Author Index Abdulmuin M Z Ladommatos N 203-211 Aldis C A Loveday DL 165-176 Azlan A McDonald J R Bannister R L Maiti R Beattie W C Masjuki HH 47-53,131-138 Mendis KJS 203-211,449-462 363-371 105-120 279-293 NewbyRA 351-362 Ntoko N M 233-236 Daragheh M Parker G J 121-129 Darkwa K Prasad A 373-382 Dasgupta K Pullen K 263-272 Davies DG Desideri U Raghunathan S Ramsay B Ricard B Robson A Rossini C Galbraith R A McD Georgin E Godichon A 373-382 477-479 Soundranayagam § ..............cescesesSeOIe-e3e 1e8e,e3e 1e9e-e3e2e7 Griffiths A J 383-395 Stokes P R Gundavelli S 373-382 Stone CR 203-2 11,449-462 Stosié N ...... Rieoniinnentasebdinndahlanensiiaomnbaptenrinieitaaaaniamadde 75-93 35-45,383-395 165-176 Karlsson T Kazimierski Z Kelkar U M Kirke B K Komori S Yedidiah S Kuznetsov A V Young B W © IMechE 1996 Proc Instn Mech Engrs Vol 210 . Subject Index . Aerodynamic analySis ..............scsccssssscssssseessesseseeseees 431-447 Combined heat and power ..............:::ccceseeeeeee 15-24,25-33 Aerodynamic design, quasi-three-dimensional ......... 149-156 Combustion, fluidized bed ..............cccececceeeeeeeeeeeeee 351-362 Aerodynamic model, three-dimensional ...................... 65-74 Combustion system, fast burn high on ENTNEOT CORE. PERS MOED RE D 65-74 COMPFESSION FatiO ...........seeeeeeeeeeeees 203-211,449-462 ALARA - see As Low As Reasonably Achievable Compressor coupling, turbine- .............ccccceeceeeeeeee 223-232 Anenometry, laser Doppler .................:.ssssssereesesees 383-395 Compressor impeller, centrifugal .................:cccceeee 463-471 As Low As Reasonably Achievable ................:s000000 335-343 Computer simulation ................ccceseeeeeseees 223-232,363-371 Asymmetric heat transfer .................:cccscsesesssesseeceeeere 55-63 Contra-rotating Wells turbine ..................:cccseseeeeeee 431-447 PE aieb lichorvinch vias cade wela tcuda bantsabecaMbebonooaamarsedted 413-421 Convection coefficients, Surface ..............ceseeeeceeeee 165-176 PIED vcs son~<cni.sscuiiensvcinetspbuaiandactniesenbeoecie 237-244 RN IID i cicikccritscteveyemiesdncevessacrenereseasecnssussbiie 55-63 PEERY CIO onan esescocssinasersresheninosensedaroetsnss 121-129 IN 5 si carep inesiccdotneenasesssconincssvesconeseveossial 319-327 RE INI ceniiaccsscuennreasiorchmerssoernosescvecstebinislluiesie 55-63 BATNEEC - see Best Available Techniques TaN si css icvnvnssocossonssdctenstndacevveetenl 263-272 Not Entailing Excessive Cost Couplings, disc type Magnetic ...........ccccceeeeseeeeeee 263-272 Bernoulli-with-loss equation ..............c:ccccsesseseeeseeeeee 121-129 Best Available Techniques Not Entailing Decision analysis Modelling ...............ccccceseseseseeeees 15-24 TUR sites incsnnsiieiionk dasdicprisbiartejatersovl 335-343 Design, blade geometry ............:.scsscesseseseseesseereeeees 463-471 Best Practicable Environmental Option. .................... 335-343 Design, history fluid power systems ..............sc000e 105-120 Biomass stoves, fixed-bed ..............:.cccccsceseseeseseseeseseeee 35-45 Design, hydraulic ram PUMP ..........:ccscseeeseeeeeeereees 295-303 BUMP WONRIND CRIS oo. scs ca ceceivecnceocasccncncesocees 431-447 Design, quasi-three-dimensional aerodynamic .......... 