide, 45-15 (ftn)
Bernoulli equation, 16-2, 17-14Beryllium, 45-12Bessel equation, 10-5Bessemer process, 45-3Best available technology, 66-21Beta
distribution, 61-5-iron, 47-4ratio, 17-23
Betz coefficient, 31-5Bevel gear, 52-14, 57-9Bias, 11-13, 62-2Biaxial stress, 49-5, 50-1Bidding, competitive, 71-3Bifunctionality, 45-15Billet, 45-10 (ftn), 63-13Billion, 1-7 (tbl)Bin, 27-3, 64-5 (see also type)Binary
alloy, 47-1cycle, 28-7, 31-7digit, 12-1number system, 12-1
Binder, 64-7Binding, 27-14Bingham
fluid, 14-7plastic model, 17-11
Binomialcoefficient, 11-2distribution, 11-4theorem, 3-3
Biocide, 27-12, 66-40 (ftn)Biofilter, 66-25Bioreactor, 66-25Bioremediation, 66-25Biosolid, 66-3 (ftn)Biostat, 66-40 (ftn)Biot number, 1-9, 34-4, 34-13Bioventing, 66-25Birmingham water gage tubing, A-28Birmingham wire gage tubing, A-103Bisection method, 3-4, 13-1Bit, 12-1, 12-4Bituminous coal, 22-4Black body, 37-1Black steel pipe, 16-10Blade
jet force on, 17-29pitch control, 20-3
Blanking, 63-7Blasius
equation, 17-5solution, 17-38, 36-4
Blastfurnace, 45-1gas, 22-7 (ftn)gate, 20-18governing, 27-16
Bleed, 27-8fraction, 27-14-off, 38-13rate, 27-8
Blockand tackle, 43-11
brake, 52-17diagram, 60-5, 60-6
Bloom, 45-10 (ftn)Blow, 20-24
molding, 63-10-off, flame, 27-3-out, gasket, 53-14 -tank system, 64-6
Blowdown, 21-15, 27-5, 38-13, 66-9Blower, 32-1Blower power, 20-4Blowing the whistle, 71-3 (ftn)Blowoff, 27-5Blue
center steel, 64-2embrittlement, 47-9
Boardhammer, 63-7of directors, 70-2of engineering licensing, 72-1
Boardman formula, 19-3Bode plot, 60-11Body
black, 37-1-centered tetragonal, 47-7 (ftn)gray, 37-2, 37-3
Boiler, 27-4 (see also type)and Pressure Vessel Code, 53-1efficiency, 22-16, 27-4feedwater characteristics, 21-15feedwater quality, 21-11horsepower, 22-16, 27-4throttle valve, 27-16tubing, steel, A-28once-through, 27-1waste-heat, 29-20
Boilerplate clause, 70-3Boiling, 14-9
film, 35-10nucleate, 35-10-point margin, 66-10pool, 35-10water reactor, 30-2
Bolt, 51-8allowable stress, 53-15dimension, 51-10family, 51-8grade, 51-8grade and type, 51-9marking, 51-9preload, 51-11standards, 51-8strength, pressure vessel, 53-15stress concentration, 51-12torque, 51-12
Boltzmann constant, 24-16Bomb calorimeter, 22-14Bond, 69-29
fully amortized, 69-29 (ftn)yield, 69-30
Bonded strain gage, 62-8Bonding, adhesive, 63-13Bonus, 61-20Bookkeeping, 69-33Book value, 69-23
M E C H A N I C A L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-4
Italicized page numbers represent sources of data in tables, figures, and appendices.
I N D E X I-5
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
Boom, sonic, 14-14Booster, 32-2Booster humidification, 39-3Boost, fan, 22-16Bore, 29-2Bottleneck, 61-18Bottom
ash, 22-3, 66-6-dead-center, 29-2, 32-3 (ftn)
Bottoming cycle, 29-21Bound
lower, 9-4upper, 9-4vector, 5-1 (ftn)
Boundaryirregular, 7-1layer, 16-8, 17-37, 36-2system, 25-1value, 10-2
Bourdon pressure gauge, 15-2Box, closed, 51-14Boyles law, 25-7 Braced column, 51-2Brake, 52-16, 63-6
band, 52-18block, 52-17dynamometer, 62-12energy dissipation, 52-16external shoe, 52-17lining, 52-16material, 52-17pad, 52-16power, 20-4, 29-3, 29-4, 56-20properties, 29-3pump power, 18-7specific fuel consumption, 29-3torque, 29-4prony, 29-3
Braking torque, 52-18Brale indentor, 46-12Branch
line, 65-2loss coefficient, 20-16, 20-16takeoff, 20-16
Branching, 45-16Brass, 16-10, 45-12 (ftn)
tubing, dimensions, A-27Brayton
cooling cycle, 33-6cycle, 29-15, 29-18, 29-19
Brazing, 63-12Breach of contract, 70-5Breakaway point, 60-12Break-even point, 69-37Breaking strength, 46-3Breakpoint, 66-23Breakthrough, 66-23Breeder reactor, 30-1 (ftn)Breeze, 22-5Brickwork, 27-4Bridge
constant, 62-10truss, 43-12Wheatstone, 62-9
Bridging, 64-5
Brightness, 68-2, 68-3Brinell hardness, 46-12Briquetting, 64-6British thermal unit, 23-1, 24-5Brittle
failure, 46-13material, 46-16, 50-1, 50-2
Brix scale, 14-4 (ftn)Broad band measurements, 68-7Bromley equation, 35-11Bronze
government, 45-12type, 45-12
Btu (see British thermal unit)Bubbling fluidized-bed combustor, 66-27Bucket elevator, 64-9Buckingham equation, 52-14 (ftn)Buckling, 51-1
beam, 49-18spring, 52-7, 52-8
Buffer, 21-9Buffing, 63-14Building
designer, 70-4material, properties, A-111-related illness, 66-5
Built-in end beam, 44-6-up edge, 63-2 (ftn)
Bulkmaterial, 64-4modulus, 14-13, 46-8, 68-4modulus, solids, 46-8modulus, water, 14-13solid, 64-5storage pile, 64-4temperature, 34-4, 35-3, 36-2, 36-3velocity, 16-8
Bundle, tube, 36-9Bunker C oil, 22-5Buoyancy, 15-14, 15-16Burden, 69-36Burning rate, municipal solid waste, 66-32Burnishing, 63-14Burnout velocity, 56-17Burst
pressure, 19-3velocity, 57-3
Bushing, 52-19Business property, 69-20 (ftn)Butterfly valve, 16-11BWG, tubing, A-103BWG tubing, dimensions, A-28Byers-Aston process, 45-10Bypass
factor, 38-7, 41-4governing, 27-16recirculating air, 41-3
CCabinet projection, 2-3Cable, 43-17 to 43-20
catenary, 43-19hoisting, 64-1
parabolic, 43-17tension, 56-11
CaCO3 equivalent, 21-13, A-41, A-42Calculus, fundamental theorem of, 9-4Calibration, 62-2Calorimeter, bomb, 22-14Calorizing, 63-14Cal sil, 34-9Cam, 57-10
dynamics, 57-12Candlepower, 68-3Canon, 71-1Canonical form, row, 4-2Capacitance, 67-5
fluid, 59-7thermal, 34-12
Capacitive reactance, 67-5Capacitor, 67-5Capacity
compressor, 32-2control, 20-3factor, 27-15heat, 24-7rate, thermal, 36-20refrigeration, 33-3specific, battery, 31-10turndown, 27-13
Capillaryaction, 14-11-action heat pipe, 34-22
Capitalized cost, 69-7, 69-15Capitalizing an asset, 69-20Capital recovery method, 69-15Carbide, 45-19, 47-5, 63-4Carbon
dioxide buildup, 39-3dioxide emission, 66-6fixed, 22-4fraction, 66-7granular activated, 66-23monoxide emission, 66-8production, 66-14steel, 45-5temper, 45-10
Carbonatefuel cell, 31-8hardness, 21-14
Carbonic acid, 21-13, 21-15, 66-41 (ftn)Carborundum, 45-19Carburetor, 29-2Carburizing, 47-10, 63-12Carcinogen, 61-27Card, indicator, 29-8Carnot cycle, 25-10 (ftn), 25-11, 28-2
air-standard, 29-4refrigeration, 33-3
Carrierarm, 57-5equation, 38-2slurry, 17-11
Cartesiancoordinate system, 7-3equation form, 3-3 (ftn)triad, 5-2unit vector, 5-2
Ind
ex
Italicized page numbers represent sources of data in tables, figures, and appendices.
Cashflow, 69-3, 69-6
diagram, A-137system, 69-34
Casing transducer, 58-21Casting
die, 63-9type, 63-8, 63-9
Cast iron, 45-9, 45-9, 45-10, 47-4, 47-5 (seealso type)
alloying ingredients, 45-10heat treating, 47-8pipe, 16-10
Catalyticconverter, 29-2cracking, 22-3reduction, selective, 66-37
Catenary cable, 43-19Cauchy
equation, 10-5number, 1-9 (tbl)-Schwartz theorem, 5-3
Causticembrittlement, 21-11phosphate treatment, 21-16
Cavalier projection, 2-3Caveat emptor, 70-6Cavitation, 18-13, 18-14
coefficient, 18-14corrosion, 21-12
c-chart, 61-22, 61-24Ceiling
heat transfer, 40-2thermal coefficient, 40-2
Cellfuel, 31-7landfill, 66-12photovoltaic, 31-4solar, 31-4
Cellular fill, 38-11 (ftn)Cement, asbestos (pipe), 16-10Cementation, 47-10 Cemented carbide, 45-19Cementite, 47-5Center, 7-2
distance, 52-11instant, 55-12, 55-13of buoyancy, 15-16of force, 56-17of gravity, 9-6, 54-1of mass, 54-1of pressure, 15-4, 15-9, 15-10 (fig), 43-5of vision, 2-3-radius form, 7-9
Centerless grinding, 63-5Centerline velocity, 16-8Centigrade, 24-5 (ftn)Centipoise, 14-7Centistoke, 14-8Central
force field, 56-17impact, 56-16limit theorem, 11-11receiver system, 31-3system, 27-3
tendency, 11-10view, 2-2
Centrifugalcasting, 63-9fan, 20-3force, 56-5pump, 18-2, 18-4
Centripetalacceleration, 15-19 (ftn)force, 56-5
Centroid, 9-6, A-117area, 48-1line, 48-2of volume, 54-1
Centroidalmass moment of inertia, 54-2moment of inertia, 48-3
Ceramic, 45-17, 45-18, 45-19adhesive, 63-13 (ftn)tool, 63-4toughened, 45-19
Cermet, 45-19Cetane number, 22-7CFC replacement, 66-8cgs system, 1-4Challenger, 69-18Chamber
checker, 45-4property, 26-2
Change, allotropic, 47-4Channeling, 66-39Chaos theory, 62-2 (ftn)Chaotic error, 62-2Char, 22-5Characteristic
curvecompressor, 32-8fan, 20-5system, 20-7
dimension, 16-6, 34-3equation, 4-7, 10-1, 60-4, 60-12exhaust velocity, 26-9length, 26-9, 34-3, 35-2, 36-8log, 3-5number, bearing, 52-22polynomial, 4-7pecific feed, 66-29
Characteristicsof metals, 45-1phase, 60-11polyphase motor, A-133
Charcoal, activated, 66-23Charge
electric, 67-2number, 21-3
Charles law, 25-7Charpy test, 46-13Chart (see also type)
control, 11-13, 61-22Cox, 14-9Heisler, 34-13, A-95A-97Mollier, A-53, A-72pressure-enthalpy, 24-11psychrometric, 38-3time-temperature, 34-13
Checker chamber, 45-4Check valve, 16-12Chelant, 21-16, 66-38 (ftn)Chelate, 66-38 (ftn)Chelating agent, 66-38 (ftn)Chemical
dehumidification, 38-11dehydration, 38-11equations, balancing, 21-6loading, 66-41milling, 63-6reaction, 21-5scrubbing, 66-37
Chemically active bed, 66-29Chiller, 33-2, 33-9Chimney, 22-16Chip
-breaker groove, 63-2forming, 63-1temperature, 63-4thickness ratio, 63-2type, 63-1velocity, 63-2
Chloride stress corrosion, 45-9Chlorination, 66-9Chlorine, 27-12, 66-26Chlorofluorocarbon, 66-8Choked flow, 26-4Choke point, 32-8Chord, 17-33, 43-12Chrysotile-asbestos brake lining, 52-16Churn head, pump, 18-15, 65-3Circle, 7-9
base, 52-10clearance, 52-10Mohrs, 48-7, 49-6pitch, 52-10unit, 6-1
Circularfin, 34-18mil, 67-2motion, 55-6permutation, 5-5pipe, A-21pitch, 52-10shaft, design, 51-13transcendental function, 6-2
Circulatingclosed-loop system, 65-2fluidized-bed boiler, 66-28
Circulation, 8-7 (ftn), 17-33, 29-20Circumferential
strain, 51-5stress, 51-3, 51-4
Cis form, 3-8Civil
complaint, 70-5tort, 70-5 (ftn)
Cladding, 63-11Clash allowance, 52-5Class
limits, 11-9property, bolt, 51-9sound transmission, 68-9
Classical adjoint, 4-5
M E C H A N I C A L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-6
Italicized page numbers represent sources of data in tables, figures, and appendices.
