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formation density gamma-gamma logging 330 Pri remontnim radovima nastaje oštećenje zbog uzroka sličnih kao pri osvajanju bušotina te također zbog gušenja bušotine (blokade pora čvrstim česticama iz nefi ltriranih fl uida za gušenje) i nepovoljnog uzajamnog djelovanja fl uida za gušenje i slojnih fl uida i minerala ležišne stijene. Stimulacijski radovi (obrade bušotina) uzrokuju probleme oštećenja slične onima kod remontnih radova – precipitacija sporednih produkata reakcije stijene s kiselinom, oslobađanje fi nih čvrstih čestica i urušavanje sloja pri obradi kiselinama, a pri hidrauličkom frakturiranju može doći do čepljenja pora i pukotina zagađenim radnim fl uidom za frakturiranje, zdrobljeni podupirač pukotina (propant) može blokirati pore i pukotine jednako kao i fi ne migrirajuće čvrste čestice, a mogu nastati i anorganski i organski kamenci. U procesu proizvodnje uzroci oštećenja formacije su kamenac, parafi n i asfalt, odloženi iz slojne nafte, prodor pijeska iz nevezanih (nekonsolidiranih) slojeva u bušotinu, začepljenje fi ltara siltom, glinom, isplakom itd. Tijekom konvencionalnog (običnog) zavodnjavanja naftnih ležišta oštećenje formacije na injekcijskim bušotinama je posljedica promjene močivosti ležišne stijene djelovanjem površinski aktivnih zagađivača u injektiranoj vodi, postojanja suspendiranih čestica (gline, kamenca, bakterija, nafte) u injektiranoj vodi, blokade pora produktima korozije željeza, nastanka kamenca usljed nekompatibilnosti slojne i injektirane vode i dr. Oštećenje formacije nastaje i pri primjeni metoda povećanja iscrpka nafte (EOR-metode). Za termičke EOR-metode karakteristični uzroci su migracija fi nih čvrstih čestica, bubrenje glina i otapanje kvarca usljed kontakta kondenzata s visokim pH iz generatora pare, otapanje šljunčanog zasipa i povećani prodor pijeska iz sloja u bušotinu te nastanak anorganskog kamenca. U procesima istiskivanja nafte ugljik-dioksidom može doći do blokade pora zbog taloženja karbonata, precipitacije asfaltena (kontaktom ugljik-dioksida i asfaltne slojne nafte) i potencijalno nastalom emulzijom (kod izmjeničnog injektiranja ugljik-dioksida i vode). Pri istiskivanju nafte otopinama površinski aktivnih tvari i polimera oštećenje formacije je uzrokovano gibanjem fi nih čvrstih čestica (zbog hidrodinamičkih uvjeta – brzine i viskoznosti). formation density gamma-gamma logging – karotaža (gama-gama karotaža) gustoće formacije, v. density logging. formation density log – dijagram karotaže (gamagama karotaže) gustoće formacije, v. density logging. formation density logging – karotaža (gama-gama karotaža) gustoće formacije, v. density logging. formation dip log – pandažmetrija, karotaža nagiba formacije, v. dipmeter log. formation evaluation – procjena formacije. Proces procjene potencijala (komercijalnog značaja) naftonosnih i plinonosnih formacija (ležišta) probušenih bušotinom ili s nekoliko bušotina, odnosno procjene postojanja komercijalno pridobivih ugljikovodika i, u slučaju njihova postojanja u formaciji, izbor najbolje metode (ili metoda) njihova pridobivanja. Uključuje analizu i interpretaciju podataka karotaže bušotina, ispitivanja (testiranja) DST-metodom, jezgara, krhotina i čestica probušenih stijena itd. kako formation microscanner, Formation MicroScanner (FMS) bi se odredila litologija (litološki sastav) formacija i sadržaj fl uida u njima i dobili drugi podaci o karakteristikama formacije za uporabu u daljnjim geološkim istraživanjima. formation evaluation while drilling – procjena formacije u procesu bušenja, v. logging while drilling. formation factor – faktor formacije. U karotaži bušotina – faktor električne otpornosti (specifi čnog električnog otpora, electrical resistivity) formacije. Defi nira se kao omjer električne otpornosti (specifi čnog električnog otpora) određenog volumena formacije potpuno (100%) zasićenog vodom (elektrolitom) i električne otpornosti te vode (elektrolita) ili kao omjer električne provodnosti (specifi čne električne vodljivosti, electrical conductivity) vode (elektrolita) i električne provodnosti stijene zasićene tom vodom (elektrolitom). Zavisi od poroznosti formacije, strukture pornog prostora, distribucije pora po veličini, tipa, sadržaja i distribucije gline i vodljivih minerala u stijeni, pješčanih proslojaka, broja i tipa pukotina, saliniteta porne (konatne) vode, nereducibilnog zasićenja vodom i temperature formacije i praktično je konstantan za vapnence i čiste (nezaglinjene) pješčenjake, a smanjuje se s porastom otpornosti slojne vode za glinovite pješčenjake. Faktor formacije je odličan parametar za detekciju zona zasićenih ugljikovodicima. Sinonimi: formation resistivity factor, resistivity factor. formation fl uid – slojni fl uid. Nafta, plin i /ili voda koji zasićuju (ispunjavaju) porni prostor podzemnih stijena. formation fracture pressure – tlak loma formacije, v. formation-breakdown pressure. formation fracturing – hidrauličko frakturiranje sloja, v. hydraulic fracturing. formation gas – slojni plin. Prirodni plin proizveden s naftom iz naftnog ležišta. formation gas-oil (gas/oil) ratio – slojni plinski faktor. Količina (volumen) plina otopljenog u jediničnom volumenu nafte pri ležišnom tlaku i temperaturi. Izražava se u standardnim kubnim metrima plina po standardnom kubnom metru nafte (ili u standardnim kubnim stopama po standardnom barelu nafte – v. standard conditions). Količina plina koja se može otopiti u nafti, odnosno slojni plinski faktor povećava se s porastom tlaka a smanjuje porastom temperature. Utjecaj tlaka je veći, pa se plinski faktor općenito povećava s porastom dubine ležišta. Slojni plinski faktor (GOR) razlikuje se od proizvodnog plinskog faktora, tj. plinskog faktora za vrijeme proizvodnje nafte (producing gas-oil ratio). formation heat losses – gubici topline u sloju. Gubici topline u sloju u procesu istiskivanja nafte parom i vrućom vodom (termičke metode povećanja iscrpka nafte/EOR-metode – v. hot waterfl ood, steamfl ood). Povećavaju se sa smanjivanjem debljine sloja, a ustaljuju se s vremenom injektiranja; v. heat losses. formation heterogeneity – heterogenost formacije. Nehomogenost, odnosno horizontalne (lateralne) i vertikalne varijacije, svojstava formacije, na primjer, poroznosti, permeabilnosti i debljine formacije. formation integrity test – ispitivanje tlaka loma formacije, v. leak-off test. formation microscanner, Formation MicroScanner (FMS) – mikroskener (mikroelektrični skener) formacije. Pribor (sonda) za mjerenje promjena električne ot
