Претрага
1008 items
-
Characterization of clays from Slatina (Ub, Serbia) for potential uses in the ceramic industry
Milošević M., Logar M., Kaluđerović L., Jelić I.. "Characterization of clays from Slatina (Ub, Serbia) for potential uses in the ceramic industry" in Energy Procedia Energy Procedia 125, :Elsevier (2017): 650-655. https://doi.org/10.1016/j.egypro.2017.08.270
-
Upper Miocene depositional environments of the Kikinda-Mokrin High (Serbia)
Saša Ivanišević, Dejan Radivojević (2018)Exploration for oil and gas in mature areas, such as the Pannonian Basin, can benefit from reexamination of old data using more advanced modern workflows that focus on the temporal and spatial aspects of sediment deposition. Specifically, we apply a new environment of deposition model that interprets the Upper Miocene- Pliocene sediments as being deposited in a rapidly filling basin characterized by quick shelf edge progradation from the northwest toward the southeast. Reconstruction of this shelf edge trajectory reveals ...Saša Ivanišević, Dejan Radivojević. "Upper Miocene depositional environments of the Kikinda-Mokrin High (Serbia)" in Interpretation, AAPG SEG (2018). https://doi.org/10.1190/INT-2017-0084.1
-
Tehnička i biološka rekultivacija deponije pepela i šljake na Površinskom kopu Gračanica, Gacko
Boban Crnogorac (2024)U završnom radu prikazane su faze rekultivacije u cilju uklanjanja degradiranih površina nastale usled deponovanja pepela i šljake, tehnološki proces nastajanja istih, kao i način transporta i odlaganja šljake i pepela. Primenjena je optimalna rekultivacija koja se sastoji od tehničke i biološke rekultivacije. Detaljno je predstavljen opis izvođenja radova tehničke i biološke rekultivacije, ukupni troškovi svih radova, kao i izbor metoda prevođenja degradiranih površina izazvanih odlaganjem šljake i pepela, u cilju njihove rekultivacije i rehabilitacije u njihov koliko je moguće prvobitni oblik. Ovi ciljevi se ...Površinska eksploatacija, PK „Gračanica“, Tehnička rekultivacija, Biološka rekultivacija, zaštita životne sredine, pepeo, šljaka... završetku faze 1 i 2 Po Glavnom projektu deponije pepela i šljake IRM Bor 2013.god.) završna kota deponije iznosi 940 m. Trenutno dostignute kote na deponiji pepela su od 936 m do 938 m. Po GRP-u deponija se formira na već degradiranim površinama tJ. unutar površinskog kopa Gračanica i u industrijskoj ...
... fazu su dati u tabeli 3.5. Tabela 3.5 - Troškovi utovara Zapremina Časovni Potrebno Lokacija | Faza | m al;eri'ala kapacitet v:eme za Cena Troškovi J 3'] ” | utovara KM/h KM m 3 utovar, h m/h Deponija 1 2 452 138,5 18 136,5 2 457 Deponija | 2 2 470 138,5 18 136,5 2 457 Ukupno 4922 36 4914 ...
... drenažnih cevi; • postavljanje kanaleta. Postaviće se 18 komada cevi dužine 2,7 m, a cena ovih cevi iznosi 5,1 KM/m kanaleta al LBOENDA MATEBIMLA drenažna cev -77 LAKIRAC#-IŠN 5 SLOJ4-05m |-- KF03m ZG HOMUSNISLOJ FI m kan _ Slika 3.11 - Poprečni prese.k sa d–etal]-'ima kanaleta i drenažnih ...Boban Crnogorac. Tehnička i biološka rekultivacija deponije pepela i šljake na Površinskom kopu Gračanica, Gacko, 2024
-
BEYOND 2020 - Geology explorations and open pit activities affectation in reclamation designing in Kolubara Coal Mines (KCM) Serbia, new considerations
Geology explorations in KCM runs from 1936. year up to these days and still ongoing. Results in >7,200 drill holes with ≈600,000 m of core drilling and gave lignite ore resources of > 4,1Bt, which 1,15Bt are excavated since 1986. of XIX up to early years of XXI century. For further mining operations in open pits stay 1,5Bt of lignite. Under waste heaps are ≈80 km2, additional 85 km2 should be filled. All of that masses/areas were, are ...Bojan Dimitrijević, Bogoljub Vučković, Radmila Gaćina. "BEYOND 2020 - Geology explorations and open pit activities affectation in reclamation designing in Kolubara Coal Mines (KCM) Serbia, new considerations" in 17th International Conference of the open and underwater mining of minerals, Sts. Constantine and Helena Resort, Varna, 18-22 September, Bulgaria, Sofia, Bulgaria : Scientific and Technical Union of Mining, Geology and Metallurgy, (2023)