149-156 NINN sc Seveseircve basis aisosiionisuenjnediedsnginadiiears 319-327 I, UIE TID ics ceecccnsceesincasneressaconscesascsstosahadinne 65-74 RIN A WON oon sckiscinassisenentarevcenionatoninnenapeseisied 65-74 Design, spiral volute CaSingS ............cccccsceseeeeeeeeeees 149-156 IN iinkiininshiiceonatiovnevaritenssnchowsitieerubsbvnticninn 237-244 RINT icisetiiscncchavescdiekoedaesecsivesootdscosoncadaaba 183-190 BOP GOOEY GRIND oii. onnnicvisesinceceesseseseys 463-471 III viisiecichintndtisiinisercsssnoarpintonsonsnaapiecouatne 237-244 SIE IID opis do vinsacctsieonnscuanicaccacnetvdousenitneshag 237-244 EIELANNA O TRAS 131-138 Bondgraph model ...................:0000- ETAT UEREN A RTS SE 423-429 Diesel fuel substitute, palm oil ................0.0000 ie 47-53 Boundary layer, three-dimensional .....................0000++ 463-471 Disc type magnetic COUpIINS .............:.cecceeeseeseeeeee 263-272 NI sis csctiadsideinialshinptebnsaiannsdccasicgivoniio’ 413-421 Dissipation characteristics, centrifugal pump ........... 233-236 BPEO - see Best Practicable Environmental Option Dittus-Boelter equation ...........ccccccsccceesseeeeseserseeeees 139-147 NON siscicisssncctenevchoigasionniasshoiacaacclldeseiie 449-462 Domestic scale combined heat and power .................. 25-33 I 50 ce hininseicsaeecnbashabnccissibsaninlnseswcnebions 105-120 Doppler anenometry, laser ..............:ccsccscsseseeeeseeeeees 383-395 a IIINN tichcsinin Navsuithscviongiaienrdonsaledcbilieatoncueista 165-176 PUNT Sciditbiesh tac art Nameiaein dcalap a tendhacpuernoescanenth 121-129 Buoyancy, centripetal ...............cceseeeees hcdaniiiheihsvitedatetee 55-63 INT INI iccois cesses heise chances cxssccsnesiascnssioncestute 279-293 II Disc sessecayonevcninnsuiccadahinnioninibensdissecabeit 373-382 UU esi iclsiiles ioveystcxaibs0p5p'sseabiistanbeenadtayitiioia 383-395 RIARGIOS, CHUIIIIE 5a sence ccnsesiicienscccessnsnncesseees 3-14,131-138 Emissions, nitrogen oxide .....3-14,203-211,383-395,449-462 RN INE iil sncecheinenssintcianvaneccenaicscesilithonlaciohanian 3-14 Emissions, sulphur dioxide ..............:ccccccscsceeeeeeseeeee 183-190 I MRI i sctsiestcsnasasndinpinasinisnntenjrentnilinbibbiioncgeial 3-14 Emissions, unburnt hydrocarbon ................. 203-2 11,449-462 Casings design, spiral volute ...............cccsceseeseseeeeees 149-156 RI I oc ccectacanicivecincesncsnsensvcrcanesesqsiaribiie 3-14 Centrifugal compressor impeller .................ceecceeeeee 463-471 INI lois cdiscencieciibenetinintaiasuneiaelinndiisaanitaliha 413-421 Engine, externally heated valve ...............:cccccsseseeeeeee 363-371 BO, TOME UT OE on ssnscicrecnsccnssssecscsencsccersorenss 449-462 Ca eNO snc sseisivesenisnondesnonacncusncnd 413-421 RO COINS o.oo ccesissescssevessecsnscosseccesesersseeogi 363-371 Centrifugal pump dissipation characteristics ............ 233-236 BI UNO siccccsecsccsessucasncccsoveveescogsocvenste 25-33,363-371 Comparipctal BRO yGiicy - ......ai....ss..cesecsessssessesevonceseseonseOnees cc bide ti psdstiseriendecoosecnerouavieesenal 191-202 RN: MUU oicsocisciissnscnstpeomntuecctesssucesianancnenbaiicdbions 55-63 aii hissiiscicssninbatencnxseescecosvevnracesessénsans 191-202 CHP - see Combined heat and power Epitrochoid generated orbital rotary piston CRGRT COM COCTIIORY a... iscncccsisissvepsnenacacosssiednaonss 351-362 MINED csih piatichishinissshascecnesslonorincssostmentomnlild 423-429 I, TINE i ieniccesansiiisorssnnrdinannctictnsinibhcosiaaaien 351-362 Exhaust EMISSIONS .............:.cccsscssesseeeeeeeeceeeeeeees 3-14,131-138 Ts cik eh isasnsicenacicbciiahimassicnsinniaioed 305-318,319-327 Exposure control, radiation ...............:cccseseeseeeeeeeee 335-343 Coal scoded gas jet flames ...............csniscsorserosseesssvens 373-382 Externally heated valve engine ................scscseeeeeeeeee 363-371 PRION, CRUD on. scsscsesnccesesssducsseenivovieroionbs 