formation of gravity tongues 331 formation volume factor (FVF) pornosti (specifi čnog električnog otpora, electrical resistivity) stijena (uzrokovanih varijacijama njihove poroznosti i sadržaja gline) u malom volumenu stijene u okolišu kanala bušotine. Sastoji se od 4, 6 ili 8 papuča (postavljenih pod kutom od 90, 60 ili 45 stupnjeva) i gusto raspoređenih elektroda na njima. Papuče su tijesno pritisnute uz stijenku kanala bušotine. Tijekom mjerenja se registrira količina struje koju emitira svaka elektroda u zavisnosti od dubine i azimuta. Mikroskener formacije se primjenjuje samo u bušotinama s vodljivom isplakom. Podaci mjerenja se rabe u sedimentološkim i strukturnim analizama formacija, za identifi kaciju tipa slojevitosti stijene, procjenu poroznosti, lociranje i detekciju sustava pukotina (širine i orijentacije) i rasjeda (orijentacije) te kontrolu dubine korelacijom s orijentiranim jezgrama. formation of gravity tongues – nastanak gravitacijskih jezika, v. gravity tonguing. formation of viscous fi ngers – nastanak viskoznih jezika, v. viscous fi ngering. formation pore pressure – porni tlak formacije (sloja), v. pore pressure. formation pressure – tlak formacije, slojni tlak, v. (1) reservoir pressure; (2) shut-in bottomhole pressure. formation resistivity – električna otpornost (specifi čni električni otpor) formacije. Mjerljivo svojstvo zasićenih formacija da pružaju otpor tečenju ili da sprječavaju tečenje električne struje kroz njih; recipročna je vrijednost električne provodnosti (specifi čne električne vodljivosti, electrical conductivity). Porozne stijene se sastoje od agregata minerala i fragmenata stijena i pornih šupljina. Čvrste čestice stijena su nevodiči električne struje (s izuzetkom nekih minerala gline, sulfi da metala i grafi ta koji se rijetko sreću u produktivnim formacijama), što znači da će stijene biti električki nevodljive ako su potpuno suhe (nezasićene vodom) – takve stijene imaju beskonačnu električnu otpornost. Sedimentne formacije su sposobne voditi električnu struju samo pornom (intersticijalnom, konatnom) ili adsorbiranom vodom koja ih zasićuje, Porna voda koja sadržava otopljene soli je elektrolit koji je sposoban voditi električnu struju – što je količina otopljenih soli veća, veća je i električna vodljivost porne vode. Slatka voda (s malom količinom otopljenih soli) je, prema tome, loš vodič struje. Nafta i plin su također loši vodiči. Električna otpornost većine sedimentnih stijena varira od 0,2 do 2000 ohm-m. Formacije šejla i gline su porozne, praktično nepropusne i često vrlo homogene unutar naslaga i njihova otpornost je razmjerno niska i praktično konstantna unutar širokih intervala, kompaktne (guste) i nepropusne stijene (na primjer gips, anhidrit, guste karbonatne formacije) imaju visoku otpornost zbog vrlo malog sadržaja porne vode, a otpornost poroznih i propusnih formacija (na primjer pijesaka i pješčenjaka) široko varira, ovisno o njihovoj litologiji i sadržaju fl uida (zasićenju). Otpornost slabo konsolidiranih pješčenjaka (pijesaka) je u rasponu od 0,2 ohm-m (za pješčenjake zasićene slanom vodom) do nekoliko ohm-m (za pješčenjake zasićene naftom), dobro konsolidiranih pješčenjaka varira od 1 do 1.000 ohm-m (ovisno o broju proslojaka šejla), kemogene stijene imaju otpornost do nekoliko desetaka tisuća ohm-m, a otpornost ne- poroznih karbonatnih stijena može iznositi nekoliko milijuna ohm-m. Električna otpornost ležišnih stijena zavisi od: (a) sastava stijene; (b) oblika pora i njihove uzajamne povezanosti (geometrije pornog prostora); (c) efektivne poroznosti stijene (smanjuje se s povećanjem poroznosti); (d) naprezanja formacije; (e) temperature formacije; (f) tipa slojnih fl uida; (g) saliniteta slojne vode, i (h) zasićenja ugljikovodicima (povećava se s porastom zasićenja – stijena koja sadrži naftu i/ili plin i vodu će imati veću otpornost od iste stijene koja je potpuno zasićena slojnom vodom budući da su nafta i plin nevodiči, a voda, kada sadrži otopljene soli, vodič električne struje). Električna otpornost formacije bitan je parametar mjeren karotažom, jer se rabi za određivanje zasićenja vodom (nužan za izračunavanje rezervi nafte i plina). formation-resistivity factor – faktor formacije, v. formation factor. formation roof – krovina formacije, v. top, 1. formation sample – v. core sample. formation sensitivity – osjetljivost formacije. Osjetljivost nekih produktivnih formacija (slojeva) na oštećenje usljed prodora fi ltrata bušaće isplake (drillingmud fi ltrate) u pore stijene. formation solids – krute čestice sloja. Pijesak i drugi stijenski i mineralni materijal iz produktivnog sloja (producing formation). Krute čestice mogu uzrokovati probleme s prodorom pijeska iz formacije u proizvodne bušotine. formation solubility – topljivost formacije. Mjera topljivosti ležišne stijene u otopinama kiselina za stimulacije (obrade) slojeva, na primjer, u solnoj kiselini ili smjesi solne i fl uorovodične kiseline. formation temperature – temperatura formacije, slojna temperatura. Temperatura formacije (sloja) na danoj dubini. Obično