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gas chromatographic method 346 gas-condensate reservoir njihovom položaju u razdvojenom redoslijedu), na primjer plamenom ionizacijom (fl ame ionization) ili detektorom toplinske (termičke) provodnosti (thermal-conductivity detector), i kvantitativno mjeriti (uspoređivanjem odziva na komponente s odzivom za istu ili sličnu komponentu u kalibracijskoj smjesi kromatografi je) te registrirati na plinskom kromatogramu (gas chromatogram). gas chromatographic method – metoda plinske kromatografi je. Metoda analize plina upotrebom plinske kromatografi je kao postupka razdvajanja (separacije) komponenata plina ili plinske smjese; v. gas chromatograph, gas chromatography. gas chromatography (GC) – plinska kromatografi ja. Metoda analize plina i plinskih smjesa postupkom fi zičkog razdvajanja (separacije) njihovih komponenata između pokretne (mobilne) plinske faze (mobile gas phase) i nepokretne (stacionarne) tekuće faze (stationary liquid phase) u kromatografskoj koloni. U plinsko-adsorpcijskoj kromatografi ji (v. gas-solid chromatography) kolona je ispunjena čvrstom stacionarnom fazom, a u plinsko-tekućinskoj kromatografi ji (v. gas-liquid chromatography) tekućom stacionarnom fazom. Plinovi se višekratno adsorbiraju i oslobađaju različitim brzinama te na taj način dolazi do razdvajanja njihovih komponenata. Kapilarna kromatografi ja (kromatografi ja u kapilarnoj koloni, capillary-column chromatography) upotrebljava se za razdvajanje komponenata sirove nafte, a kromatografi ja u punjenoj koloni (packedcolumn chromatography) primjenjuje se u plinskoj karotaži (mud logging); v. gas chromatograph, liquid chromatography. gas chromatography-mass spectrometry – kombinirana plinska kromatografi ja i masena spektrometrija. Analitički sustav koji primjenjuje kombinaciju plinskog kromatografa (za razdvajanje komponenata, gas chromatograph) i masenog spektrometra (za identifi kaciju komponenata, mass spectrometer). gas cleaning – čišćenje (pročišćavanje) plina. Uklanjanje cjevovodnih otpadaka, grubih i fi nih čvrstih čestica i aerosola iz prirodnog plina namijenjenog za upotrebu u industriji i domaćinstvima. Čišćenje plina se vrši kako bi se maksimalno povećala radna efi kasnost plinovoda i spriječilo zagađivanje i razblaživanje kemikalija za obradu plina. Za čišćenje se rabe separatori, fi ltri, skruberi i električni precipitatori. gas column – plinski stupac. U naftnoj geologiji – plinonosna visina ležišta, vertikalna visina ili debljina ležišta zasićena plinom, vertikalna udaljenost između dviju točaka u plinskom ležištu – najviše i najniže dubine poznate plinonosnosti. Izražava se u metrima ili stopama; v. oil column. gas company – plinsko poduzeće. Poduzeće čija je djelatnost proizvodnja, transport ili prodaja prirodnog ili sintetskog plina. gas composition – sastav plina. Udjel ili postotak glavnih komponenata, pratećih komponenata, komponenata u tragovima i drugih komponenata (određenih analizom) u plinu. Prirodni plin se sastoji od ugljikovodičnih komponenata (metan, etan...n-dekan) i brojnih neugljikovodičnih primjesa – sumporovodika, ugljik-dioksida, kisika, vodika, dušika, helija i vodene pare. Ako je sastav plina poznat, tada se njegova svojstva (relativna gustoća, pseudokritična svojstva, toplinske vrijednosti) moraju odrediti prema sastavu, a ne iz empirijskih korelacija. gas compressibility – kompresibilnost (stlačivost) plina. Promjena volumena plina s promjenom tlaka pri konstantnoj temperaturi. Opada gotovo hiperbolički s porastom