-
Geološko-geofizički model dela Timočkog magmatskog kompleksa
Snežana M. Ignjatović (2014-06-30)Timočki magmatski kompleks (TMK) u geotektonskom smislu pripada KarpatoBalkanidimaistočne Srbije, koji su deo Tekijsko-Dakijske jedinice. TMK je nastaotokom kontinuirane vulkanske aktivnosti, koja je trajala oko deset miliona godina iodvijala se generalno u tri faze (Zimmerman et al., 2008, Kolb et al., 2013, Banješević,2006). Pomeranje vulkanskog fronta je išlo od istoka ka zapadu (von Quadt et al., 2002,2003, 2007). Ovaj kompleks pripada tetijskom evroazijskom metalogenetskom pojasu usvetu poznat po ležištima bakra i zlata (Janković, 1990).U doktorskoj disertaciji su prikazani rezultati ...Timočki magmatski kompleks, aeromagnetska istraživanja, gravimetrijskaistraživanja, 2D geološko-geofizički model, Valja Strž, magmatsko telo... visini od 100 m, 200 m, 300 m, 400 m, 500 m i 1000 m. Na anomalijskoj karti (Slika 10) postupak produţenje polja naviše uraĎen je sa korakom 0.1K, 0.2K, 0.3K, 0.4K, 0.5K i 1K, pri čemu vrednosti koraka respektivno odgovaraju visinama od 100 m, 200 m, 300 m, 400 m, 500 m i 1000 m na kojima se vrši ...
... 10000 11000 12000 13000 14000 -2 -1 0 1 2 h [m] x [m] g [10-5 m/s2] T [nT] T Tmod. x [m] x [m] g gmod. 0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 12000 13000 14000 -500 0 500 1000 x [m] TDR [rad] A B h [m] x [m] 1 ( = 2.35 t/m3 , = 0) 2 ( = 2.50 t/m3 , ...
... produženja polja naviše i izvoda nagiba. Kombinacija postupaka analitičkog produženja polja naviše sa korakom 0.1K (100 m), 0.2K (200 m), 0.3K (300 m), 0.4K (400 m), 0.5K (500 m), 1K (1000 m) zajedno sa izvodom ugla nagiba prikazana je na slikama 19a, 19b, 19c, 19d, 19e i 19f. Geološko-geofizički model ...Snežana M. Ignjatović. "Geološko-geofizički model dela Timočkog magmatskog kompleksa" in Универзитет у Београду, Универзитет у Београду, Рударско-геолошки факултет (2014-06-30)
-
Fe doped TiO2 prepared by microwave-assisted hydrothermal process for removal of As(III) and As(V) from water
Anđelković Ivan B, Stanković Dalibor M, Nešić Jelena, Krstić Jugoslav B, Vulić Predrag, Manojlović Dragan D, Roglić Goran M (2014)Anđelković Ivan B, Stanković Dalibor M, Nešić Jelena, Krstić Jugoslav B, Vulić Predrag, Manojlović Dragan D, Roglić Goran M. "Fe doped TiO2 prepared by microwave-assisted hydrothermal process for removal of As(III) and As(V) from water" in Industrial and Engineering Chemistry Research 53 no. 27, Washington:American Chemical Society (2014): 10841-10848. https://doi.org/10.1021/ie500849r
-
Ca-rich carbonates associated to ultrabasic-ultramafic melts: carbonatite remnants or limestone xenoliths? A case study from the late Miocene Morron de Villamayor volcano (Calatrava volcanic field, central Spain).
Lustrino, M., Prelević, D., Agostini, S., Gaeta, M., Di Rocco, T., Capizzi, L. S.. "Ca-rich carbonates associated to ultrabasic-ultramafic melts: carbonatite remnants or limestone xenoliths? A case study from the late Miocene Morron de Villamayor volcano (Calatrava volcanic field, central Spain)." in Geochimica et Cosmochimica Acta 185, :Pergamon (2016): 477-497. https://doi.org/10.1016/j.gca.2016.02.026
-
Optimizacija vodosnabdevanja podzemnim vodama u Srbiji
Dušan Polomčić, Zoran Stevanović, Petar Dokmanović, Vesna Ristić-Vakanjac, Bojan Hajdin, Saša Milanović, Dragoljub Bajić (2012)... Vodoprivredne osnove Srbije, ukupno se zahvata oko 23 m*/s podzemnih voda (Tabela 1). Tabela 1. Izdasnosti izvorista podzemnih voda u Srbiji prema tipu vodonosne sredine (m*/s) Table 1. Yield of groundwater sources in Serbia according to the type of aquifer (m/s) Osnovni Hidrogeoloska Aluviialni vodonosni ...