raste s dubinom formacije. formation test – ispitivanje (testiranje) formacije, v. formation testing. formation tester – uređaj (alatka) za ispitivanje sloja. Uređaj za mjerenje hidrostatičkog tlaka formacije, pritoka fl uida i izvlačenje uzoraka fl uida iz naftonosne formacije. Spušta se u bušotinu kabelom. Sinonimi: formation testing tool, formation test tool. formation testing – ispitivanje (testiranje) formacije. Ispitivanje radi skupljanja podataka o formaciji (sloju) kako bi se odredila njena potencijalna produktivnost prije ugradnje kolone zaštitnih cijevi (casing) u bušotinu. Klasična (konvencionalna) metoda je ispitivanje alatkom koja se spušta u bušotinu s kolonom bušaćih šipki ili tzv. DST-metoda. (v. drillstem test). Sinonim: formation test. formation testing tool – uređaj (alatka) za ispitivanje sloja, v. formation tester. formation test tool – uređaj (alatka) za ispitivanje sloja, v. formation tester. formation thermal conductivity – toplinska provodnost formacije, v. thermal conductivity of rocks. formation top – krovina formacije, v. top, 1. formation volume – slojni (ležišni) volumen. Volumen fl uida pri tlaku i temperaturi formacije (sloja) koji je jednak jednom kubičnom metru ili barelu nafte pri površinskim uvjetima; v. formation volume factor. formation volume factor (FVF) – slojni (ležišni) volumetrijski (volumenski, obujamski) faktor. Volumen fl uida
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Senat Sveučilišta u Zagrebu donio
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5 Kapitalno djelo naftne encikloped
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7 maćim i stranim investitorima, a
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9 U svakoj defi niciji u kojoj se p
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abandonment pressure bušotine koja
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AB rectangular array mlazom (strujo
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absorption gas sweetening absorptio
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accreting plate boundary zastario,
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acid brittleness ranja taloga (anti
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acid oil te). Količina (broj milig
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acrylate polymer acrylate polymer -
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adjustable choke adjustable choke -
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A-frame željeznog oksida (željezn
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airborne magnetometer air-balanced
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alcohol displacement of oil alcohol
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alkaline lake nafte plinom, primjen
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allogroup se odnosi na vodotok čij
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alluviums sedimenta u koritu vodoto
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aluminum activation log reniji alum
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ampelite mjerenja) i ukupnog volume
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anchor pattern proizvodne dubinske
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anhydrous sodium carbonate hydrite)
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anorthoclase zičnim i ultrabazičn
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aphanocrystalline Termin slobodne u
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apparent wellbore radius ljine vala
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Aragon spar grebena. Aragonit je ta
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arenitic neovisno o njihovu sastavu
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arkosic wacke hic sandstone). Termi
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artifi cial island artifi cial isla
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asphaltic pyrobitumen šavanja i kv
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atoll provincijske skale u Sjeverno
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authigenesis nego se formirao na mj
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Auversian (Lower Permian) - iznad s
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averaging reservoir pressure mički
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ack off tool zivom. U procesu buše
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ackwearing kih plima. (3) mrtva vod
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alanced drilling nije bilo donošen
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anket EOR-procesima); v. oil bank.
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arrels per tonne bd, b/d, bpd) - ba
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asculating fault naftenska baza (na
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asin-range structure rasjedanjem i
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each berm materijal koji pokriva bl
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earing cage habanje kugličnog lež
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edding-plane cave u takvim slučaje
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ending of strata alatki (drill stri
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inodal curve isplaka (drilling mud)
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iomarker biomarker - biomarker, bio
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it mechanical horsepower dlijetu (v
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lanket deposit blanket deposit - po
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lock block - (1) rasjedni blok, v.