I N D E X I-7
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
Claude cycle, 31-6 (ftn)Clausius-Clapeyron equation, 14-9 (ftn)Clay, vitrified (pipe), 16-10Cleanliness factor, 27-11Clean room, 39-5Clearance, 52-10
angle, 63-2circle, 52-10diametral, 52-20percent, 32-3radial, 52-20volume, 29-2, 32-3
Client (dealing with), 71-2Clinker, 22-3Clinographic projection, 2-3Clock spring, 52-9 (ftn)Closed
box, 51-14combustor, 29-16-cycle OTEC, 31-6die forging, 63-7feedwater heater, 27-14, 36-14 (ftn)-loop gain, 60-4-loop recovery, 66-23system, 25-1turbine cycle, 29-15
Closely held corporation, 70-2Cloud point, 22-7Clutch, 52-16, 52-19
material, 52-17CO2 fraction, 66-7CO2 production, 66-14Coal, 22-4
ash, 22-3blending, 66-18cleaning, 22-5dry ultrafine, 66-10-fueled turbine, 29-15micronized, 22-5, 27-3 (ftn)properties, 22-5substitution, 66-18upgrading, 22-5-water mixture, 29-15
Coalescence, 63-9Coarsening temperature, 47-8Cocurrent
-crossflow, 36-11flow, 36-10
Code, 71-1Coefficient
absorption, 21-7, A-135Betz, 31-5binomial, 11-2branch loss, 20-16, 20-16cavitation, 18-14confidence, 61-16correlation, 11-13discharge, venturi, 17-24drag, 17-34, 36-4 (ftn)end restraint, 51-2, 51-2film, 34-6, 35-2
air, 35-5, 40-3evaporization, water, 35-11
fitting loss, air, 20-15flow, 17-13, 17-24
flow, orifice plate, 17-25fluid resistance, 59-7friction, 56-7Joule-Kelvin, 25-3Joule-Thompson, 25-3loss, 17-12, 17-12, 20-14mass-transfer, 66-40matrix, 4-6noise reduction, 68-8, A-135nozzle, 26-8orifice, 17-17of compressibility, 14-12of contraction, 17-16, 17-24of discharge, 17-17, 17-24of drag, 17-35, 17-36of entry, 20-15of entry, air, 20-15of expansion, thermal, 14-12 (ftn)of flow, 17-13, 17-24, 26-15of fluctuation, 57-2of forced convection, 36-2of friction, 15-12, 56-6of heat transfer, 36-15, 40-2of lift, 17-32of linear expansion, 49-3of performance, 33-2of restitution, 56-15of rolling friction, 56-8of rolling resistance, 56-7, 56-19of the instrument, 17-22of thermal expansion, 49-4, 66-36of thermal resistance, 62-6of thrust, 26-8of transformation, 5-2of variation, 11-11, 61-16of velocity, 17-16, 17-23of viscosity, 14-6of viscous damping, 56-17, 58-9of volumetric expansion, 49-3overall heat transfer, 34-6, 36-15power, 31-5power, wind, 31-6profile drag, 36-4 (ftn)radiant heat transfer, 37-4roughness, 17-7Seebeck, 31-9shading, 41-2skin friction, 17-38, 36-4slab edge, 40-3smoothing, 69-42sound absorption, 68-8static regain, 20-16strength, 46-5torque, 51-12transmission, 68-9valve flow, 17-13virial, 24-19
Coefficients, method of undetermined, 10-4Cofactor
matrix, 4-1of entry, 4-2
Co-firing, 66-33Cogeneration cycle, 29-21Cogeners, 21-2Coherent unit system, 1-2
Cohesion, 14-11 (ftn), 46-7Coil, 36-6
active, 52-5efficiency, 38-7of film coefficient, 35-7load, 41-1 (ftn)load line, 38-8pitch, 52-5sensible heat ratio, 38-6, 41-4
Coining, 63-7Coke, 22-5, 22-7 (ftn), 45-2 (ftn)Colburn equation, 36-9Cold
air-standard cycle, 29-2 (ftn)-end drive, 29-14flow, 46-15heading, 63-7reserve, 27-15-working, 47-9, 63-6 (tbl), 63-7
Colebrook equation, 17-5Collapse, duct, 20-18Collapsing pressure, 51-3 (ftn)Collector
concentrating, 31-2dust, 39-5efficiency, 31-2evacuated tube, 31-2flat plate, 31-2focusing, 31-2solar, 31-2
Collinear, 7-2, 43-6Collision, 56-15Colloid, 66-41Column
braced, 51-2end coefficient, 51-2intermediate, 51-3matrix, 4-1rank, 4-5 (ftn)slender, 51-1
Combination, 11-2direct, 21-6method, 20-21
Combinedash, 66-6cycle, 29-22diesel or gas turbine system, 29-10 (ftn)film coefficient, 34-17heat transfer coefficient, 37-4stress, 49-5, 51-13
Combining weight, 21-5Combustible loss, 22-15Combustion
complete, 22-12data, 22-10efficiency, 22-16fluidized-bed, 22-5heat of, 22-14, A-43incomplete, 22-11loss, 22-15reaction, 22-8, 22-9staged, 66-38stoichiometric, 22-9stratified charge, 29-2
Ind
ex
Italicized page numbers represent sources of data in tables, figures, and appendices.
temperature, 22-15turbine, 29-14
Combustor, 29-12, 29-14, 29-16, 66-27Comfort range, 39-2Comity, 72-2Command, 60-13Commercial bronze, 45-12 (ftn)Comminution, 64-7Common
glass, 45-17ratio, 3-11
Commutative lawmatrix, 4-4of addition, 3-3of multiplication, 3-3sets of, 11-2
Compaction, 64-6Comparative negligence, 70-5Comparator, 60-4Comparison test, 3-12Compatibility method, 44-2Compensatory
damages, 70-7fraud, 70-6
Competitive bidding, 71-3Complaint, 70-5Complement
nines, 12-3number, 12-3ones, 12-3set, 11-1tens, 12-3twos, 12-3
Complementaryangle, 6-2equation, 10-1probability, 11-4solution, 10-4, 58-10
Complete combustion, 22-12Completion time, 61-5Complex
conjugate, 3-8matrix, 4-1number, 3-1, 3-7number operations, 3-8plane, 3-7power, 67-6
Componentalias, 9-7 (ftn)linear, 58-2moment, 43-3steady-state, 58-11transient, 58-11
Components of a vector, 5-2 Composite
complex wall, 34-6, 34-7cylinder, 34-8material, 45-19, 45-20material, flywheel, 57-4spring constant, 52-2structure, 49-19
Composition, eutectic, 47-3Compound, 21-3
amount factor, 69-5gear, 57-4
interest, 69-11volatile organic, 66-25
Compoundingfactor, 69-7period, 69-28
Compressed-air energy storage, 31-9 (ftn)-air storage tank, 32-2height, 52-5water, properties, A-51, A-70
Compressibility, 14-1, 14-12, 14-13, 24-9adiabatic, 14-13coefficient of, 14-12factor, 14-12 (ftn), 24-19, A-83isentropic, 14-13isothermal, 14-13
Compressibleflow through orifice, 26-15fluid dynamics, 26-1fluid, flow of, 17-26
Compressionsadiabatic, 15-13 cycle, vapor, 33-3efficiency, adiabatic, 32-3ignition, 29-2isothermal, 15-12polytropic, 15-13ratio, 29-3, 29-5, 29-11, 32-4 (ftn)ratio, isentropic, 29-4spring, helical, 52-4, 52-6stage, 32-1stroke, 29-2wave, 68-4
Compressive strength, 46-7Compressor, 32-1 (see also type)
air/gas, 32-1capacity, 32-2characteristic curve, 32-8control, 32-2scroll, 33-7work, 32-4
Concave, 7-2Concavity, 7-2Concentrated force, 43-2Concentrating collector, 31-2Concentration
-cell corrosion, 21-11factor, stress, A-121ionic, 21-8stress, 49-4, 51-7tower buildup, 38-13
Concentriccylinder viscometer, 14-6 (ftn)flywheel system, 57-4loading, 49-11
Concretedensity, 15-11 (ftn)pipe, 16-10
Concurrent force, 43-6Condensate
depression, 27-11polishing, 21-16well, 27-11
Condensationdropwise, 35-8
filmwise, 35-8polymerization, 45-15Reynolds number, 35-9vapor, 35-7 to 35-9
Condenser, 27-11, 33-1 (see also type)cooling water, 66-9duty, 27-11hot well subcooling, 27-11
Condensingcycle, 28-2vapor, film, 35-7
Conditioninitial, 58-4line, turbine, 27-8standard, 22-2
Conditionalconvergence, 3-12probability, 11-4probability of failure, 11-7
Conditioner, sludge, 21-16Conditions of equilibrium, 43-6Conditions, standard, 14-4Conductance, 34-2, 67-2, 67-5
overall, 36-15thermal, 40-2thermal, air space, 40-3
Conduction, 34-2Conductive, unit, 34-6Conductivity, 67-2
overall, 34-6thermal, 34-2, 34-3, 36-16, A-89
Coneclutch, 52-19pitch, 52-14
Confidencecoefficient, 61-16interval, 61-16 (ftn)level, 11-11, 61-16level z-values, 11-12limit, 11-11
Configuration factor, 37-2Congruency, 7-3Conical pile, 64-4Conic section, 7-8, 7-9Conjugate
axis, 7-11beam, 49-15 complex, 3-8
Connectionbolt, 51-10eccentric, 51-16, 51-17
Consequential damages, 70-7Conservation
law, radiation, 37-1methods, heat, 40-6of energy, 58-5of momentum, 17-27, 56-3
Consideration, 70-3Consistent
deformation method, 44-2, 49-19system, 3-7unit system, 1-2
ConstantBoltzmann, 24-16bridge, 62-10
M E C H A N I C A L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-8
Italicized page numbers represent sources of data in tables, figures, and appendices.