351-362 Coal-fired turbine cycle, indirect ...............cccccceseeeeee 351-362 Coal-fuelled combined cycles ..0..........ccscssseseseseseseeees 351-362 I i itbiiehd inane snaseiecanineitbibcenoressoecesesnnesiccoula 413-421 Coefficients, surface CONVECTION .............ccscecesesesesenees 165-176 RNIN Sc iiicestossinccncasidiibntssanaessensensecessivsivonecd 413-421 RNIN icticcisitssianapcsiyspasskecectsnonsnsnogens 25-33,203-211 Fast burn high compression ratio combustion Combined cycle, gasification .............:csscesesseeseeseeee 351-362 PI hi cisisisitssccnshecsrinactstasnsssrcanesoronts 203-211,449-462 Combined cycles, coal-fuelled ..............ccccccesesessesesees 351-362 Fault diagnosis, turbine generator ..................:.0:00000 253-261 Part A: Journal of Power and Energy © IMechE 1996 SUBJECT INDE’ 485 FBHCR - see Fast burn high compression ratio Laser Doppler anenometty ................::ccececcecesereeeeeeees 383-395 combustion system RI Bic siccitinsrcecsinncnseninennepginnpaella 203-211 Fixed-bed biomass Stoves ...........cccccsssssssesceseseeceseeceees 35-45 Eee UIE ON OID Sst ececccsviniccsintsdiieseteall 449-462 Fimo Reed qemsfier S00 VES .n2n...cncscecscisscocaceerrerecnssectece 35-45 Lift pump, Wind-driven ..............scecccesessseseeeeeeseeeneees 279-293 WRU CNS TIN sa issn ssi ciessstssinbstncvsincecennseceevis 373-382 Rist cssiacevesciigiatideisbiicesinabebetitenaisuipiantidenbediiiieill 279-293 Flames, coal seeded gas jet .:........<.csesccecessesscseserseeee 373-382 RE isibintaiiisveissvestiineniisiinipibiitctnriancdiguliaatonal 373-382 I ec sticnsnsnstsianblesisicanicvncsanensninictbcaiaaipctamsnen 319-327 RI iicccecitniistintthintnnsesihinintbilimagiia 95-98 Flow field, quasi-three-dimensional potential Of ESCT E STORES 191-202 Sanaseabuiceniesiebecsihicdedetaleyslekeoeiecibalelgdabiieal 413-421,463-471 Oe LT Te 213-221 Flow loss, turbomachinery ...............:csccsceseseeeeeeeeseees 413-421 I I i icicesetecetinceierctshinnsmninennniinbaiiaaane 213-221 PRP I TREO noc scsnsiccsincsscctsnnsasnssores 305-3 18,319-327 I Biiiitnsiinpenscicmensepisithaninnitiapeiiaiaa 191-202 I NS 6 ie ae 305-318 ESR cep cicininensiecsitnnnanniineeloda 319-327 Flow simulation, unsteady ..............:cccsssssesesceeseneenees 397-408 LOW EMISSIONS BAS ENQINE .............cceeeeeeeeeceeeeeeeeeneeee 203-211 Flow, three-dimensional .................:.cccccceeeees 55-63,305-318 Low-speed high-torque hydraulic motor, Re RMI sesssseeccnltspblinttnecemnecieseswabivitin 383-395 CE sditticinscccsinnensientiasiininitaimml 423-429 Fluid power systems design, history of .................... 105-120 Lysholm twin SCTEW CNQiNe .............:cccccecceeeeeeseeeeees 75-93 Fluidized bed Combustion ..............:.sccscesessesesseeeeeeees 351-362 Fortran Computer program ...........:.:csccsseseeseseseseenees 263-272 Magnetic couplings, disc type .............csceeeeeeneeeees 263-272 Four-dimensional torque ..............:.sscsscesseceeeeeeseeeeees 263-272 Dbatrmemnatical tn oa ssn ccesenccsnercncitadirenerbenies 157-163 Metal hydride heat transformers ...................-:ces0-e0-+ 157-163 INE iiisivsysaccincacecivctnamianescusihienicsvaneleiaiite 351-362 Methy] ester viscosity, palm Oil ...............cccceeeeeeees 131-138 a II saci scsncnesieiccmenseccissedinsnil 449-462 RL a 121-129 Gas engines, low emMisSiONS ................ssceseeceeeeeeeeeees 203-211 I iia tnctctccncceseiesntnbionittin 305-318,319-327 Gas jet flames, coal seeded ............cscsscsesceasscscsesseoee 373-382 i aiiecitheieitasncerneniccorminnienieionniiagaal 423-429 CR PURPID POT TIES ona eccneinedasnsnenpsssicedeneaitssi 55-63 IE is dieicticuieccensnadncenesccocsevnitiiluesiiiobliih 279-293 IE cicinvasnsnisnsicepupetiniatiaesiictesessbtietacescuied 477-479 EE ee 157-163 Gasification combined cycle ............ccccseseseeseeeseeeeees 351-362 Model, three-dimensional aerodynamic ..................0++. 