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lowout well spojen je s glavom buš
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orehole geophysics metrije bušotin
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ottomhole (bottom-hole) regulator s
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ound water sno koja je suprotna gra
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eadth kosinama okrenutim prema njen
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idging agent lomaka) stijene ili ne
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ubble point, bubblepoint mjehurića
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umper sub bušotine (fi shing), rez
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ypass (by-pass) valve bypass (by-pa
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cage of pump valve berilu (beryl) i
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calcitic dolomite čite - pasji zub
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caliper logging karotaži bušotina
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capillarity razdjela. Prema razlici
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capillary rise method bodnog nivoa
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carbonate reservoir models također
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carbon-14 carbon-14 - ugljik-14, ra
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casing cementing unutrašnjosti za
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casinghead (casing head) with stuff
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cataclasite bez promjene kemijskog
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cavern storage of hydrocarbons cave
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cementer cementer - (1) specijalist
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cement thickening test vlačne i tl
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chain wrench koja se sastoje od osl
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cheilostomes (Cheilostomata) znih i
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chertifi cation chertifi cation -
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chronocorrelation primijeniti i pri
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circulation ker) koji osigurava cir
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clastic dike jalno-marinski (ledenj
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clean relima) isplake određene vis
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close-packed structure nonim termin
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coarse sand coarse sand - grubi (kr
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coincident demand za namatanje i od
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combination-drive oil reservoir fak
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common-depth-point stack (osigurava
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competent bed competent bed - kompe
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compressed natural gas (CNG) (pokro
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concurrent method stojanjem konkrec
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conductor casing string conductor c
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conglomeratic mogu dobiti naziv pre
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constant-enthalpy expansion sićenj
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contact zone ption tower) ili adsor
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continuous-fl ow gas lift sirove na
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conventional core šaće dlijeto).
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coralgal skeleta ili širokih otvrd
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core fl ow effi ciency (CFE) arno i
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correlation index korelacije (broj
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cover rock (v. undermass); materija
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crisscross bedding sto cementirani
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cross correlation, cross-correlatio
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crude oil analysis primjesa može s
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crush conglomerate transporta fragm
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crystallines pokazuju teksturu form
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current marking current marking - s
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cycle condensate jedna jedinica poj
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cyclone cikloalkan). U prirodi se n
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dampening sub 214 daywork (day work
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debitumenization 216 decline-curve
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deep-well injection 218 degradation
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Delmontian 220 demethanation šalje
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density current 222 porastom temper
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depletion drive 224 depositional in
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depth section 226 desalter u podzem
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desmodont 228 developed reserves de
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deviation of a well 230 deviation o
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diagonal off set 232 diagonal off s
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dielectric log (DIEL) 234 dielectri
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diff raction 236 Diluvium diff ract
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dip-corrected map 238 vremena naila
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direct stratifi cation 240 direct s
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disintegration 242 kavne prema gore
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dissolved gas-oil (gas/oil) ratio 2
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dogtooth spar 246 dolomitization no
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double section 248 downhole pump po