I N D E X I-9
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
coefficients, 10-1 to 10-3 elastic relationships, 46-8Eulers, 9-8 (ftn)gravitational, 1-2, 56-18Hazen-Williams, A-31
sprinkler, 65-7Henrys law, 21-7, 66-39Joules, 23-1, 24-6matrix, 4-6Newtons gravitation, 56-18of integration, 9-1, 10-1outlet, 20-25percentage method, 69-21 (ftn)pressure process, 25-2, 25-7reaction rate, 66-25room, 68-8solar, 31-1, 37-7-speed control, 60-13spring, 49-2, 52-2sprinkler orifice, 65-5Stefan-Boltzmann, 37-2temperature process, 25-2, 25-8thermoelectric, 62-7, A-130time, 34-12torsional spring, 58-5universal gas, 24-14volume process, 25-2, 25-8
Constantselastic, 46-8fundamental, inside front cover
Constrained motion, 56-9Constraint, 61-2, 61-12Construction contract, 70-3 (ftn)Construction manager, 70-4Consulting engineer, 72-1Contact
angle, 14-12, 14-12factor, 38-8ratio, 52-11resistance, 34-6 (ftn)
Content, moisture, 24-9Continuity equation, 17-2Continuous
beam, 44-1, 44-5bucket elevator, 64-9compounding, 69-28distribution function, 11-5duty rating, 29-4emissions monitoring, 66-21
Contract, 70-2breach of, 70-5documents, 70-3 (ftn)discharge of, 70-5privity, 70-6requirement for, 70-2standard, 70-4
Contraction, 17-12, 17-13, 17-16, 17-24Contractor, 70-4Contraflexure, point of, 7-2, 8-2, 49-16Control (see also type)
blade pitch, 20-3capacity, 20-3chart, 11-13, 61-22chart factor, quality, 61-23, 61-24compressor, 32-2
differential, 42-2element, 60-13limit, 61-22, 61-23mass, 25-1mechanism, 60-14of heat exchange operations, 36-23of turbine, 27-16point, 42-2, 61-25ratio, 60-4surface, 25-1system, 60-13tachometer, 60-13valve, hydraulic, 19-2velocity, 39-4velocity, hood, 39-4volume, 25-1
Controllability, 60-14Controllable pitch, 20-3Controlled
-circulation boiler, 27-4-cooling transformation curve, 47-6
Controller, 60-13Convection
forced, 36-2natural/free, 35-2Newtons law of, 36-2preheater, 27-15superheater, 27-12
Convective heat transfer coefficient, 34-6Convention
half-year, 69-3sign, thermal, 25-4year-end, 69-3
Conventional duct system, 20-17Convergence, 3-11, 3-12Convergent
angle, 26-5-divergent nozzle, 26-5sequence, 3-10series, 3-11
Converging-diverging nozzle, 17-23Conversion
base, 12-3factors, A-1A-6, inside front coverpower, 23-5 (tbl)viscosity, 14-8, A-19
Converter, 29-2, 45-3Convex, 7-2
hull, 7-2, 7-3polygon, 61-12
Convexity, 7-3Conveyor
belt, 64-7pneumatic, 64-6screw, 64-5submerged scraper, 66-6
Convolution integral, 10-7Cooler, 33-9Cooling
coil, 33-8compressor, 32-7degree day, 41-2duty, 38-12efficiency, tower, 38-12electronic enclosures, 36-23
evaporative, 38-7, 38-10load, 41-1load factor, 41-2Newtons law of, 10-10sensible, 38-8tower, 38-11, 38-13tower blowdown, 66-9water, 36-14with dehumidification, 38-8with humidification, 38-8
Coordinateholonomic, 55-2system, 7-3
Coordinates of fluid steam, 17-17Coplanar, 7-2, 43-6Copolymer, 45-13Copper
alloy, 45-12-beryllium, 45-12loss, 67-15pipe, 16-10production, 45-12tubing, 16-10tubing, dimensions, A-26, A-27
Core, 49-12, 62-4 (ftn), 63-8loss, 67-15wire rope, 64-2
Coriolis acceleration, 55-8Corner frequency, 60-10Corona wire, 66-27Corporation, 70-2Corrected fin length, 34-18Correction factor, LMTD, 36-14, A-101Correlation
coefficient, 11-13film, 35-3hardness, 46-14journal bearing, A-124Othmer, 14-11Seider-Tate, 36-5, 36-6tube-wire, 35-7
Corresponding state, 24-19Corrosion, 21-10
cavitation, 21-12chloride, 45-9concentration cell, 21-11cracking, intergranular stress, 30-2cracking, stress, 45-9crevice, 21-11erosion, 21-11fatigue, 21-12fretting, 21-12galvanic, 21-11intergranular, 21-10microbiologically influenced, 27-12pressure vessel, 53-7-resistant steel, 45-5stress, 21-12two-metal, 21-11
Corrosive substance, 66-3Cosine
direction, 5-2, 7-5, 43-2function, integral, 9-8
Cosines, law of, 6-5, 6-6
Ind
ex
Italicized page numbers represent sources of data in tables, figures, and appendices.
Cost, 61-2 (ftn), 69-31 (see also type)accounting, 69-36capitalized, 69-7electricity, 18-8of goods sold, 69-37opportunity, 69-18plus fee, 70-4standard, 61-15sunk, 69-3
Couette flow, 36-3 (ftn)Coulomb, 67-2
friction, 56-5-Mohr theory, 50-2
Counterblow forging, 63-8Counter-crossflow, 36-11Countercurrent flow, 36-10Counterflow, 36-10Couple, 43-4, 43-9Coupon rate, 69-30Cox chart, 14-9CPM (see Critical path method)Crack
coefficient, 39-2length method, 39-2stress corrosion, 45-9weld bead, 45-9
Cracking, hydrocarbon, 22-2Cramers rule, 3-7, 4-6Crankcase oil, 52-19Crank end, 29-2Crank-slider, 55-13Credit, 69-33
investment, 69-25tax, 69-25
Creed, 71-1Creep, 46-10, 46-15Crest (dam), 15-11Crevice, 21-11Cristobalite, 45-18Criteria pollutant, 66-3Critical
back-pressure ratio, 26-12, 26-13damping, 58-9damping coefficient, 58-9fastener, 51-16flow, 16-8gas constant, 26-4height, pressure vessel, 53-5 (ftn)insulation thickness, 34-10isobar, 24-3line, 47-4load, column, 51-1path method, 61-3, 61-4point, 8-2, 24-3, 24-8, 24-8, 26-4, 47-4pressure ratio, 26-4property, 24-8, 26-5radius, 34-10ratio, 26-4Reynolds number, 36-3slenderness ratio, 51-2speed, shaft, 58-15, 58-17temperature, 47-4, 47-7zone, 16-8
Cross-drum boiler, 27-4
-linking, 45-13, 45-16main, 65-2, 65-12product, 43-2product, vector, 5-4temperature, 36-14
Crossed drive, 52-15Crossflow
cylinder, 36-8heat exchanger, 36-11tube, 36-9
Crossoverfrequency, 60-11gain, 60-11point, 60-10
Crud, 21-16Crushing, 64-7Crusting agent, 66-10Cryogen, 24-2 (ftn)Cryogenic fluids, 24-2 (ftn)Cryolite, 45-11Crystallinity, polymer, 45-16Crystallization, water of, 21-4Cube, conduction, 34-11Culvert, 17-19
entrance loss, 17-19Cumulative
fatigue, 50-7frequency, 11-9probability, A-129usage factor rule, 50-7
Cunife, 45-13Cup
-and-bob viscometer, 14-6 (ftn)-and-cone failure, 46-4
Cupola, 45-10 (ftn)Curl, 8-7Current
asset, 69-34divider, 67-4electrical, 67-2electric motor, 19-5liability, 69-34meter, 17-21ratio, 69-34
Curve, 7-3bell-shaped, 11-6degree, 7-3Eulers, 51-2fan characteristic, 20-5flow, 46-5inversion, 25-3learning, 69-42, 69-42load, 27-15load-elongation, 46-1mortality, 61-11normal, A-12operating characteristic, 61-25performance, 18-15reloading, 46-6resistance, 56-19stress-strain, 46-1, 46-3symmetry, 7-4system, 18-15, 20-7time-temperature-transformation, 47-6unloading, 46-6
Curved beam, 49-19, 49-19Cut-and-sum method, 43-15Cut-in/out pressure, 32-2Cut
-offfrequency, 60-10governing, 27-16rate, 60-10ratio, 29-11volume, 29-11
-point, 64-10, 64-11size, 66-26
Cutting, 64-7energy, 63-3force, 63-2hardness, 46-12oil, 63-4power, 63-3speed, 63-2, 63-3 (tbl)tool material, 63-4torch, 63-12 (ftn)
Cyaniding, 47-10Cycle, 25-10, 28-1 (see also type)
absorption, 33-6air refrigeration, 33-6air-standard, 29-2air-standard diesel, 29-10air-standard dual, 29-11air-standard Otto, 29-5binary, 28-7, 31-7bottoming, 29-21Brayton, 29-15, 29-18, 29-19, 33-6Carnot, 25-10 (ftn), 25-11, 28-2, 29-4,
33-3Claude, 31-6 (ftn)cogeneration, 29-21combined, 29-22direct fuel reforming, 31-8dual-flash, 31-7Ericsson, 29-13flash steam, 31-7four-stroke, 29-2internal fuel reforming, 31-8Joule, 29-15nuclear power, 30-1power, 25-10Rankine, 28-3 to 28-5redesign, 27-16regenerative, 28-7solar power, 31-3Stirling, 29-12supercritical, 28-7time, 61-18topping, 29-21two-stroke, 29-2vapor compression, 33-3
Cycles of concentration, 38-13Cyclic
strain, 46-9 (ftn)stress, 46-9 (ftn)
Cycloid, 7-3Cycloidal cam profile, 57-10Cyclone, 66-26Cyclone separator, 64-10Cylinder
composite, 34-8
M E C H A N I C A L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-10
Italicized page numbers represent sources of data in tables, figures, and appendices.
I N D E X I-11
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
conduction through, 34-8crossflow, 36-8hydraulic, 19-6-operated pump, 18-2pressure, peak, 29-8 (ftn)thick-walled, 51-4, 51-5
Cylindrical coordinate system, 7-3 (tbl), 7-4(fig)
DDAlemberts
paradox, 17-2 (ftn)principle, 56-5
Daltons law, 22-13, 24-17, 66-4 (ftn)Dam, 15-11Damage
hydrogen, 21-11punitive, 70-5
Damages, 70-7Damped
forced vibration, 58-11free vibration, 58-9frequency, 58-9, 60-2
Damper, 59-4control, face-and-bypass, 42-1duct, 20-18face, 42-2 (ftn)fire, 20-18pulsation (pump), 18-2smoke, 20-18
Dampingcoefficient, critical, 58-9 critical, 58-9factor, 58-9, 58-13heavy, 58-9light, 58-5linear, 58-9ratio, 58-9viscous, 58-9
Dangerous section, 49-11Darcy
chart, 17-6equation, 17-7friction factor, 17-5, A-32A-35-Weisbach equation, 17-7
Darrieus rotor, 31-4Dashpot, 58-9, 59-4Davit, 53-11 (ftn)Davonius rotor, 31-4 (ftn)Daylight area, 20-24DC machine, 67-14Dead
band, 42-5-beat motion, 58-9load, 43-4
Deaerating heater, 27-14Deaerator, 27-14Debit, 69-33Decade, 60-10Decay
exponential, 10-9weld, 21-10, 45-9
Dechlorination, 66-26Decibel, 58-12Decile, 11-10Decimal number, 12-1Declining balance method, 69-21, 69-26Decomposition, 21-6Decrement, logarithmic, 58-9Dedendum, 52-10Defect, 6-6, 61-24
Defendant, 70-5Defender, 69-18Definite integral, 9-1 (ftn), 9-4Deflection, 49-3, 58-2 (ftn)
beam, 49-13 to 49-16, A-118A-120bridge, 62-9dynamic, 58-20pseudo-static, 58-10static, 58-2temperature, 46-10truss, 49-17
Deformation, 58-2 (ftn)consistent, method of, 49-19elastic, 44-1, 49-2thermal, 49-3
Degeneratecircle, 7-10ellipse, 7-11
Degree, 6-1day, 40-5, 41-2of a curve, 7-3of a polynomial, 3-3of damage, 61-27of freedom, 27-11, 47-3, 55-2, 58-2, 58-19,
60-14of indeterminacy, 43-7, 44-1 of isolation, 58-12of redundancy, 44-1of saturation, 38-2
Dehalogenation agent, 27-12Deionized water, 21-16Delay, 61-18Del operator, 8-5Delta
-connection, 67-9-iron, 47-4rosette, 62-12
Demandelectrical, 67-7factor, 27-15
Demineralized water, 21-16de Moivres theorem, 3-8de Morgans law, sets, 11-2Density, 24-5
concrete, 15-11 (ftn)factor, fan, 20-20fin, 29-20fluid, 14-3function, 11-4mass, 1-3of a fluid, 14-3optical, 66-17ratio, air, 20-2 (ftn)sprinkler discharge, 65-6watt, 40-4 (ftn)weight, 1-3
Denting, 21-16 (ftn)Deoxidizer, 45-4Dependent
event, 11-3motion, 55-11variable, 3-2
Depletion, 69-24Depreciation, 69-20, 69-21
accelerated, 69-23
basis, 69-20calculation, 69-27rate, 69-21recovery, 69-26
Depression (see also type)angle of, 6-2wet-bulb, 38-2
Depress of polymerization, 45-14Depth, 2-2, 52-10Derivative, 8-1
directional, 8-6Laplace transform of, 10-6of motion, 57-10
Derivedfrom rule, 66-4unit, 1-5, 1-6 (tbl)units, SI, 1-5, 1-6
Descartes rule of signs, 3-4Design
condition, indoor, 39-2condition, outside, 40-2factor, 19-3for manufacture and assembly, 61-27power, 56-7 (ftn)pressure, 26-5, 26-13professional, 70-6temperature, inside, 41-1
Designationsaluminum, 45-11TEMA, 36-11
Desorptiongas, 66-22 (ftn)thermal, 66-40
Destruction removal efficiency, 66-30Destructive test, 46-13Desulfurization, flue gas, 22-5, 66-22Desuperheater, 27-13Detector-transducer, 62-3Deterioration model, 61-11Determinacy, 43-7Determinant, 4-3Deterministic model, 61-2Deuterium, 21-2Developer, 70-4Deviation
angle, 26-11standard, 11-10
Device, pressure measurement, 15-2Dew point
apparatus, 38-8, 41-3flue gas, 22-13stack, 66-4temperature, 38-2
Dezincification, 21-11, 45-12Diabatic flow, frictionless, 26-19Diagonal matrix, 4-1Diagram
block, 60-5, 60-6cash flow, 69-3equilibrium, 24-3, 47-1fatigue, 50-7 (ftn)free-body, 43-8iron-carbon, 47-4isothermal transformation, 47-6Mollier, 24-9, A-53, A-72
Ind
ex
Italicized page numbers represent sources of data in tables, figures, and appendices.