tlaka. Može se odrediti iz korelacija ako su poznati ležišni, pseudoreducirani i pseudokritični tlak i temperatura. Sinonimi: coeffi cient of isothermal compressibility of gas, gas isothermal compressibility. gas compressor – plinski kompresor. Stroj koji se rabi za povećavanje tlaka plina. gas condensate – plinski kondenzat, kondenzat, v. natural gasoline. gas-condensate liquid – plinsko-kondenzatna kapljevina. Ugljikovodici, npr. propan, butan i pentan, dobiveni kao kondenzat kada se masni (mokri) prirodni plin komprimira ili hladi. gas-condensate pool – plinsko-kondenzatno ležište/ polje, v. gas-condensate reservoir. gas-condensate reservoir – plinsko-kondenzatno ležište. Ležište ugljikovodika u kojem su fl uidi samo u plinovitom stanju pri početnom ležišnom tlaku i temperaturi, a s padom ležišnog tlaka usljed proizvodnje (uz relativno konstantnu ležišnu temperaturu) iz plina se počinju izdvajati tekući ugljikovodici (kondenzat – v. condensate) u procesu koji se naziva retrogradnom kondenzacijom (v. retrograde condensation). Ako se kondenzat separira iz prirodnog plina u ležištu, on moči ležišnu stijenu i ne može se proizvesti. Da bi se to spriječilo, iz proizvedenog masnog ili mokrog plina (wet gas) ekstrahira se kondenzat, a suhi (odbenzinirani) plin (dry gas) injektira se u ležište radi podržavanja ležišnog tlaka (cycling). Plinsko-kondenzatna ležišta mogu zalijegati pri tlakovima nižim od 140 bar (2.000 psi) i temperaturama manjim od 38 °C (100 °F). Većina poznatih ležišta ima tlak u rasponu od 210 do 420 bar i temperaturu od 93 do 204 °C. Sastavi ležišnih fl uida široko variraju. Prema tipu, plinsko-kondenzatna ležišta mogu biti ležišta masnog (mokrog) plina i retrogradna kondenzatna ležišta. U oba tipa ležišta fl uid egzistira kao jedna, plinovita, faza pri početnim ležišnim uvjetima (razlika je u tome što se tekuća faza može formirati samo u retrogradnom tipu ležišta). Kod ležišta mokrog plina (wet gas) do kondenzacije može doći tek pri sniženju temperature u koloni uzlaznih cijevi (tubing) ili površinskoj opremi. Gruba klasifi kacija plinsko-kondenzatnih ležišta se može napraviti na bazi karakteristika tih ležišta pri početnim uvjetima – kriteriji ovise o izvorima: (a) ako je početni proizvodni plinski faktor (GOR) veći od 2.700 m 3 /m 3 (15.000 scf/ stb), a tlak i temperatura nisu veći od 560 bar (8.000 psi), odnosno 107 °C (225 °F), tada je vjerojatno da se u ležištu neće formirati tekuća faza; (b) ako je početni proizvodni plinski faktor između 1.070 i 2.700 m 3 /m 3 (6.000 i 15.000 scf/stb) – ležište može biti retrogradnog tipa; (c) ako je početni proizvodni plinski faktor između 535 i 1.070 m 3 /m 3 (3.000 i 6.000 scf/ stb) – ležište može sadržavati ili retrogradni plinski kondenzat ili isparljivu (hlapljivu) naftu; (d) ako je početni proizvodni plinski faktor između 535 i 1070 m 3 /m 3 (3.000 i 6.000 scf/stb) – ležište može sadržavati ili retrogradni plinski kondenzat ili isparljivu (hlapljivu) naftu, i (e) ako je ležišni plinski faktor između 900 i 1.800 m 3 /m 3 (5.000 i 10.000 scf/stb). Sinonimi:
gas-condensate reservoir with black oil band 347 gas-depletion drive oil reservoir condensate gas reservoir, condensate reservoir, singlephase reservoir; v. petroleum reservoir, gas reservoir, oil reservoir. gas-condensate reservoir with black oil band – plinsko-kondenzatno ležište s naftnom zonom. Klasifi kacija ležišta na bazi sastava fl uida. Ovisno o položaju na strukturi, bušotine će proizvoditi u cijelosti kondenzat, smjesu kondenzata i nafte ili samo naftu. gas-condensate reservoir with no black oil band – plinsko-kondenzatno ležište bez naftne zone. Klasifi kacija ležišta na bazi sastava fl uida. Početni proizvodni plinski faktor (GOR) uvijek je veći od 540 m 3 / m 3 i obično premašuje 1.100 m 3 /m 3 , ovisno o ležišnoj temperaturi, tlaku i sastavu fl uida. gas-condensate well – plinsko-kondenzatna bušotina. Bušotina koja proizvodi ugljikovodike iz plinskokondenzatnog ležišta (gas-condensate reservoir). gas conditioning – obrada (prerada) plina, v. gas processing. gas cone – plinski konus. Konus oko kanala bušotine koji je nastao napredovanjem plinsko-naftnog ili plinsko-vodenog kontakta prema dolje (inverzni konus) usljed prekomjerne proizvodnje fl uida; v. coning, gas coning. gas coning – nastanak (formiranje) plinskih konusa. Tendencija plina u naftnom ležištu da istiskuje naftu prema dolje u obliku inverznog konusa prema perforacijama kolone zaštitnih cijevi (casing). U ekstremnim slučajevima nastanka plinskog konusa naftna bušotina počinje proizvoditi plin; v. coning, water coning. gas constant – plinska konstanta. Konstanta proporcionalnosti u jednadžbi stanja idealnog plina. Jednaka je umnošku tlaka plina i njegova molnog volumena podijeljenom s temperaturom plina. Sinonimi: gaslaw constant, universal gas constant, universal molar gas constant. gas contract – ugovor o prodaji plina. Ugovor proizvođača prirodnog plina za prodaju plina u transportni plinovod ili korisniku. gas-cut drilling mud – zaplinjena (plinizirana) bušaća isplaka. Povratni bušaći isplačni fl uid (isplaka) s dna bušotine koji sadrži mjehuriće slojnog plina (s dispergiranim slojnim plinom). Karakteriziran je pahuljastom teksturom i smanjenom gustoćom zbog velike količine mjehurića plina koji je u nju dospjeo iz probušenih formacija (slojeva). Zaplinjena isplaka će malo sniziti tlak na dnu bušotine i također će smanjiti efi kasnost isplačne pumpe. Plin se iz isplake uklanja otplinjivačem (degasser). Sinonim: air-cut drilling mud, gassy drilling mud. gas-cut mud – zaplinjena (plinizirana) isplaka, v. gas-cut drilling mud. gas cycling – proces recirkulacije plina, v. cycling-process, 2. gas dehydration – dehidracija (dehidratacija, sušenje) plina. Uklanjanje vode i/ili vodene pare iz prirodnog plina u skladu sa specifi kacijama za transport plinovodima i/ili kvalitete plina za prodaju. Glavni razlozi za dehidraciju plina su: (a) sprječavanje nastanka plinskih hidrata (koji mogu začepiti ili blokirati ventile, fi tinge i čak transportne plinovode); (b) sprječavanje korozije (plin s vodom je korozivan, osobito ako sadržava sumporovodik i/ili ugljik-dioksid); (c) sprječavanje kondenzacije vode u plinovodima (kondenzacija može uzrokovati čepoliko strujanje u plinovodu, a moguća je i erozija i korozija plinovoda); (d) sprječavanje povećavanja volumena plina i smanjivanja njegove toplinske vrijednosti (kalorične moći); (e) specifi kacije u ugovorima o prodaji plina i specifi kacija za transport plina cjevovodima (ograničavaju maksimalni sadržaj vode u plinu za transport i prodaju na 112 g/1.000 m 3 plina, odnosno 7 lb/MMscf, a u područjima s hladnom klimom i na niže vrijednosti – od 50 do 80 g /1.000 m 3 plina ili 3 do 5 lb/MMscf); (f) podešavanje točke rosišta vode prema zahtjevu ugovora o prodaji plina (za najveće snižavanje rosišta se primjenjuje postupak adsorpcije kojim se sadržaj vode može smanjiti ispod 8 g/1.000 m 3 ili 0,5 lb/MMscf), i (g) omogućavanje rada kriogeničkih i apsorpcijskih postrojenja bez zamrzavanja zbog prisutnosti vode u plinu. Uobičajeno se primjenjuju sljedeće