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downwash 250 drainage area downwash
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drift angle 252 drill a production
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drilled measured reserves 254 deter
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drilling break 256 poli vrtaćeg st
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drilling-in fl uid 258 drilling mud
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drilling mud vibrating screen 260 z
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drilling-time log 262 drillpipe (dr
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drillship motion 264 drillstring, d
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drive 266 drowned reef stalaktite i
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dry oil 268 prirodni plin. Prirodni
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dump oil 270 men mjernog rezervoara
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Eaglefordian 272 earth current Eagl
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economic limit of production 274 ef
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effl uent 276 electrical conductanc
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electrical resistivity logging 278
Page 278 and 279: Electrolog, electrolog 280 electrov
Page 280 and 281: embossed rock 282 emulsion kristala
Page 282 and 283: encrinal limestone 284 endoskeleton
Page 284 and 285: enriched gas process 286 environmen
Page 286 and 287: Eonothem, eonothem 288 (2) Vremensk
Page 288 and 289: equigranular 290 equivalents per mi
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Page 292 and 293: evaporation 294 evaporacijom (ispar
Page 294 and 295: expansion joint 296 Ekspanzijom pli
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Page 306 and 307: fi eld appraisal 308 fi eld steam g
Page 308 and 309: fi lter separator 310 fi nding cost
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Page 312 and 313: fi shing mill 314 fi ttings njuje k
Page 314 and 315: fl agstone 316 fl aser structure fl
Page 316 and 317: fl exure-slip fold 318 fl ood-plain
Page 318 and 319: fl ow bean 320 fl uida koji su bili
Page 320 and 321: fl ow tank 322 fl ow tank - proizvo
Page 322 and 323: fl ushing production 324 fl uvial s
Page 324 and 325: foam acidizing 326 fold su međusob
Page 326 and 327: foraminiferans (Foraminifera) 328 f
Page 330 and 331: formation volume factor of gas 332
Page 332 and 333: four-stage separation 334 fractiona
Page 334 and 335: fracture permeability 336 Franconia
Page 336 and 337: freeze-point indicator 338 friction
Page 338 and 339: fucoidal 340 fuller’s earth fucoi
Page 340 and 341: gabbro 342 gamma gabbro - gabro. (1
Page 342 and 343: G and G costs 344 gas-cap drive ta
Page 344 and 345: gas chromatographic method 346 gas-
Page 346 and 347: gas-depletion drive reservoir 348
Page 348 and 349: gas isothermal compressibility 350
Page 350 and 351: gas locking 352 gas-oil (gas/oil) s
Page 352 and 353: gas regulator 354 donment pressure)
Page 354 and 355: gas sweetening 356 gas viscosity st
Page 356 and 357: ga(u)ge bob 358 (protoka, velocity
Page 358 and 359: geochemical anomaly 360 geochronome
Page 360 and 361: geological engineering 362 geologic
Page 362 and 363: geomagnetism 364 geophone i fi zika
Page 364 and 365: geosphere 366 se katkada rabi u mno
Page 366 and 367: ghost member 368 glacial epoch kris
Page 368 and 369: glacier 370 glaucophane glacier - l
Page 370 and 371: glycol dehydrator 372 glycol dehydr
Page 372 and 373: grain density 374 granitization sti
Page 374 and 375: granuloblastic 376 označavanje fi
Page 376 and 377: gravity-drive oil reservoir 378 gra
Page 378 and 379:
greensand, green sand 380 gross sta
Page 380 and 381:
ground-water (groundwater) recharge
Page 382 and 383:
gun perforating 384 zije. Uska posu
Page 384 and 385:
habit 386 halmyrolysis habit - obli
Page 386 and 387:
hard scale 388 head erosion rocks),
Page 388 and 389:
heat conductivity 390 heat losses i
Page 390 and 391:
heave compensation 392 heavy-oil pr
Page 392 and 393:
hemicone 394 heterogranular s preor
Page 394 and 395:
high-calcium limestone 396 high-per
Page 396 and 397:
high-rank metamorphism 398 high-ran
Page 398 and 399:
hole opener 400 nekvalitetnu cement
Page 400 and 401:
horizontal hole 402 plinski separat
Page 402 and 403:
hot-waterfl ood zone 404 hyaloclast
Page 404 and 405:
hydraulic conductivity 406 hydrauli
Page 406 and 407:
hydraulic radius 408 hydrocarbon re
Page 408 and 409:
hydroclast 410 hydroclast - hidrokl
Page 410 and 411:
hydrostatic pressure 412 hyperbolic
Page 412 and 413:
ice age 414 ichthyostegals ice age
Page 414 and 415:
igneous-rock clan 416 imbibition me
Page 416 and 417:
immiscible fl uids 418 inarticulate
Page 418 and 419:
index plane 420 induction logging k
Page 420 and 421:
inferred reserves 422 infl ow perfo
Page 422 and 423:
inhibited mud 424 initial volumes i
Page 424 and 425:
injection-well plugging 426 insert
Page 426 and 427:
in-situ combustion oil recovery 428
Page 428 and 429:
intercrystalline porosity 430 inter
Page 430 and 431:
intermediate-Btu gas 432 intermedia
Page 432 and 433:
International Gas Union (IGU) 434 i
Page 434 and 435:
intrageosyncline 436 invasion pozna
Page 436 and 437:
inverted seven-spot fl ooding (fl o
Page 438 and 439:
isochore 440 mineraloških ili teks
Page 440 and 441:
isolith 442 isopentane isolith - iz
Page 442 and 443:
isotherm 444 I wave isotherm - izot
Page 444 and 445:
jack-up (jackup) drilling unit 446
Page 446 and 447:
jetting 448 junk catcher mena ispla
Page 448 and 449:
kainotype 450 karst-collapse reserv
Page 450 and 451:
kelyphytic border 452 kick (0 °C)
Page 452 and 453:
kill manifold 454 K-T extinction se
Page 454 and 455:
labile 456 lacustrine labile - labi
Page 456 and 457:
lake delta 458 land drilling rig na
Page 458 and 459:
Laramide revolution 460 lateral fau
Page 460 and 461:
law of faunal assemblages 462 layer
Page 462 and 463:
leak-repair clamp 464 left-handed s
Page 464 and 465:
leucocratic 466 light breeze zred i
Page 466 and 467:
limber-pendulum assembly 468 limest
Page 468 and 469:
line drive 470 lingulaceans (Lingul
Page 470 and 471:
liquefi ed petroleum gas carrier 47
Page 472 and 473:
lithic subarkosic wacke 474 lithoge
Page 474 and 475:
lithostratigraphic classifi cation