moment, 49-8Nelson, 53-4phase, 47-1pole-zero, 60-8, 60-9pressure-enthalpy, 24-11root-locus, 60-12shear, 49-8time-temperature, 47-2
Diameterequivalent, 16-6, 16-7, 17-9, 17-36, 20-14hydraulic, 16-6, 17-9, 20-14 (ftn), 36-8
Diametralclearance, 52-20interference, 51-5pitch, 52-10strain, 51-5
Diamond, 63-4Diaphragm
gauge, 15-2 pump, 18-3vibration, 58-17
Diecasting, 63-9types, 63-6
Dieselcycle, air-standard, 29-10engine, 29-10fuel, 22-7
Differencedivided, 13-3Rth-order, 3-10table, divided, 13-3 (ftn)
Differentialautomotive, 57-9control, 42-2equation, 10-1, 10-8gear ratio, 56-20manometer, 15-3term, 9-1transformer, 62-4
Differentiation, 8-4Diffuser, 20-3, 20-24Diffusion-controlled cell, 62-3Diffusivity, thermal, 34-4, 34-4Digit, 3-1, 12-1Digital
control, 42-5-to-analog, 42-5-to-proportional, 42-5
Dilatant fluid, 14-6, 14-7Dilation, 49-2Diluent gas, 66-21Dilution
exhaust gas, 29-2extraction, 66-21toxicity, 39-5ventilation, 39-5
Dimensionbolt, 51-10characteristic, 16-6, 34-3nominal, 16-10primary, 1-7
Dimensionlessgroup, 1-7, 1-9 (tbl)number, 1-7, 1-9 (tbl)
Dimensionsbrass tubing, A-27BWG, tubing, A-103copper tubing, A-26, A-27of variables, 1-8 (tbl)PVC pipe, A-29steel boiler tubing, A-28steel pipe, 16-11, A-22A-25
Dimetric view, 2-3Dioxin, 66-9Direct
-acting pump, 18-2coal-fueled turbine, 29-15combination, 21-6-condensing tower, 38-13-contact heater, 27-13 current, 67-2digital control, 42-5-firing system, 27-3fuel reforming cycle, 31-8impact, 56-16injection, 29-3iron-making process, 45-7labor, 69-32transfer function, 60-4
Directed graph, 61-3Direction
angle, 5-2, 7-4cosine, 5-2, 7-5, 43-2helix, 52-5number, 7-5
Directional derivative, 8-6Directivity, sound, 68-7Directrix, 7-10Disbenefit, 69-16Disbursement, 69-3Discharge, 18-4
coefficient, 17-17, 17-24coefficient, nozzle, 26-8coefficient, sprinkler, 65-5coefficient, venturi, 17-24density, 65-6from tank, 17-16, 17-17of contract, 70-5side, 18-4sprinkler, 65-5
Discounting, 69-5factor, A-138A-156
Discriminant, 3-3, 7-9Dish
engine system, 31-3Stirling system, 31-3
Disjoint set, 11-1Disk
clutch, 52-19rotating, 57-2
Dispatch interval, 64-4Dispersant, 21-16Dispersion, 11-10, 45-19Dispersoid, 45-19Displacement, 21-6, 55-2
meter, 17-21piston, 32-3
Displacer, 29-12Dissatisfier, 61-28
Dissolved oxygen process, 45-3Distance, 55-2
between figures, 7-7skidding, 56-21-squared law, 68-3stopping, 56-21
Distillate oil, 22-6Distillation temperature, 66-10Distortion energy theory, 46-8, 50-5Distributed
collector system, 31-3load, 43-4, 43-6
Distribution (see also type)bathtub, 11-7beta, 61-5binomial, 11-4continuous, 11-6discrete, 11-4exponential, 11-6, 61-9frequency, 11-9Gaussian, 11-6hypergeometric, 11-5multiple hypergeometric, 11-5normal, 11-6point, 20-24Poisson, 11-5Students t-, 61-16 (ftn), A-127velocity, 16-8Weibull, 61-9
Distributive law, 3-3matrix, 4-4sets, 11-2
District heating, 29-21Dittus-Boelter equation, 36-6Divergence, 8-7Divergent sequence, 3-10Divided
difference, 13-3 (ftn)-flow fitting, 20-16, 20-17
Division (matrix), 4-4Dodge-Romig plan, 61-25Domestic heat source, 40-4 (ftn)Dominant load, 49-18Doppler effect, 68-4Dosimeter, sound, 68-9Dot product, 5-3Double
-acceptance plan, 61-26-acting engine, 29-2-acting pump, 18-2-angle formula, 6-4butt, 51-10 (ftn)-dabble method, 12-1 (ftn)declining balance, 69-21, 69-26-entry bookkeeping, 69-33integral, 9-3integration method, 49-13rivet, 51-10 (ftn)root, 3-3seal, 66-35shear, 51-10-suction pump, 18-4-tempered steel, 45-7 (ftn)
Doubling time, 69-8, 69-8Downcomer, 27-4
M E C H A N I C A L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-12
Italicized page numbers represent sources of data in tables, figures, and appendices.
I N D E X I-13
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
Downcycling, 66-16Downtime, 61-9, 61-10Downturn, 36-23Draft, 22-16, 63-8
balanced, 22-16cooling tower, 38-11forced, 22-16gauge, 15-3 (ftn)induced, 22-16loss, 22-16natural, 22-16tube, 18-20
Drag, 17-34 (see also type)coefficient, 17-34, 17-35, 17-36, 36-4 (ftn)disk, 17-34sphere, 17-34vehicular, 56-20
Draught, 22-16 (ftn)Drawing, 2-2 (ftn), 47-9, 63-7Drift, 38-13, 66-27Drip, 27-14Drive
belt, 52-15flat belt, 52-15train efficiency, 56-20worm, 52-14
Driving dynamometer, 62-12Droop, compressor, 32-9Drop
forging, 63-7spherical, 10-10test, 58-21
Dropwise condensation, 35-8Drum
mud, 27-4 (ftn)steam, 27-4
Dryabsorption, 66-37air, composition, 22-8-bulb temperature, 38-1bulk solid, 64-5combustor, 29-14compression, 33-4cooling tower, 38-13flue gas loss, 22-15sand, 63-8scrubbing, 66-37ultrafine coal, 66-10
Dualcycle, air-standard, 29-11-duct system, 42-1-flash cycle, 31-7
Duct, 36-8 (ftn)collapse, 20-18exhaust, 20-18, 20-25fan, 20-3friction loss, 20-11, 20-12, 20-13heat gain to, 41-2leakage, 20-18rectangular, 20-14specific roughness, 20-11, 20-11 (ftn)supply, 20-18velocity, 20-19
Ductilecast iron, 16-10, 45-9
material, 46-5, 50-3, 50-4transition temperature, 46-14
Ductility, 46-5Ductility transition temperature, 46-14Dulong and Petit law, 24-7Dulongs formula, 22-14Dummy
activity, 61-5node, 61-3unit load, 44-6
Dump, 27-11 (ftn), 66-12Dunkerley approximation, 58-16Du Nouy torsion balance, 14-11 (fig)Duplex
pump, 18-2stainless steel, 45-9
Duplexed steel, 45-4Duralumin, 45-12 (ftn)Dust, 66-9
coal, 66-10collector, 39-5control, 66-9
Duty, 29-21condenser, 27-11cooling, 38-12cycle, 67-12heat, 36-14point, fan, 20-7 (ftn)rating, continuous, 29-4
Dwell, 57-11Dynamic
analysis, 49-7balance, 54-2, 58-18compressor, 32-1, 32-2, 32-8deflection, 58-20energy, 16-2 (ftn)equilibrium, 56-5friction, 56-6head, total, 18-6programming, 61-12reaction, 56-5 (ftn)response, 49-7response, spring, 52-8similarity, 17-38, 18-19, 20-9unit, 60-4viscosity, 14-6 (ftn)
Dynamics, 26-1, 55-1cam lobe, 57-12
Dynamometer, 29-3, 62-12Dyne, 1-4
E Earnings, relative, 61-20 Earths atmosphere, 15-12, 15-13 Earths, rare, 21-2 Eastern coal, 22-4 Eccentric
impact, 56-16 load, column, 51-3 load, connection, 51-16, 51-17 loading, 49-11
Eccentricity, 7-8, 7-11, 7-12, 49-11, 51-3 dam, 15-12 orbit, 56-19, 56-19ratio, bearing, 52-20
EC grade aluminum, 45-11 (ftn) Echelon form, row-reduced, 4-2 Echelon matrix, 4-1 Eckert number, 1-9 (tbl)Economic
analysis factor, A-138A-156indicator, 69-39 insulation thickness, 34-10 life, 69-19 order quantity, 61-2 (ftn), 69-42
Economizer, 22-3, 27-15 Eddy current testing, 46-11 Eductor, 27-3 (ftn) Effect
Doppler, 68-5 evaporator, 27-14 flywheel, 57-1 greenhouse, 31-2 Hall, 31-8 (ftn) isotope, 21-2 (ftn) Magnus, 17-34 Peltier, 62-6 (ftn) photoelectric, 62-4 piezoelectric, 15-2, 62-4 refrigeration, 33-3 Seebeck, 62-6 stack, 22-16 system, 20-7 Thompson, 62-6 (ftn)
Effectiveallowable stress, pressure vessel, 53-9 exhaust velocity, 2-8 force, 56-5 (ftn)head, 17-16, 18-5 interest rate, 69-5, 69-28 length, column, 51-2 length, V-belt, 52-16 period, 69-2 pressure, 29-3, 29-8 sensible heat ratio, 38-7 tension, belt, 64-8 time, 26-9 value, 67-5 weld throat, 51-13 wind velocity, 39-2
Effectiveness fin, 34-16 heat exchanger, 36-20, A-104, A-105lever, 15-14 method, 36-20 regenerator, 29-19
Efficacy, luminous, 68-2Efficiency, 23-6
adiabatic, 27-8 adiabatic compression, 32-3 boiler, 22-16, 27-4 coil, 38-7 collector, 31-2 combustion, 22-16 cooling tower, 38-12 destruction removal, 66-30 drive train, 56-20 factor, heat removal, 31-2 fan, 20-4fin, 34-16, 34-17
Ind
ex
Italicized page numbers represent sources of data in tables, figures, and appendices.