metode dehidracije plina – (a) tekućim sredstvima za dehidraciju (apsorpcijom tekućim sušilima ili desikantima, na primjer, otopinama glikola); (b) čvrstim sredstvima za dehidraciju (adsorpcijom na čvrstim sušilima ili desikantima, na primjer oksidu aluminija, silikagelu, molekularnom situ); (c) hlađenjem ekspanzijom (na postrojenju za niskotemperaturnu ekspanziju), i (d) kalcij-kloridom. Izbor metode dehidracije je obično između uporabe glikola i čvrstih sušila, a najčešće primjenjivana metoda dehidracije rabi trietilenglikol u apsorpcijskoj koloni (apsorberu). Sinonimi: dehydration of natural gas, natural-gas dehydration. gas dehydration by absorption – dehidracija plina apsorpcijom. Proces uklanjanja vode (vodene pare) iz plina organskim tekućim sušilom (desikantom). Najviše se upotrebljavaju glikoli – ranije dietilenglikol (DEG), sada trietilenglikol (TEG). Dehidracija se vrši u apsorpcijskoj koloni (apsorber). Vlažan plin ulazi u kolonu na njenom dnu i struji preko pregrada prema vrhu apsorbera, u smjeru suprotnom strujanju otopine glikola visoke koncentracije (koja ulazi na vrhu kolone) i tako dolazi u kontakt sa sušilom. Glikol uklanja od 75% do 95% vodene pare iz plina. Suhi plin izlazi na vrhu apsorbera i struji u otpremni plinovod, a razrijeđena otopina glikola izlazi na njegovu dnu, odlazi na regeneraciju i ponovno se vraća u proces sušenja u kolonu. gas dehydration by adsorption – dehidracija plina adsorpcijom. Proces uklanjanja vode (vodene pare) iz plina čvrstim sušilom (desikantom) kao adsorpcijskim sredstvom. Količina adsorbirane (uklonjene) vode ovisi o vrsti upotrijebljenog sušila i o njegovoj specifi čnoj površini. gas dehydrator – dehidrator (uređaj za dehidraciju) plina. Uređaj na poljima za uklanjanje vode (vodene pare) iz plina. Upotrebljavaju se razni tipovi dehidratora ovisno o metodi dehidracije – vertikalni i horizontalni apsorberi (kada se rabi tekuće sušilo – glikoli), adsorberi (kada se rabe čvrsta sušila – aluminij-oksid, silikagel, molekularna sita) i jedinice za dehidraciju ekspanzijskim hlađenjem. gas density – gustoća plina, v. density, relative density, relative density of gases, specifi c gravity. gas-depletion drive – režim otopljenog plina (ekspanzije otopljenog plina), volumetrijski režim, v. solutiongas drive. gas-depletion drive oil reservoir – naftno ležište s re
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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
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Electrolog, electrolog 280 electrov
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embossed rock 282 emulsion kristala
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encrinal limestone 284 endoskeleton
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enriched gas process 286 environmen
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Eonothem, eonothem 288 (2) Vremensk
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equigranular 290 equivalents per mi
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erratic 292 kada rabi kao sinonim z
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evaporation 294 evaporacijom (ispar
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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 328 and 329: formation density gamma-gamma loggi
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 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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Englesko hrvatski enciklopedijski rjeÄnik istraÅ¾ivanja i ... - Ina