Page 476 and 477:
loamy soil 478 log data interpretat
Page 478 and 479:
longitudinal ripple mark 480 loop l
Page 480 and 481:
low-alloy steel 482 lower marine ri
Page 482 and 483:
low-solids nondispersed mud 484 low
Page 484 and 485:
lutetium-hafnium age method 486 lye
Page 486 and 487:
macromeritic 488 magnesian dolomite
Page 488 and 489:
magnetic-type catcher 490 makeup (m
Page 490 and 491:
mantle rock, mantlerock 492 margina
Page 492 and 493:
marine riser connection 494 marker
Page 494 and 495:
Marsh funnel viscosity 496 mass mov
Page 496 and 497:
material balance equation 498 valja
Page 498 and 499:
maturity index 500 meander čiji go
Page 500 and 501:
measurement while drilling data 502
Page 502 and 503:
medium oil 504 faktor otopljenog pl
Page 504 and 505:
mesocratic 506 meta mesocratic - me
Page 506 and 507:
metamorphic rank 508 meter calibrat
Page 508 and 509:
methyl ethylene 510 micellar-polyme
Page 510 and 511:
microbial EOR 512 ćanje iscrpka na
Page 512 and 513:
micromineral 514 microspar prateći
Page 514 and 515:
middle row of teeth 516 mill middle
Page 516 and 517:
mineralization 518 minimum air fl u
Page 518 and 519:
miscibility gap 520 cibilnost može
Page 520 and 521:
mixed-layer mineral 522 mobility co
Page 522 and 523:
moderate breeze 524 modulus of rigi
Page 524 and 525:
molluscoids 526 monograptids (Monog
Page 526 and 527:
moonwell 528 mortar texture bušenj
Page 528 and 529:
mountain crystal 530 mud longitudin
Page 530 and 531:
mud-cleanout acid (MCA) 532 mudfl o
Page 532 and 533:
mud logger, mudlogger 534 mud-motor
Page 534 and 535:
mud-rock fl ood 536 multicontact mi
Page 536 and 537:
multiple-contact miscibility 538 mu
Page 538 and 539:
multistage cementing 540 myrmekite
Page 540 and 541:
naphthenic hydrocarbons 542 natural
Page 542 and 543:
natural-gas desulfurization 544 nat
Page 544 and 545:
naturally fractured reservoirs 546
Page 546 and 547:
negative shoreline 548 različite d
Page 548 and 549:
net sand 550 neutron-activation log
Page 550 and 551:
neutron logging (NL) 552 new global
Page 552 and 553:
nine-spot well arrangement 554 node
Page 554 and 555:
non-associated oil reservoir 556 no
Page 556 and 557:
nonplunging fold 558 normal Rezulta
Page 558 and 559:
normal fi ve-spot pattern 560 separ
Page 560 and 561:
nuclear well logging 562 skog signa
Page 562 and 563:
obsequent stream 564 ocher topograf
Page 564 and 565:
off set line 566 (dreniraju) bušot
Page 566 and 567:
oil breakthrough 568 generiranju na
Page 568 and 569:
oilfi eld processing of natural gas
Page 570 and 571:
oil play 572 između troškova cije
Page 572 and 573:
oil-reservoir drive mechanisms 574
Page 574 and 575:
oil window 576 olefi ns ranje jezgr
Page 576 and 577:
one-point test 578 oolith ski model
Page 578 and 579:
opaque zone 580 propustan za vidlji
Page 580 and 581:
open-water treating system 582 opti
Page 582 and 583:
ordinary oil 584 organic sulfur ord
Page 584 and 585:
original dip 586 orogeny zuvici isp
Page 586 and 587:
orthofelsite 588 orthorhombic syste
Page 588 and 589:
outage ga(u)ge 590 outwash plain iz
Page 590 and 591:
overdraft 592 overprint koje su zat
Page 592 and 593:
overwash plain 594 bore. Krilo preb
Page 594 and 595:
packer dnu tornja, dok plin ulazi n
Page 596 and 597:
paleoclimatic sequence paleoclimati
Page 598 and 599:
paleovolcanic prije tercijara (pale
Page 600 and 601:
paraffi n-base oil viskoznost katka
Page 602 and 603:
parallel tubing-string completion p
Page 604 and 605:
parting lineation - pukotina ili na
Page 606 and 607:
peak polished rod load peak polishe
Page 608 and 609:
pelitic različitih drugih minerala
Page 610 and 611:
penetration rate obradi podataka i
Page 612 and 613:
perforated casing well completion n
Page 614 and 615:
periodic fl owing periodic fl owing
Page 616 and 617:
permeability damage zvodnju - za de
Page 618 and 619:
petal basket petal basket - latiča
Page 620 and 621:
petrologist trografska) provincija,
Page 622 and 623:
phenoclastic rock nasti) matriks (f
Page 624 and 625:
phyllomorphic stage bazi karakteris
Page 626 and 627:
pileless platform (v. gravity platf
Page 628 and 629:
pipeline connection o mnogim faktor
Page 630 and 631:
Pitot-tube meter zbrajanja statičk
Page 632 and 633:
plastic fl uid naprezanje postigne
Page 634 and 635:
plug analysis napušta zbog neprodu
Page 636 and 637:
pneumatic sucker-rod pump bušaćih
Page 638 and 639:
pollen analysis pollen analysis - a
Page 640 and 641:
polymer fl ood (fl ooding) izduljen
Page 642 and 643:
polyzoans procesima povećanja iscr
Page 644 and 645:
porosity capacity (b) unutarčesti
Page 646 and 647:
port osnovne mase, na primjer, dior
Page 648 and 649:
potamic obrađena ili se obrađuje
Page 650 and 651:
Precambrian X 2.600 milijuna godina
Page 652 and 653:
pressure drawdown pressure drawdown
Page 654 and 655:
pressure-relief valve ječavanje po
Page 656 and 657:
primary mineral primary mineral - p
Page 658 and 659:
prismatic cleavage označava sedime
Page 660 and 661:
production ceiling production ceili
Page 662 and 663:
production of oil production of oil
Page 664 and 665:
productivity-index fl ow test pumpo
Page 666 and 667:
prospect hole prospect hole - istra
Page 668 and 669:
proved reserves 670 proved undevelo
Page 670 and 671:
psammyte psammyte - psamit, v. psam
Page 672 and 673:
pseudoreduced temperature udosveden
Page 674 and 675:
pulling tools ili zamjene kada su k
Page 676 and 677:
pump off pump off - ispumpanost bu
Page 678 and 679:
pyroclastic breccia se također ozn
Page 680 and 681:
quartz andesite četiri vrha zajedn
Page 682 and 683:
Quaternary era đivanje novim živo
Page 684 and 685:
adioactive isotope radioaktivne tva
Page 686 and 687:
ange chart v. stratigraphic range.
Page 688 and 689:
eaction border Tim procesom ponovne
Page 690 and 691:
econnaissance generirani granit (v.
Page 692 and 693:
edox potential log reakcija, revers
Page 694 and 695:
eeled-pipe unit matanje žičanog u
Page 696 and 697:
efracture index refracture index -
Page 698 and 699:
elative density relative density -
Page 700 and 701:
elict genetskoj stijeni (stijeni ko
Page 702 and 703:
eperforating buildup). Dvije velike
Page 704 and 705:
eserve estimate methods strojenja n
Page 706 and 707:
eservoir coverage reservoir coverag
Page 708 and 709:
eservoir interval i vertikalni koef
Page 710 and 711:
eservoir stimulation voir model, th
Page 712 and 713:
esin luster mentacije bušotina - s
Page 714 and 715:
esurgent nedostatak kisika u vodi.