furnace, 22-16 gear train, 52-12 humidification, 38-7 isentropic, turbine, 27-8 isolation, 58-12 joint, 16-10, 51-11, 53-8 lever, 15-14 luminous, 68-2 mechanical, 29-3 mesh, 52-12 method, 36-20 motor, 67-15 nozzle, 26-8 overall, pump, 18-8 polytropic, 32-5 production, 61-20 pulley, 43-11pump, 18-8pumping (temperature), 18-19 pump isentropic, 27-6 radiator, 34-16 regenerator, 29-19 relative, 29-3 removal, 66-25 saturation, 38-7, 38-11 static, 20-4 thermal, 22-16, 25-10, 28-1, 29-3 total, fan, 20-4volumetric, 29-3, 32-4weld, joint, 53-9
Efflux, speed of, 17-16 Effort, 43-10 Eigenvalue, 4-7, 60-8 (ftn) Eigenvector, 4-7 Ejector pump, 18-2 Elastic
analysis, 51-16constants, 46-8constants, relationships, 46-8deflection, beam, A-118A-120deformation, 44-1, 49-2failure, 49-18 impact, 56-15 limit, 46-2 line, 49-14 region, 46-2 strain, 46-2 toughness, 46-6
Elasticity, modulus of, 46-2, 46-2, 49-2 Elastomer, 45-13, 45-15 Electric
arc furnace, 45-5 charge, 67-2machine, 67-14motor formulas, 19-5motor, hydraulic power, 19-5motor size, 18-9vehicle, 31-10
Electrical discharge machining, 63-6 generator, 27-15 output, 27-1 rating, power, 27-1 thermal analogy, 34-5, 34-12
Electricity, cost, 18-8
Electrochemical grinding, 63-6 machining, 63-6
Electrolytic grinding, 63-6 Electromotive force, 67-2 Electronic enclosures, 36-23 Electroplating, 63-14 Electropneumatic switch, 42-1 Electrospark machining, 63-6 Electrostatic precipitator, 66-26, 66-27Electrostatic unit, 67-2 Elementary row operation, 4-2 Elements, A-39, A-40
types, 21-2Element, transition, 21-2 Elevation
angle of, 6-2 drawing, 2-2
Elevator, 64-3, 64-9Elimination, Gauss-Jordan, 4-2 Elinvar, 45-13 Ellipse, 7-11, 7-11Elliptic integral function, 9-8 (ftn) Elongation at failure, 46-5 Elutriation, 64-11 Embossing, 63-7 Embrittlement
blue, 47-9 caustic, 21-11 hydrogen, 21-11, 53-4 neutron, 30-2
Emery, 45-19 Emission, fugitive, 66-10 Emissions
monitoring, 66-21 sampling, 66-20
Emissive power, 37-1 Emissivity, 37-1, 37-3, A-106Emulsion, 19-2 (ftn), 21-7 (ftn) Enclosed air space, 35-7 Enclosure hood, 39-4 Enclosures, cooling electronic, 36-23 End
-around carry, 12-4 post, 43-12 -quench test, 47-7 restraint coefficient, 51-2, 51-2
Endoergic impact, 56-15 Endothermic reaction, 21-9 Endpoint, pressure-drop, 21-16 End treatment, spring, 52-6Endurance
limit, 46-9 ratio, 46-9 strength, 46-9
Energy, 23-1 conservation, 58-5 conservation law, 23-1 content of moist air, 38-3 cutting, 63-3 dynamic, 16-2 (ftn) -efficiency ratio, 23-6 (ftn), 33-2 falling mass, 23-3 (ex) flow, 16-2, 23-3, 24-6, 25-6 flywheel, 57-1
grade line, 16-9, 17-15 gravitational, 23-2 impact, 16-4 internal, 23-4, 24-5 kinetic, 16-2, 23-3 line, 16-9 potential, 16-2, 23-2 pressure, 16-2, 23-3 -production efficiency, 23-6 sink, 17-15, 25-10 solar, 31-1 source, 17-15, 25-10, 31-1 specific, 16-1, 16-9, 23-1 specific, battery, 31-10 spring, 23-3 stagnation, 16-4 static, 16-2, 23-3 storage, 31-9 strain, 46-6, 49-2, 49-11strain, torsion, 51-13total, 16-2, 16-4 -use efficiency, 23-6 velocity, 16-2 (ftn) -work principle, 23-3, 23-4
Engine diesel, 29-10 gas-diesel, 29-10 oil, 52-19 Stirling, 29-12
Engineering dimensional system, 1-7economy factor, A-138A-156intern, 72-1 (ftn) registration, 72-1 strain, 46-2 stress, 46-2
Engineer-In-Training exam, 72-1 Engineers Creed, 71-1 English
engineering system, 1-2 gravitational system, 1-3
Enlargement, 17-12, 17-13 Enthalpy, 24-5
of formation, 21-9, 21-10of moist air, 38-3 of reaction, 21-9
Entranceloss, culvert, 17-19region, 36-5
Entropy, 24-6 function, 24-11 production, 24-6
Entry, coefficient of, 20-15air, 20-13
Entry length, thermal, 36-5 Environment, 25-1, 66-3 Environmental engineering, 66-4 Etvs number, 17-38Epicyclic gears, 57-6, 57-9, A-126Epicycloid, 7-3 Epidemic, 10-10 Equal
-friction method, 20-19 vectors, 5-1
Equality of matrices, 4-3
M E C H A N I C A L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-14
Italicized page numbers represent sources of data in tables, figures, and appendices.
I N D E X I-15
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
Equation, 3-2 Andrades, 46-15 Antoine, 14-9 (ftn) auxiliary, 10-1 Bernoulli, 16-2, 17-14 Bessel, 10-5 Blasius, 17-5 Bromley, 35-11 Buckingham, 52-14 (ftn) Cauchy, 10-5 characteristic, 10-1 Clausius-Clapeyron, 14-9 (ftn) Colebrook, 17-5 complementary, 10-1 Darcy, 17-7 Darcy-Weisbach, 17-7 differential, 10-1 Eulers, 3-8, 10-5 Gauss hypergeometric, 10-5 general flow, 26-2 Hagen-Poiseuille, 17-7 Hazen-Williams, 17-7, 65-7 Legendre, 10-5 Nikuradse, 17-5 nonparametric, 3-3 Nusselt, 35-3, 36-5 of state, 24-12, 24-13
real gas, 24-19 van der Waals, 24-19 virial, 24-19
parametric, 3-2 Petroff, 52-21 quadratic, 3-3 reduced, 10-1 Rohsenow, 14-10 steady-flow energy, 26-2 Taylors, 63-5 three-moment, 44-5 tool life, 63-5 Torricellis, 17-16 Weisbach, 17-7 Weymouth, 26-17 Zuber, 14-10
Equations of motion, Eulers, 56-8 simultaneous linear, 3-7
Equiangular rosette, 62-12 Equilateral hyperbola, 7-12 Equilibrium, 43-20, 56-2
conditions, 43-6conditions, static, 43-6diagram, 24-3, 47-1diagram, iron-carbon, 47-5dynamic, 56-5 isopiestic, 14-9 moisture content, 45-17 phase, 56-6 position, 58-2 solid, 24-3static, 15-16 thermal, 24-4, 25-5, 37-1, 37-6
Equipment high-side, 33-7 low-side, 33-8
Equipotential line, 17-3
Equity, 69-34 Equivalence, economic, 69-5Equivalent
CaCO3, 21-13 chemical, 21-4 diameter, 16-7, 16-7, 17-9, 17-36diameter, duct, 20-14 evaporization, 27-5 fluid height, 15-5 (tbl)Joule, 23-1 length, 17-11, 17-12, A-131
air, 20-13fitting, A-37, A-131
length method, duct, 20-15 resultant, 43-4 spring constant, 52-2 stress, 50-6 temperature difference, 41-2 uniform annual cost, 69-7 vector, 5-1 (ftn) weight, 21-4 weight, milligram, 21-8
Erf, 9-8 Ergonomics, 61-29 Ericsson cycle, 29-13 Erosion corrosion, 21-11 Error, 11-13, 60-4, 60-14, 61-9, 62-2 (see
also type)function, 9-8, 11-6 gain, 60-4 in action, 52-14 magnitude, 62-3 ratio, 60-4 signal, 60-4terms, 62-3transfer function, 60-4 type I/II, 61-25
Errors and omission insurance, 70-7 Escape velocity, 56-19 Estimator, unbiased, 11-10 Etching radius, 63-6 Ethanol, 22-7 Ethic, 71-1 Ethical priority, 71-2 Ethyl alcohol, 22-7 Euler
constant, 9-8 (ftn) curve, 51-2 equation, 3-8 equations of motion, 56-8 load, 51-1 number, 1-9 (tbl)
Eutectic alloy, 47-3 cast iron, 47-5 composition, 47-3 line, 47-3 reaction, 47-3 temperature, 47-3
Eutectoid reaction, 47-3 steel, 47-5 temperature, 47-4
Evacuated-tube collector, 31-2 Evaluation, nondestructive, 46-11
Evaporation, 10-10, 38-13 Evaporative cooling, 38-7, 38-10 Evaporative pan humidification, 39-3 Evaporator, 27-14 (ftn), 33-1, 33-8 Evaporization, 35-10, 35-11
equivalent, 27-5 factor of, 27-4film coefficient, water, 35-11
Evase, 20-3Even symmetry, 7-4, 9-7 (tbl)Event, 11-2, 61-3 Exact equations, first-order, 10-3 Exams, licensing, 72-1, 72-2 Exam date, 72-2 Excess air, 22-12 Exchange, ion, 21-14 Exchanger, heat, 36-10 Excitation, motor, 67-13 Exciter, 58-21 Exemplary damages, 70-7 Exfoliation, 21-11 Exhaust,
duct, 20-18, 20-25 gas dilution, 29-2 hood, fume, 39-4 stroke, 29-2 velocity, characteristic, 26-9 velocity, effective, 26-8
Exit property, 26-5 Exoergic impact, 56-15 (ftn) Exothermic reaction, 21-9 Expanded-flow bin, 64-5 Expander, 29-14 Expansion
by cofactor, 4-3 coefficient of, 14-12 (ftn) factor, 17-26, 17-26linear, coefficient, 49-3 over-, 26-13 series, 8-8 thermal, 49-3thermal, coefficient of, 49-4, 66-36two-stage, 27-8 under-, 26-13 valve, 33-1 volumetric, coefficient, 49-3
Expected value, 69-30 Expense, 69-32 Expensing an asset, 69-20 Explosive
forming, 63-11 limit, lower, 39-5
Exponent, 3-5 polytropic, 15-13, 25-2rules, 3-5strain-hardening, 46-5
Exponential decay, 10-9, 60-9 distribution, 11-6, 11-7, 61-9 form, 3-8 function, integral, 9-8 gradient cash flow, 69-4 growth, 10-9, 69-4growth factor, A-138A-156
Ind
ex
Italicized page numbers represent sources of data in tables, figures, and appendices.