65-74 Gebetber etawes, fined Died ..........0iscsisccsscscncvesseeaserueeaies 35-45 ce NE ECCT Oe1 49-156 Coameinetry Genie, Chae ...........0c.osenensesssivesssevtessconsied 463-471 Modelling decision analysis ................:.:ccscsssseeeeeeeeeees 15-24 Geothermal energy ..............:cscscssseeeesseneeee 139-147,223-232 Modelling, thermodynamic ...............:.:ccsccsseseeeeeeees 449-462 Modelling, turbocharger turbine ..................cccseseeeees 397-408 ROR II sna scrcccnrecssnnnnsedsainisinsnccins 139-147 DEI eiecnes cseceicionn pieagetiincnpiginmnvcntcnnibitgidile 165-176 HOAt S5AUSTET, ASYTMMNCEEIC «oi ose0s5acascccoscsescsvessensesccenes 55-63 Heat transformers metal hydride .................:sscsceeee 157-163 ID GOI sain ccnincenisvncnwesenasttinncensinnmttilieteaiahniltuaiiinia 25-33 High compression ratio combustion system, Nitrogen oxide emissions ......3-14,203-211,383-395,449-462 I crevnssecteiinipiniiselionttiubininen 203-211,449-462 Dean IT II cs cece esos cscsreswntehiabinnsinanasbal 213-221 High-torque hydraulic motor, orbital rotor Nuclear power plamt ...........:.:.c.cscssecsecsssersosestusseacenees 345-350 I ivncscannsncesssiessopapeiabooelieinbitioesnnnstpinecciebds 423-429 Nuclear safety requirements ...............0.sssssseeseeeseeees 345-350 PRN CORIIIOS «..........2.0..0-2eccescenes APC ANSE CP Loa c Re 223-232 II IG ieee cnenicenernstiscccsomnespeincitinhista 139-147 History of fluid power systems design ................00. 105-120 ETE LCL GET LE TERT NE AIT 351-362 OR II nn serceincisaseetinininenciinasicinascctttiblsisbindin 95-98 Hydrocarbon emissions, unburnt ..........:......203-211,449-462 Orbital rotary piston machine, epitrochoid Hydraulic motor, orbital rotor low-speed OI a cnnisnscctinnevicinenenrniinitanitiiighonclaticaadiinia 423-429 ID cas Sictingt oplenikiisnacitasindbetcinscagedlianas 423-429 Orbital rotor low-speed high-torque hydraulic Hydraulic ram pump design .............ccccceseeseeeseseeees 295-303 GUME enh si ctiisistintisd se incstotisadaseiienssspalalaiaaae 423-429 Hydraulic ram pump SiZiN ............:cccssesseeeeeeseeeeeees 245-248 RENE WUG ee sincccn sce cicsctopesniestittcsoseamnessiin 273-277 Palm oil diesel fuel substitute ...............:cccccsceeseseeeeees 47-53 Palet:- cnt nigh Cette ose ck. iscsi 131-138 Impeller, centrifugal COMPTeSSOF ............cccceeeereeseeees 463-471 Phase-averaged temperature ..............ccsceeceeeeeeeeenees 383-395 Impeller geometry, radial flOW .............:cccecceeseseesees 237-244 Piston machine, epitrochoid generated orbital Be UI nena sincsisniccesseriecedsecvisciscsteiel 413-421 TOR eccststeists ince 423-429 Indirect coal-fired turbine cycle ..............cceseeseeeseeeee 351-362 Pratt SiO CNRS ooo 5 a 95-98 Injection technique, sorbent .............cccccsecceseeceeeeeeeees 183-190 TPR ee II ia cnn iceccesiecinsinsicesnssicstbniccdonn 139-147 Ee IIIT anc scsisicititisincicvelctabinsencctoieticiais 305-318 Pete, 1 RIG anne nncscnscecccnctinemintntsnnn’ 3-14 RE ID senicesccncsessnsisespinttntilsinitiltatcialesateiiioaion 121-129 Pa III asc cccesnccccsreaeveesococnenencennnennent 335-343 TIO eases nc cnpsssinisssceyncinnenistlcopbiciibsulan 305-318 Polytetrafluoroctivyleme «.........:...........c.ececcseiseseecenassacens 95-98 I TRI oi. nacass naciivstiibicaitsiniabiaiiecilasnisihtliosecies 95-98 POME - see Palm oil methyl esters DP OTII CII a sesincsicsecssasicinctectescsbscibeasintets 15-24 Potential flow field, quasi-three-dimensional Inviscid-viscous Method .............scsecssssesecsseeeeeseesees 463-471 ‘snicesedantiensieitaiisihii ini aaniceheisneleaiinil 413-421,463-471 © IMechE 1996 Proc. Instn Mech Engrs Vol 210 486 SUBJECT INDEX Precessing vortex core Three-dimensional aerodynamic design, quasi- Prerotation, inlet Three-dimensional aerodynamic model Pump design, hydraulic ram Three-dimensional boundary layer Pump dissipation characteristics, centrifugal Three-dimensional flow 55-63,305-318 Pump, 53 mm Wilcox Three-dimensional potential flow field, quasi- Pump, mixed flow 305-318,319-327 413-421,463-471 Pump sizing, hydraulic ram 245-248 Tip clearance 305-3 18,319-327 Pump, wind-driven lift 279-293 Tongue loss model 149-156 Pumps, wind-driven water 279-293 Torque, four-dimensional 263-272 Torque hydraulic motor, orbital rotor low-speed Quasi-three-dimensional aerodynamic design 149-156 423-429 Quasi-three-dimensional potential flow field Torques, high 223-232 413-421,463-471 Trilateral flash cycle system Trips, steam turbine Radial flow impeller geometry Turbine-compressor coupling Radiation exposure control 335-343 Turbine, contra-rotating Wells Ram pump design, hydraulic 295-303 Turbine cycle, indirect coal-fired Ram pump sizing, hydraulic 245-248 Turbine generator fault diagnosis Regulation, pollution 335-343 Turbine modelling, turbocharger Residential heating 139-147 Turbine seal, gas Reversed flow zone Turbine seal, steam 477-479 Riser support Turbines, axial flow 121-129 Road transport pollution Turbines, microhydro 121-129 Rotating tests Turbines, steam 191-202 Rotor blade design Turbines, turbocharger Rotor blades, gas turbine Turbocharger turbine modelling Rotor low-speed high-torqu2 hydraulic motor, Turbocharger turbines 149-156 orbital Turbomachinery flow loss ‘413-421 Turbulence wake theory Safety requirements, nuclear Twin screw engine, Lysholm Schaffs assumption Two-phase screw expanders Screw expanders, two-phase Two-stroke engine Seal, gas turbine 477-479 Seal, steam turbine 477-479 Unburnt hydrocarbon emissions Seals, 'O'-ring Unsteady flow simulation Sieder-Tate equation Upgrading waste heat Simulation, computer 223-232,363-371 Simulation, unsteady flow 397-408 Smart systems Valve engine, externally heated Sorbent injection technique Vanes, inlet guide Spiral volute casings design Vapour power cycles Stability, burner rim Vertical axis wind turbines, straight-bladed Steady state performance Viscosity, palm oil methyl ester Steam engines, piston Volatile organic compounds Steam turbine seal Volute casings design, spiral Steam turbine trips Steam turbines Wake theory, turbulence Stirling engines Waste heat upgrading Straight-bladed vertical axis wind turbines Water pumps, wind-driven Substitute, palm oil diesel fuel 0.0.0.0... eeeeeeeeees 47-53 Wave energy 273-277,431-447 Sulphur dioxide emissions 183-190 Wave hydrodynamics 273-277 Surface convection coefficients 165-176 Wells turbine, biplane Swirl burners 383-395 Wells turbine, contra-rotating Westinghouse Electric Corporation 273-277 Wilcox pump, 53 mm Temperature, phase-averaged 383-395 Wind turbine loads Thermal power plant 413-421 Wind turbines, straight-bladed vertical axis Thermodynamic modelling Wind-driven lift pump Thermodynamics Wind-driven water pumps Part A: Journal of Power and Energy © IMechE 1996