Page 716 and 717:
eturn water raspoloživa je za dalj
Page 718 and 719:
Rhodanian orogeny terizirani su op
Page 720 and 721:
ift fault cjelokupne debljine litos
Page 722 and 723:
ipple cambrian) koja odgovara kasno
Page 724 and 725:
iver bar river bar - riječni prud
Page 726 and 727:
ock fabric ight) na potezaljci (sha
Page 728 and 729:
od guide brže nego što kolona kli
Page 730 and 731:
ROP (rate of penetration) log ROP (
Page 732 and 733:
otary tachometer rotary tachometer
Page 734 and 735:
ubber-sleeve drill string stabilize
Page 736 and 737:
Saale Saale - Saale. Treći klasič
Page 738 and 739:
sales outlet plin), plin (prirodni
Page 740 and 741:
salt-dome intrusive liježe kao kup
Page 742 and 743:
sample valve stavlja na radnu šipk
Page 744 and 745:
sanding čunavanju poroznosti stije
Page 746 and 747:
sandy conglomerate koje sadrži od
Page 748 and 749:
saturated surface koje se formirala
Page 750 and 751:
scaphopods (Scaphopoda) i nedostatk
Page 752 and 753:
scraper trap da (fl owlines). Strug
Page 754 and 755:
screening criteria - steamfl ooding
Page 756 and 757:
seaside koji priliježe uz more ili
Page 758 and 759:
secondary oil recovery methods u ka
Page 760 and 761:
sedimentary complex većeg od 2 mm
Page 762 and 763:
sedimentation balance ca sedimenta
Page 764 and 765:
seismic gather kada je pretrpjela v
Page 766 and 767:
self-potential method (spontane pol
Page 768 and 769:
separator cone sferičnog (spherica
Page 770 and 771:
serpentine jene. U takvoj uporabi t
Page 772 and 773:
seven-spot proizvodnje i prerade na
Page 774 and 775:
shallower pool test shallower pool
Page 776 and 777:
shear fracture duž tijesno jednih
Page 778 and 779:
shell outage shell outage - slobodn
Page 780 and 781:
shoestring sandstone shoestring san
Page 782 and 783:
shothole (shot-hole) drill do 60 me
Page 784 and 785:
shut-in production shut-in producti
Page 786 and 787:
sieving sieving - sijanje, prosijav
Page 788 and 789:
sill sill - (1) podmorski prag. U m
Page 790 and 791:
single-shot inclinometer eff ect) m
Page 792 and 793:
skimming pit skimming pit - otvoren
Page 794 and 795:
slick string niš. Izglačana ili s
Page 796 and 797:
slip-mark sing) ili uzlaznih cijevi
Page 798 and 799:
slug fl ow slug fl ow - čepoliko s
Page 800 and 801:
Snell laws of refraction stoje od n
Page 802 and 803:
soft magnetization soft magnetizati
Page 804 and 805:
solid stage solid stage - stadij sk
Page 806 and 807:
solution-gas drive fi eld mi: deple
Page 808 and 809:
sonic porosity tologije - pješčen
Page 810 and 811:
spacers and washers ski fl uid djel
Page 812 and 813:
specifi c absorption va količina f
Page 814 and 815:
spending time mineralni sediment fo
Page 816 and 817:
spinel group snut (zamijenjen) dvov
Page 818 and 819:
spontaneous-potential curve držaj
Page 820 and 821:
square drill collar bušenja - brzo
Page 822 and 823:
stable isotope ratio analysis spont
Page 824 and 825:
standard cubic foot; standard cubic
Page 826 and 827:
static mud pressure hermal metamorp
Page 828 and 829:
steam-and-pump steam-and-pump - cik
Page 830 and 831:
stepping out proizvodne bušotine (
Page 832 and 833:
storage mjestu služe rupe s navoje
Page 834 and 835:
stratic s ravnim dnom koje su se sp
Page 836 and 837:
stratigraphic overlap se daju speci
Page 838 and 839:
streamer plain) ili na dnu bazena s
Page 840 and 841:
string of drillpipe string of drill
Page 842 and 843:
structural formula ma koja je nasta
Page 844 and 845:
stuck point indicator tool llar). N
Page 846 and 847:
subfeldspathic lithic arenite gmena
Page 848 and 849:
submersible barge potapa tako da nj
Page 850 and 851:
subsurface geology teru i strukturi
Page 852 and 853:
sucker-rod elevator međusobno spaj
Page 854 and 855:
superfi cial fold superfi cial fold
Page 856 and 857:
surface casing string stopa) po zah
Page 858 and 859:
surfactant adsorption stabilnost pr
Page 860 and 861:
sutured sutured - suturni. U petrol
Page 862 and 863:
sweetening of crude (crude oil) spo
Page 864 and 865:
synchronic sinkronizam ili sinkroni
Page 866 and 867:
system analysis referentni (reperni
Page 868 and 869:
tailing-in work 870 T and C oilfi e
Page 870 and 871:
tapered hole 872 target location bu
Page 872 and 873:
technical screening criteria 874 te
Page 874 and 875:
tectonic valley 876 tektite genic)
Page 876 and 877:
temperature well logging 878 tensio
Page 878 and 879:
terrain correction 880 tertiary rec
Page 880 and 881:
texture 882 therapsids (Therapsida)
Page 882 and 883:
thermal conductivity of saturated r
Page 884 and 885:
thermokarst depression 886 thief sa
Page 886 and 887:
thorium-230/protactinium-231 888 th
Page 888 and 889:
three-piece sucker rod 890 through-
Page 890 and 891:
tidal constant 892 tide amplitude s
Page 892 and 893:
tightness of emulsion 894 time lag
Page 894 and 895:
toe teeth row 896 tool joint toe te
Page 896 and 897:
topographic contour 898 torque conv
Page 898 and 899:
total drilling control (TDC) 900 to
Page 900 and 901:
tracer 902 tractive force nja ili o
Page 902 and 903:
transgressive overlap 904 transitio
Page 904 and 905:
transmutation 906 transverse bar nj
Page 906 and 907:
traveling-block compensator 908 tre
Page 908 and 909:
triaxial state of stress 910 trip c
Page 910 and 911:
trochoidal fault 912 truncated slij
Page 912 and 913:
tubing-head adapter 914 tubing spoo
Page 914 and 915:
Tuorian 916 turbine mud motor Tuori
Page 916 and 917:
twin crystal 918 two-dimensional cr
Page 918 and 919:
two-phase reservoir 920 type sectio
Page 920 and 921:
Udden grade scale 922 ultimate reco
Page 922 and 923:
ultrasonic borehole imager (UBI) 92
Page 924 and 925:
underfl ow conduit 926 underground
Page 926 and 927:
underground natural gas storage in
Page 928 and 929:
undersaturated fl uid 930 uninvaded
Page 930 and 931:
unsaturated oil 932 unsteady-state
Page 932 and 933:
upper 934 upstream tektonici - stru
Page 934 and 935:
uranium-thorium-lead dating 936 U-v
Page 936 and 937:
valley drift 938 vaporization valle
Page 938 and 939:
variable-density column 940 vein va
Page 940 and 941:
vermiform 942 tijesno povezani s kl
Page 942 and 943:
vertical sweepout 944 vertical swee
Page 944 and 945:
Villafranchian, Villafranchian stag
Page 946 and 947:
voidage replacement ratio 948 volca
Page 948 and 949:
volcanigenic 950 volcanigenic - vul
Page 950 and 951:
vortex 952 V-window vortex - (1) vr
Page 952 and 953:
walking-beam pump 954 warping walki
Page 954 and 955:
wash out 956 wash tank kano mjesto.
Page 956 and 957:
water-based drilling mud 958 water
Page 958 and 959:
water-drive volatile oil reservoir
Page 960 and 961:
water-in-oil emulsion mud 962 water
Page 962 and 963:
water saturation 964 water viscosit
Page 964 and 965:
wave crest 966 wavelength, wave len
Page 966 and 967:
weathered layer 968 cesu iz kojeg s
Page 968 and 969:
weight-reducing additives 970 wellb
Page 970 and 971:
well control 972 wellhead (well hea
Page 972 and 973:
well logging 974 bođena vezivanjem
Page 974 and 975:
well sanding-up 976 well status map
Page 976 and 977:
wet analysis 978 wet natural gas we
Page 978 and 979:
wettability number 980 wetting fron
Page 980 and 981:
wicker spear 982 windlass do 30 sto
Page 982 and 983:
wireline (wire-line) core 984 wirel
Page 984 and 985:
working valve 986 worm tube rezervo
Page 986 and 987:
xanthan 988 Xtree, xtree xanthan -
Page 988 and 989:
Yarmouth, Yarmouthian 990 young Yar
Page 990 and 991:
Zanclean 992 Zanclean - zanklij, za
Page 992 and 993:
zone isolation 994 zoning (specifi
Page 994 and 995:
APPENDIX A 996 DODATAK A APPENDIX A
Page 996 and 997:
APPENDIX A 998 DODATAK A P poise -
Page 998 and 999:
APPENDIX A 1000 DODATAK A US gal US
Page 1000 and 1001:
APPENDIX A 1002 DODATAK A Btu 60 si
Page 1002 and 1003:
APPENDIX A 1004 DODATAK A g/cm 2 gr
Page 1004 and 1005:
APPENDIX B 1006 DODATAK B APPENDIX
Page 1006 and 1007:
APPENDIX B 1008 DODATAK B = 1 899 J
Page 1008 and 1009:
APPENDIX B 1010 DODATAK B = 0,00062
Page 1010 and 1011:
APPENDIX B 1012 DODATAK B = 1,524 m
Page 1012 and 1013:
APPENDIX B 1014 DODATAK B = 27 680
Page 1014 and 1015:
APPENDIX B 1016 DODATAK B = 437,5 g
Page 1016 and 1017:
APPENDIX B 1018 DODATAK B UK n mile
Page 1018 and 1019:
APPENDIX C APPENDIX C DODATAK C a a
Page 1020 and 1021:
APPENDIX C = 6,2897·10 -6 bbl = 2,
Page 1022 and 1023:
APPENDIX C = 1 550 g/m 2 = 0,001 kg
Page 1024 and 1025:
APPENDIX C kcal/(m h K) kilocalorie
Page 1026 and 1027:
APPENDIX C kJ kilojoule - kilojoule
Page 1028 and 1029:
APPENDIX C = 2,6478·10 6 J = 2,647
Page 1030 and 1031:
APPENDIX C = 9,8096·10 -3 ft 3 /s
Page 1032:
APPENDIX C = 10 -4 N/cm 2 = 1 N/m 2
Page 1035 and 1036:
1037 Borzatti J. i dr.: Doprinos me
Page 1037 and 1038:
1039 Sadržaj Kapitalno djelo naftn
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