reliability, 11-7 weighted forecast, 69-42
Exposed fraction, 15-15 Exposure
allowance, 40-1 limit, short-term, 39-5
Extended surfaces, 34-16 Extension spring, 52-8 Extensive property, 24-4 External
force, 43-2, 56-2 gear, 57-4 pressure, 15-14 rate of return, 69-12 shoe brake, 52-17 work, 23-1
Externality, nuclear 30-2 Externally fired combined cycle, 29-15 Extraction
cycle, 28-2 rate, 27-8 turbine, 27-8, 27-13
Extractive metallurgy, 45-1 Extreme
fiber, 49-11 point, 8-2 stress, 49-5 temperature difference, 36-13
Extrinsic waste, 66-3 Extrusion, 63-10
FFace
-and-bypass damper control, 42-1damper, 42-2 (ftn)value, 69-29velocity, 66-24width, tooth, 52-10
Facilities layout, 61-14Factor (see also type)
absorption, 66-40arrangement, 37-3Barth speed, 52-13bolt torque, 51-12bonus, 61-20bypass, 41-4capacity, 27-15cleanliness, 27-11coil, 38-7compounding, 69-7compressibility, 14-12 (ftn), 24-19, A-83contact, 38-8cooling load, 41-2correction, LMTD, A-100damping, 58-9, 58-13Darcy friction, 17-5demand, 27-15density, fan, 20-2design, 19-3directivity, 68-7discounting, A-138A-156economic analysis, A-138A-156emissivity, 37-3, 37-3expansion, 17-26, 17-26Fanning friction, 17-5 (ftn), 26-15, 26-18
fatigue notch, 46-10fatigue stress concentration, 46-9, 46-10form, gear, 52-13fouling, 36-17, 36-17friction, Darcy, A-32A-35gage, 62-8, 62-8heat removal efficiency, 31-2heat transfer, 36-22impact, 16-4integrating, 10-2interference, 31-5joint quality, 16-10LMTD, 36-14load, 27-15loading, 31-9 magnification, 58-10, 58-12normal shock, 26-9nut, 51-12of evaporization, 27-4of safety, 15-11, 15-12, 50-1output, 27-16performance, 38-10performance rating, 61-16phase, 67-7piping geometry, 17-13plant, 27-15power, 67-7, 67-8reheat, 28-6sensible heat, 38-6service, 40-4, 56-7 (ftn), 67-11service, gear drive, 52-11service, V-belt, 52-16shading, 31-2shape, 34-20, 34-21, 37-2, 37-2, 37-4side friction, 56-21stress concentration, 49-4, A-121
press fit, 51-8stripping, 66-40surface finish, 46-10transmission, 26-18transverse sensitivity, 62-8use, 27-16utilization, queue, 61-7velocity of approach, 17-23Wahl, 52-5water hammer, 19-3
Factorial, 3-2, 32-2 (ftn)Factors, conversion, A-1A-6, inside front
coverFactors versus strength, 46-16Factory
cost, 69-32, 69-36 loading, 61-15
Failure, 11-3brittle, 46-13cup-and-cone, 46-4line, 50-6mean time to, 11-7, 61-9mode and effect analysis, 61-27sudden, 61-11theory, 50-1
Failures, mean time between, 61-9Faith of an engineer, 71-1Falling mass energy, 23-3 (ex)Family, chemical, 21-2
Fanaxial flow, 20-3boost, 22-16centrifugal, 20-3curve, 20-5duct, 20-3efficiency, total, 20-4homologous, 20-9law, 20-8non-overloading, 20-4paddle wheel, 20-4power, 20-4propeller, 20-3radial, 20-4radial tip, 20-4rating table, 20-5shaving wheel, 20-4similarity, 20-9specific speed, 20-4squirrel cage, 20-3straight-blade, 20-4tubeaxial, 20-3vaneaxial, 20-3
Fanning friction factor, 17-5 (ftn), 26-15, 26-18, 36-4 (ftn)
Fanno flow, 26-15, A-86Fan similarity equations, 20-9Faraday, 67-2Far-field, 68-6Fastener, 51-8, 51-16Fast Fourier transform, 9-7Fatigue
corrosion, 21-12cumulative, 50-7diagram, 50-7 (ftn)failure, 46-8interaction formula, 50-7life, 46-9loading, spring, 52-4notch factor, 46-10notch sensitivity, 46-10ratio, 46-9strength, 46-9stress concentration, 49-5stress concentration factor, 46-10test, 46-8
Fault, 61-9-tolerant system, 61-9-tree analysis, 61-27
Feasible region, 61-12Feedback, 60-4
gain, 60-4negative, 60-4positive, 60-4ratio, 60-4transfer function, 60-4
Feeder, dry bulk solid, 64-5, 64-6Feed main, 65-2Feedwater
boiler, 21-15, 21-16heater, 27-13heater, closed, 36-14 (ftn)
Fee structure, 70-4Fenestration, 41-2 (ftn)Ferrimagnetic material, 45-18
M E C H A N I C A L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-16
Italicized page numbers represent sources of data in tables, figures, and appendices.
I N D E X I-17
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
Ferrispinel, 45-18Ferrite, 45-18, 47-4, 47-6Ferritic stainless steel, 21-11 (ftn), 45-8Ferroelectric, 45-18FFT (see Fast Fourier transform)Fiber
-nickel-cadmium battery, 31-10-strengthened, 45-19, 45-20
Fiber core, wire rope, 64-2Fiberglass, 45-19, 66-5Fictive temperature, 45-17Fiduciary responsibility, 70-2Figure of merit, 31-9File hardness, 46-13Filler, 45-13Fillet weld, 51-13Fill, tower, 38-11Film
amorphous, 31-4boiling, 35-10coefficient, 34-6, 35-2
air, 35-5, 40-3combined, 34-17evaporization, water, 35-11natural, 35-2total, 35-11
Reynolds number, 35-9temperature, 35-3, 36-3
Filming amine, 21-15Filmwise condensation, 35-8Filter, 60-10
air, 39-5hydraulic, 19-5ratio, 66-24
Filtering velocity, 66-24Fin, 34-16 to 34-18 (see also type)
density, 29-20effectiveness, 34-16efficiency, 34-16, 34-17length, corrected, 34-18-tube exchanger, 36-13
Final value, 60-7Fines (coal), 22-4Finish, surface, 2-4, 2-4, 46-9
factor, 46-10Finite series, 3-11Fire
damper, 20-18protection system, 65-1-resistant fluid, 19-2-tube boiler, 27-4 (ftn)
Firm capacity, 27-15First
critical back-pressure ratio, 26-13derivative, 8-1-in, first-out, 69-37law of thermodynamics, 23-2 (ftn), 25-4,
25-5moment of a function, 9-6moment of area, 44-5, 48-2-order, 10-3-order, linear, 10-2
Fitinterference, 51-5
press, 51-5shrink, 51-5
Fittingdivided flow, 20-16equivalent length, A-37, A-131friction loss, duct, 20-14screwed, 17-12 (ftn)threaded, 17-12 (ftn)
Fixedasset, 69-34carbon, 22-4-charge problem, 61-13cost, 69-31-end beam, 44-1, 44-6-end moment, 44-6-orifice desuperheater, 27-13-point iteration, 13-2pulley, 43-11vector, 5-1 (ftn)
Flameblow-off, 27-3hardening, 47-10temperature, 22-15, 66-13welding, 63-12
Flange, 48-4stiffener, 49-18straight, 53-4
Flangedhood, 39-4joint, 53-14
Flank, tooth, 52-10Flap, 17-33Flare, 66-11, 66-34Flash, 63-8
-back, 27-3evaporator, 27-14 (ftn)point, 22-5 (ftn)steam cycle, 31-7tank, 27-14 (ftn), 31-7
Flashing, 27-13, 27-14 (ftn)Flat
belt drive, 52-15coil spring, 52-9 (ftn)-faced follower, 57-10friction, 56-6plate, 51-17
collector, 31-2evaporation, 35-11film coefficient, 35-6flow over, 36-3, 36-4uniform pressure, 51-18
spring, 52-10Flexible hydraulic hose, 19-3Flexural stress, 49-10Float, 61-3Floating
action control, 42-5-head heat exchanger, 36-11object, 15-15, 15-16
Flocculation, 66-41Floodable material, 64-5Flooding, 66-22, 66-40
velocity, 66-22Flow
adiabatic, with friction, 26-15
annular, 36-8around cylinder, 17-36choked, 26-4coefficient of, 17-13, 17-24coefficient, orifice plate, 17-25coefficient, valve, 17-13Couette, 36-3 (ftn)critical, 16-8curve, 46-5diagram, cash, A-137energy, 16-2, 23-3, 24-6, 25-6equalization, 66-41Fanno, 26-15frictionless diabatic, 26-19isentropic, 26-3isothermal, with friction, 26-17laminar, 16-7measurement, 17-20 nozzle, 17-25number, 64-12of water through schedule-40 pipe, A-36over flat plate, 17-37rate, 20-3Rayleigh, 26-19shear, 51-15streamline, 16-7turbulent, 16-8, 17-5uniform, 16-9viscous, 16-7work, 23-3, 25-6
Fluctuation, coefficient of, 57-2Flue gas, 22-11, 66-4 (ftn)
calculations, 22-12cleanup, 66-24desulfurization, 22-5, 66-22dew point, 22-13recirculation, 66-27temperature, 22-13
Fluidcapacitance, 59-7compressible, 26-1cryogenic, 24-2 (ftn)density, 14-3heat transfer, 31-2, 36-22height equivalent, 15-5 (tbl)hydraulic, 19-2hydraulic fire-resistant, 19-2ideal, 14-2inductance, 59-7inertance, 59-7mass, 15-19Newtonian, 14-2, 14-6power, 19-1
pump, 19-4symbols, 19-1, A-38
pressure, 14-2, 15-14real, 14-2resistance coefficient, 59-7rotating, 57-3shear stress, 14-6system, modeling, 59-7transfer, 31-3type, 14-2velocity, maximum, 17-3viscosity type, 14-6
Ind
ex
Italicized page numbers represent sources of data in tables, figures, and appendices.
Fluidized-bedboiler, 66-28combustion, 22-5, 27-3, 27-4combustor, 66-27
Fluorinated hydrocarbon, 33-4Fluoroplastic, 45-15Fluoropolymer, 45-15, 45-16Flux
geometric, 37-4heat, 35-3, 36-5luminous, 68-1welding, 63-12
Fly ash, 22-3Flywheel, 57-1, 57-3
advanced, material, 57-4effect, 57-1effect, thermal, 40-5rotor, 57-3
F-method, 36-20Focus, 7-10Focusing collector, 31-2Follower, 57-10
offset, 57-11Footcandle, 61-30 (ftn)Foot pulley, 64-9Force, 56-2 (see also type)
amplification, 43-10central field, 56-17centrifugal, 56-5centripetal, 56-5concentrated, 43-2-couple system, 43-4cutting, 63-2external, 43-2gear, 52-12, 52-13inertial, 56-5internal, 43-2majeure, 70-3normal, 56-6ormal, on a dam, 15-12number, 64-12on a dam, 15-11on a blade, jet, 17-29on a pipe bend, 17-30on-plate, jet, 17-28tractive, 56-20van der Waals, 24-19velocity-dependent, 56-17work performed by, 9-4
Forcedconvection, 36-2draft, 22-16draft tower, 38-11outages, mean time between, 61-9response, 60-2vibration, 58-2, 58-10
Forcingfrequency, 58-10function, 10-1, 10-4, 58-10, 59-2
Forebay, 18-20Forecasting, 69-41Forging, 63-7
temperature, 63-7Form
cis, 3-8
drag, 17-34exponential, 3-8factor, gear, 52-13Newton, 13-3 (ftn)operational (log), 3-5phasor, 3-8polar, 3-8rectangular, 3-7trigonometric, 3-7
Formality, 21-7Formation
enthalpy of, 21-9, 21-10heat of, 21-9
Forming, explosive, 63-11Formula
Babcock, 17-9Barlow, 19-3Boardman, 19-3double-angle, 6-4Dulongs, 22-14half-angle, 6-4J. B. Johnson, 51-3Lam, 19-3Maney, 51-12Panhandle, 17-9parabolic column, 51-3PLAN, 29-8secant, 51-3Spitzglass, 17-9two-angle, 6-4weight, 21-4Weymouth, 27-9
Forward-curved fan, 20-3gain, 60-4transfer function, 60-4
Fouling, 17-12, 36-17factor, 36-17
Fourieranalysis, 9-6inversion, 9-6number, 1-9 (tbl), 34-4series, 9-6transform, fast, 9-7waveforms, 9-7
Fourierslaw, 34-5theorem, 9-6
Four-strokecycle, 29-2diesel, 29-10
Fractionbleed, 27-14gravimetric, 21-5, 22-2, 24-17mass, 24-17mole, 14-6, 22-2, 24-17partial, 3-6, 9-2partial pressure, 22-2submerged, 15-15volumetric, 22-2, 24-17
Fractureappearance transition temperature, 46-14strength, 46-3transition plastic temperature, 46-14
Frame, 43-12
Frame, inertial reference, 55-9Francis turbine, 18-22Fraud, 70-2 (ftn), 70-6Fraudulent act, 70-6Free
area, 20-24-body diagram, 43-8, 43-20convection, 35-2field, 68-5-machining steel, 45-5, 63-4moment, 43-4, 43-9-piston Stirling engine, 29-12protection, 42-2pulley, 43-11rotation, 58-5-stream temperature, 36-2surface, 16-6vibration, 58-2
Freedom, degree of, 47-3, 55-2, 58-19Freeze stat, 42-2Freezing point, 47-1 (ftn), 47-2Freon, 66-8
replacement, 66-8Frequency
analysis, 9-7 (ftn), 60-11angular, 58-3crossover, 60-11cut-off, 60-10damped, 58-9, 60-2distribution, 11-9electrical, 67-4forcing, 58-10fundamental, spring, 52-8linear, 58-3 natural, 9-6, 57-12, 58-3, 60-9polygon, 11-9response, 60-2 (ftn), 60-10, 60-11
Fresnel integral function, 9-8 (ftn)Fretting corrosion, 21-12Friction, 56-6 (see also type)
belt, 56-7brake, 62-12coefficient of, 15-12, 56-6, 56-7factor
chart, Moody, 17-6, 17-6chart, Darcy, 17-5, A-32A-35Fanning, 17-5 (ftn), 26-15, 26-18, 36-4
(ftn)flat, 56-6head, 18-5head loss, 17-4internal, angle, 46-7loss
air duct, 20-12, 20-13duct, 20-11, 20-14gas, 17-9hydraulic power, 19-4slurry, 17-11sprinkler, 65-7stack, 22-18steam, 17-9water, schedule-40 pipe, A-36
power, 18-8, 29-3power, fan, 20-5pressure, 20-11
M E C H A N I C A L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-18
Italicized page numbers represent sources of data in tables, figures, and appendices.
I N D E X I-19
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
sideways, 56-21turbulent flow, 17-7
Frictionlessdiabatic flow, 26-19surface, 43-7
Fried heat transfer efficiency factor, 36-22Froude number, 1-9 (tbl), 17-40Fuel
-air ratio, 29-3-bound NOx, 66-13cell, 31-7 (see also type)consumption
furnace, 40-6specific, 29-3vehicular, 56-20
diesel, 22-7economy, 56-21heat of combustion, A-43-injection, 29-2, 29-3oil, 22-5, 22-6oxygenated, 66-8properties, 22-6refuse-derived, 66-32switching, 66-18utilization, 29-22waste, 22-4
Fugitivedust, 66-9emission, 66-10, 66-35
Full-arc admission, 27-16-bridge, 62-11-load value, motor, 67-11-wave symmetry, 9-7 (tbl)-wrap, 64-3
Fullyamortized bond, 69-29 (ftn)developed, 36-5, 36-7 (ftn)turbulent flow, 16-8
Fume exhaust hood, 39-4Function
circular transcendental, 6-2error, 9-8, 11-6first moment of, 9-6forcing, 10-1, 58-10hazard, 11-7holomorphic, 8-1hyperbolic, 6-4integral, 9-8
cosine, 9-8elliptic, 9-8 (ftn)exponential, 9-8Fresnel, 9-8 (ftn)gamma, 9-8 (ftn)sine, 9-8
objective, 61-12of an angle, 6-2of related angles, 6-3 path, 25-4performance, 11-8point, 25-4, 25-7regular, 8-1response, 59-1second moment of a, 9-6singularity, 59-3
symmetrical, 7-4transfer, 60-3trigonometric, 6-2unit impulse, 10-6unit step, 10-6vector, 5-5
Functionality, 45-15Functions
integral of combination, 9-2of related angles, 6-3
Fundamentalconstants, inside front coverfrequency, spring, 52-8speed, shaft, 58-15theorem of calculus, 9-4
Fundamentals of Engineering exam, 72-1,72-3
Funnel-flow bin, 64-5Furnace, 27-3, 40-5, 40-6
arc, 45-5blast, 45-2efficiency, 22-16fluidized-bed, 27-3induction, 45-5pulverized-coal, 27-3sorbent-injection, 22-5reverberatory, 45-10
Fusionheat of, 47-2metals, 63-11
Future worth, 69-5F-waste, 66-3
GGage
factor, 62-8, 62-8pressure, 14-2, 15-2, 15-6 (ftn)strain, 62-8, 62-9, 62-13
Gaincharacteristic, 60-10crossover, 60-11 crossover point, 60-10feedback, 60-4forward, 60-4heat, 41-1margin, 60-11overall, 60-4-sharing plan, 61-20
Galvanicaction, 21-11series, 21-11, 21-12
Galvanizing, 63-14Gamma
integral function, 9-8 (ftn)-iron, 47-4
Gangue, 45-2Garbage, 22-4, 66-12Gas
absorption, 66-21, 66-22compressor, 32-1constant, specific, 24-14constant, universal, 24-13, 24-14desorption, 66-22 (ftn)-diesel engine, 29-10dynamics, 26-1
friction loss, 17-9greenhouse, 66-11high velocity, 26-1ideal, 24-2incompressible, 16-3 (ftn)landfill, 66-11liquefied petroleum, 22-7manufactured, 22-7 (ftn)mixture, 24-2, 24-17natural, 22-11noble, 21-2noncondensing, 27-11perfect, 24-15, 25-7process, metal arc welding, 63-12properties, 24-15 (tbl)real, 24-2specific heat, 22-2, 24-20synthetic, 22-5, 22-8table, 24-10turbine, 29-14welding, 63-11
Gasification process, 29-15, 66-16Gasifier, 29-14Gasket blow-out, 53-14Gasohol, 22-7Gasoline, 22-6, 66-10, 66-10Gate, 63-8
blast, 20-18valve, 16-11
Gaugediaphragm, 15-2draft, 15-3 (ftn)pressure, 15-2 (see also Gage pressure)sheet metal, A-123strain, 15-2wire, A-123
Gauss hypergeometric equation, 10-5Gaussian distribution, 11-6Gauss-Jordan elimination, 4-2Gear (see also type)
bevel, 52-14epicyclic, 57-6, A-126helical, 52-12hypoid, 52-14involute, 52-11motor, 18-10, 67-12 (ftn)oil, 52-19ratio, 57-5set, 52-11, 57-4spur, 52-10train, 57-4versus pinion, 52-11worm, 52-14
gees, 56-4 (ftn)General
contractor, 70-4damages, 70-7expense, 69-32flow equation, 26-2ledger, 69-33partner, 70-1term, 3-10triangle, 6-5
Generating line, 52-11Generation, internal heat, 34-14
Ind
ex
Italicized page numbers represent sources of data in tables, figures, and appendices.
Generator, 67-10 (ftn), 67-14-absorber-heat-exchanger cycle, 33-7electrical, 27-15magnetohydrodynamics, 31-8pollution, 66-4steam, 27-4thermionic, 31-9thermoelectric, 31-9
Genotoxin, 61-27Geometric
factor, 37-2flux, 37-4jerk, 57-10mean, 11-10mean radius, 57-3sequence, 3-11series, 3-11similarity, 17-38
Geopressured source, 31-7 (ftn)Geostationary orbit, 56-18Geothermal energy, 31-7Gerber line, 50-6Geysers, 31-7g-force, 56-4 (ftn)Gibbs
phase rule, 47-3theorem, 24-18
Girth seam, 53-6 (ftn)Glass, 45-17, 45-18
common, 45-17fiber types 45-19transition temperature, 45-17
Glauconite, 21-14Global warming, 66-11Globe valve, 16-11Glow plug, 29-10 (ftn)Golf ball, 17-35Goodman line, 50-6Governing, 27-16Government bronze, 45-12Grade
bolt, 51-8line, 16-9, 17-15resistance, 56-19roadway, 56-19steel, 19-3 (ftn)viscosity, 52-19
Gradientcash flow, 69-9roadway, 56-19search, 61-12series cash flow, 69-4temperature, 34-5thermal, 34-5vector, 8-5velocity, 14-6
Graetz number, 1-9 (tbl), 36-2Grain
growth stage, 47-9properties, 47-8size, 47-8
Grand sensible heat ratio, 38-6, 41-4Granular activated carbon, 66-23Graphite fiber, 45-20Graphitization, 45-9
Grashof number, 1-9 (tbl), 35-2Gravimetric
analysis, 22-2fraction 21-5, 22-2, 24-17
Gravitationalconstant, 1-2, 56-18energy, 23-2
Gravitation, Newtons law of, 56-18Gravity
acceleration of, 1-2center of, 54-1chimneys, 22-16 (ftn)dam, 15-11 (ftn)damper, 20-18die casting, 63-9drop hammers, 63-7molding, 63-9on earth, 1-2specific, 14-4
Graybody, 37-3cast iron, 45-9, 47-8
Greek alphabet, 3-1Greenhouse
effect, 31-2gas, 66-11
Green sand, 21-14, 63-8Gridded system, 65-1Grille, 20-18, 20-24Grinding, 63-5, 64-7Grip, 51-11Grit, 63-5 (tbl), 66-41Gross
electrical output, 27-1heating value, 22-14
Ground slab, 40-3Group
chemical, 21-2dimensionless, 1-7, 1-9 (tbl)X steel, 45-7
Growth, exponential, 10-9Guard, 61-30Guide vane control, compressor, 32-2Gyration, radius of, 48-6, 54-2, A-117
HHagen-Poiseuille equation, 17-7Half
-angle formula, 6-4-bridge, 62-11-power point, 60-10-wave symmetry, 7-4, 9-7 (tbl)-wrap, 64-3-year convention, 69-3
Hall effect, 31-8 (ftn)Hammer
forging, 63-7water, 17-31
Hardmaterial, 46-16steel, 47-7surfacing, 63-14
Hardenability test, 47-7Hardening
age, 45-8 (ftn), 45-11, 47-9
aluminum, 45-12of non-allotropic alloys, 47-9precipitation, 45-11, 47-9strain, 46-4surface, 47-10
Hardnesscarbonate, 21-14correlations, 46-14noncarbonate, 21-14number, 46-12permanent, 21-14red, 63-4 red/hot, 45-7 (ftn)scale, Moh, 46-12steel, 47-7steel maximum, 47-7temporary, 21-14test, 46-12, 46-13total, 21-14water, 21-13
Hardwood, 45-16Hardy-Cross method, 17-20, 49-17Harmonic, 58-18
cam profile, 57-10frequency, fundamental, 52-8motion, simple, 58-2, 58-6sequence, 3-11series, 3-11terms, 9-6test, vibration, 58-20
Hastelloy, 45-13Haulage rope, 64-1Hazard
analysis, 61-27assessment by risk analysis, 61-27 (ftn)function, 11-7
Hazardousair pollutant, 66-3material, 66-19waste, 66-3, 66-20, 66-31
Hazen-Williamsconstant, A-31constant, sprinkler, 65-7equation, 17-7, 65-7
Hazmat, 66-19Head, 15-4 (ftn), 18-5
absorption (boiler), 27-4acceleration, 18-2, 18-3added, 17-14adiabatic, 32-5atmospheric, 18-5 (ftn)churn, 18-5effective, 17-16, 18-5end, 29-2extracted, 17-14friction, 18-5impact, 16-5loss, 17-4
effect of viscosity, 17-10slurry, 17-11
overload, 18-15polytropic, 32-5pressure, 18-5 (ftn)pressure vessel, 53-4pulley, 64-9
M E C H A N I C A L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-20
Italicized page numbers represent sources of data in tables, figures, and appendices.
I N D E X I-21
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
rated, 18-15shutoff, 18-15stack effect, 22-17static discharge, 18-5static suction, 18-5total, 16-3total dynamic, 18-6vapor pressure, 18-5 (ftn)velocity, 18-5
Header-type feedwater heater, 27-14Head-on machine, 31-4Health risk assessment, 61-27Heat
capacity, 24-7content, 24-5-driven refrigeration cycle, 33-6duty, 36-14exchanger, 27-10, 36-10 (see also type)exchanger designations, TEMA, 36-11exchanger effectiveness, 36-20, A-104,
A-105flow, transient, A-92A-97flux, 35-3, 36-5gain, 40-4, 41-1generation, occupant, 39-3graphically finding, 25-4latent, 24-8, 24-9latent, water, 24-9load, 27-11, 36-14, 38-12metabolic, 39-3of combustion, 22-14, A-43of formation, 21-9of fusion, 47-2of steel, 45-4pipe, 34-20pump, 33-2rate, 27-5, 28-2ratio, sensible, 41-3recovery steam generator, 29-20rejector, 29-12release rate, 66-32removal efficiency factor, 31-2reservoir, 25-10sensible, 24-8specific, 24-7, 24-8, 34-3specific, gas, 24-20tape, 34-20total, 24-5tracing, 34-20transfer
coefficient, 35-2, 36-15, 40-2coefficient, convective, 34-6coefficient, overall, 36-15coefficient, radiant, 37-4factor, 36-22fluid, 31-2, 36-22unit, 36-20 (ftn)
transmittance, overall, 34-6treatment, aluminum, 45-12treatment, cast iron, 47-8
Heater (see also type)air, 27-15feedwater, 27-13
Heatingdistrict, 29-21
load, 40-1sensible, 38-8space, 29-21, 33-2value, 22-14with dehumidification, 38-11with humidification, 38-10
Heats, ratio of specific, 26-3Heavy
damping, 58-9-duty coil, 36-13hydrogen, 21-2metal, 21-2
Heel (dam), 15-11Height, 2-2
compressed, 52-5critical, pressure vessel, 53-5 (ftn)of packing, 66-40of transfer unit, 66-40solid, 52-5waviness, 2-4
Heisler chart, 34-13, A-95A-97Helical
compression spring, 52-4extension spring, 52-8gear, 52-12torsion spring, 52-9
Heliostat, 31-3Helix, 7-12, 7-12
angle, 52-12direction, 52-5pitch, 7-12thread angle, 51-13
Hematite, 45-2Henrys law, 21-7, 66-39
constant, 66-39HEPA (see High-efficiency particulate
arrester)Hess law, 21-9Hexadecimal system, 12-2HFC-134a, A-64, A-81Hideout, 21-11Hierarchy, need, 61-28High
-alloy austenitic stainless steel, 45-9-alloy steel, 45-5-carbon steel, 45-5-efficiency particulate arrester, 39-6energy rate forming, 63-11-pass filter, 60-10-performance power system, 29-22-pressure turbine, 27-8-side equipment, 33-7-speed steel, 63-4-strength steel, 45-5-temperature advanced furnace, 29-22-temperature reservoir, 25-10velocity gas, 26-1-velocity system, 20-17
Higher heating value, 22-14Hilbert-Morgan equation, 36-8Hinge, 43-10, 49-18Histogram, 11-8Hobby, 69-12 (ftn)Hoisting cable, 64-1Hole, tap, 15-2
Holographic testing, 46-11Holomorphic function, 8-1Holonomic coordinate, 55-2Homogeneous
circuits, law of, 62-7differential equation, 10-1, 10-2function, 59-2linear equation, 3-7unit system, 1-2
Homologousfan, 20-9pump, 18-12, 18-18
Honing, 63-5, 63-14Hood
control velocity, 39-4fume exhaust, 39-4
Hookes law, 46-2, 49-2, 52-2Hoop stress, 51-3, 51-4Hopper, 64-5Horizon, 69-3Horizontal
-axis machine, 31-4shear, 49-10
Horsepower, 23-5aero, 17-34air, 20-4boiler, 22-16, 27-4conversions, 23-5flywheels, 57-2hydraulic, 17-14, 18-6, 18-7rotating members, 52-10shaft, 51-13
Hose, hydraulic, 19-2Host ingredient, 47-1Hot
dry rock source, 31-7 (ftn)-end drive, 29-14hardness, 45-7 (ftn)reserve, 27-15well, 27-11, 27-14windbox, 29-23-wire anemometer, 17-22working, 47-9, 63-6 (tbl), 63-7
Hourglass failure, 46-7 (ftn)Hub, 51-6, 57-2Human
error, 62-2factors, 61-29
Humectant, 66-10 (ftn)Humidification, 38-8, 39-2
efficiency, 38-7load, 38-8steam, 38-10
Humidistat, 42-1Humidity, 38-2Hurwitz
criterion, 60-12test, 60-12
HVAC, 42-1Hybrid throttle pressure operation, 27-16
(ftn)Hydrashaker, 58-21Hydrated molecule, 21-4Hydration, 21-4, 21-7
Ind
ex
Italicized page numbers represent sources of data in tables, figures, and appendices.
Hydraulicaccumulator exponents, 19-6brake, 52-16 (ftn)control valve, 19-2cyclone, 64-10cylinder, 19-6diameter, 16-6, 17-9, 20-14 (ftn), 36-8fluid, 19-2grade line, 16-9, 17-15horsepower, 17-14, 18-6, 18-7jack, 15-14line materials, 19-2loading, 66-41power, 18-6, 19-1press, 15-14pump, 19-4radius, 7-1, 16-6, A-21ram, 15-14, 19-6
Hydraulics, 17-2Hydrocarbon, 22-1
NPSHR, 18-20specific gravity, A-18vapor pressure, A-17
Hydrochloric acid, 66-4Hydroclone, 64-10Hydrocyclone, 64-10Hydrodynamics, 17-2Hydrogen
available, 22-3damage, 21-11embrittlement, 21-11, 53-4heavy, 21-2peroxide, 45-13 (ftn)
Hydrogenation, 66-16Hydrometer, 14-4Hydro-pneumatic accumulator, 19-5Hydrostatic
head, 15-4moment, 15-11paradox, 15-4pressure (see Pressure)pressure test, 53-17resultant, 15-6torque, 15-11
Hydrostatics, 17-2Hydrothermal source, 31-7 (ftn)Hygroscopic, 39-2Hygrostat, 42-1Hyperbola, 7-11, 7-11, 7-12Hyperbolic
function, 6-4derivative, 8-2integral, 9-2
identity, 6-5radian, 6-5
Hypereutectoid steel, 47-5Hypergeometric
distribution, 11-5equation, Gauss, 10-5
Hypersonic, 14-14Hypocycloid, 7-3Hypoeutectic cast iron, 47-5Hypoeutectoid steel, 47-5Hypoid gear, 52-14Hypothesis, 21-4, 52-2
Hypothesis test, 11-12Hysteresis, 62-5 (ftn)
IIce point, 62-6Ideal
combustion, 22-9fluid, 14-2gas, 24-2gas, property, 24-15machine, 23-6radiation, 37-1reaction, 21-6spring, 52-2yield, 21-7
Idempotent law, 11-1Identity
hyperbolic, 6-5laws, sets of, 11-1logarithm, 3-5matrix, 4-1trigonometric, 6-26-5, 6-3
Idler gear, 57-4Ignitable substance, 66-3Ignition, 29-2Ignition temperature, 22-8Illegitimate error, 62-2Illuminance, 68-2
recommended, 68-3Illumination, 68-2Imaginary number, 3-1Immiscible liquid, 15-12Impact, 56-15
central, 56-16direct, 56-16eccentric, 56-16elastic, 56-15endoergic, 56-15energy, 16-4energy test, 46-13factor, 16-4head, 16-5inelastic, 56-15loading, 49-7noise, 68-3oblique, 56-16plastic, 56-15test, pressure vessel, 53-5, 53-6tube, 16-4
Impactor forging, 63-8Impedance, 67-5Impeller, 18-4, 18-11, 64-12Impending motion, 56-6Implicit differentiation, 8-4Impulse, 56-12
fluid, 17-27function, 10-6-momentum principle, 17-26, 56-13, 56-14noise, 68-3shock, 58-19specific, 26-8total, 26-8turbine, 17-29, 18-20, 18-21, 27-8unit, 59-2
Impulsive force, 56-13
Incentive plan, wage, 61-20Inches of water gage, 20-2Incineration, 22-4
liquid, 66-31MSW, 66-31sludge, 66-34soil, 66-34
Incinerator, 66-28 to 66-31Inclined plane, 56-9Income tax, 69-24Incomplete combustion, 22-11Incompressible gas, 16-3 (ftn)Inconel, 45-13Inconsistent system, 3-7Incremental
analysis, 69-17cost, 69-31
Indefinite integral, 9-1 (ftn), 9-1, 9-2, 9-4, A-10
Independentevent, 11-3variable, 3-2
Indeterminacy, degree of, 44-1Indeterminate
statics, 44-1truss, 44-6
Indexroughness height, 2-4spring, 52-2 (ftn), 52-4viscosity, 14-9, 19-2 (ftn), A-20
Indicatedpower, 29-3properties, 29-3specific fuel consumption, 29-3
Indicatorcard, 29-8drawing, 29-8
Indifference quality level, 61-25Indirect
coal-fired turbine, 29-15-condensing tower, 38-13injection, 29-3manufacturing expense, 69-32
Indoor design condition, 39-2Induced
draft, 22-16drag, 17-34
Inductance, 59-7, 67-6Induction
furnace, 45-5hardening, 47-10motor, 18-9, 67-12ratio, 20-24reactance, 67-6transducer, 62-4
Inductor, 67-6Industrial exemption, 72-1Inelastic
impact, 56-15strain, 46-2
Inertance, fluid, 59-7Inert gas welding, 63-12Inertia, 54-1
area moment of, 48-3, A-117mass moment of, 54-2, A-125
M E C H A N I C A L E N G I N E E R I N G R E F E R E N C E M A N U A L
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
I-22
Italicized page numbers represent sources of data in tables, figures, and appendices.
I N D E X I-23
P R O F E S S I O N A L P U B L I C A T I O N S , I N C .
polar moment of, 48-5, 51-13principal moment of, 48-7product of, 48-6, 54-2resistance, vehicle, 56-19thermal, 40-5vector, 54-1, 56-5 (ftn)
Inertialforce, 54-1, 56-5frame, 55-9resisting force, vehicle, 56-19separator, 66-26
Infant mortality, 11-7, 61-11Infiltration, 39-1, 39-2
energy to warm, 40-4loss, 40-1
Infinite series, 3-11 (ftn)Inflation, 69-39Inflection point, 7-2, 8-2, 49-16Influence diagram, 43-10Infrared
incineration, 66-31testing, 46-11
Initialcondition, 58-4tension, spring, 52-8value, 9-3, 10-1, 60-7
Initiator, 45-15Injection
molding, 63-10sorbent, 66-38steam, 29-14well, 66-28
Injured party, 70-5Inlet
pressure, net positive, 18-2 (ftn)vane, 20-3
Inline sampling, 21-11Innovative method, 66-17Insensitivity, 11-13, 62-2Insertion loss, 68-9Inside design temperature, 41-1Insolation, 31-2Instability, 60-12, 62-2Instantaneous
center, 55-12, 55-13cooling load, 41-2heat gain, 41-1
Instrument, coefficient of, 17-22Insulated
pipe, 34-8tip, 34-17
Insulating properties, building materials, A-111
Insulationpipe, 34-9thermal properties, 34-10thickness, critical, 34-10
Insurance, 70-7Intake stroke, 29-2Intangible property, 69-20 (ftn)Integer programming, 61-12Integral
convolution, 10-7cosine function, 9-8definite, 9-1 (ftn), 9-4
double, 9-3elliptic function, 9-8 (ftn)exponential function, 9-8Fresnel function, 9-8 (ftn)gamma function, 9-8 (ftn)indefinite, 9-1, 9-4, A-10of combination of functions, 9-2of hyperbolic function, 9-2of transcendental function, 9-1reinforcement, 53-12sine function, 9-8triple, 9-3
Integrand, 9-1Integrated cycle, 29-22Integrating factor, 10-2Integration, 9-1
by parts, 9-2by separation of terms, 9-3constant of, 9-1, 10-1
Intensifier, 32-2Intensity
luminous, 68-2sound, 68-4
Intensive property, 24-4Interaction fa