... 30% obnovljivih rezervi podzemnih od ukupno procenjenih 67 m 3 /s. U radu su prikazane rezerve i stanje aktuelnog zahvatanja podzemnih voda po zastupljenim tipovima izdani. Primenom prihranjivanja i regulacijom izdani obezbediti dodatnih 40 m 3 /s vode. U radu je prezentovan presek stanja po pitanju ...
... around 30% of the renewable groundwater reserves is being used of the estimated 67 m 3 /s. The work presents the reserves and state of the current groundwater tapping according to specific aquifer types. An additional 40 m 3 /s can be secured through aquifer regulation and artificial replenishment. ...Dušan Polomčić, Zoran Stevanović, Petar Dokmanović, Vesna Ristić-Vakanjac, Bojan Hajdin, Saša Milanović, Dragoljub Bajić. "Optimizacija vodosnabdevanja podzemnim vodama u Srbiji" in Zbornik radova XIV srpskog simpozijuma o hidrogeologiji sa međunarodnim učešćem, Zlatibor, 17-20. maj 2012. godine , Beograd : Rudarsko-geološki fakultet (2012)
-
Poboljšanje geotehničkih uslova izgradnje nasipa upotrebom geosintetika
Anastasija Radovanović (2024)Za potrebe izrade rada na Master akademskim studijama ,,Rudarsko-geološkog fakulteta,,, studijskog programa Geotehnika, pod mentorstvom prof. dr Gordane Hadži-Niković , izvršena je detaljna analiza stabilnosti kosina nasipa na Vranjskoj petlji. Geotehnička istraţivanja i ispitivanja terena izveo je “Zavod za geotehniku iz Instituta za puteve a.d. Beograd”, a investitor je “Javno preduzeće, Putevi Srbije”.Metodološki pristup koji je korišćen za analizu stabilnosti kosina nasipa jeste kabinetsko istraživanje dostavljene dokumentacije i geostatički proračuni analize stabilnosti kosina nasipa, korišćenjem savremenih softverskih alata.Krajnji zaključak izvedenih istraţivanja je da ...... ypeheH M 36ujeH. Hacun npxaBHor rnyra lIb-442 v nokanHMXx caobpahajHMua on npobuHe M neCKOBMTOr M uIrbyHKOBMTOr MaTepujana. Sa Hacune je yrnaBHOM KDpI/ILUheH MaTepMjal'I M3 nocmjehmx KkaMeHoO:;oMa M UITbyHKOBMTO-TeCKOBMTM nero3MTM M3 J. Mopane. Hacun ucno/n konoBo3a je TexHMukuM ypef}eH M 36\jeH ...
... slojeva geosintetika m, dobija se da je: _ M+ Žž Ti i E s MD 13 ym Slika 4.3 – Stabilnost kosine sa kružnom kliznom površinom ojačane sa m redova geosintetika gdje Je: – Ti- sila u geosintetiku u sloju i - yi- krak sile T; u odnosu na centar rotacije O – _ m- broj slojeva geosintetika ...
... Moment=4808.44 kN-m Driving Moment=7050.06 kN-m Resisting Horizontal Force=73.6977 kN Driving Horizontal Force=108.054 kN 60 70 80 90 1? 0 90 80 Safety Factor 0. .500 .000 .500 .000 .500 .000 .500 .000 .500 .000 .500 .000+ o OI OI m m OO . N NTE ...Anastasija Radovanović. Poboljšanje geotehničkih uslova izgradnje nasipa upotrebom geosintetika, 2024
-
Model predviđanja potresa od miniranja na površinskim kopovima primenom simulacione metode Monte Karlo i fazi logike
Milanka N. Negovanović (2015-06-30)Modeliranje predviđanja potresa tla od miniranja primenom fazi logike i metode MonteKarlo zasnovano je na podacima dobijenim terenskim merenjima potresa uzrokovanihminiranjem. Promenljive modela definisane su analizom parametara bušenja i miniranjaminskih serija, kao i velosigrama izmerenih potresa od miniranja. Iskorišćene suprednosti fazi logike u implementaciji mnogo većeg broja ulaznih i izlaznih veličina zamodeliranje u odnosu na postojeće empirijske modele. Na osnovu identičnih podataka,dobijen je regresioni model predviđanja potresa, da bi se izvršilo testiranje novogmodela. U cilju povećanja pouzdanosti modela predviđanja, ...model, predviđanje potresa, miniranje, površinski kop, Monte Karlo, fazilogika, regresiona analiza, FFT analiza, spektri odziva, pomeraj pukotina... in a ( m m /s ) 0.1 0.2 0.5 1 2 3 45 7 10 2030 50 100 200 500 1000 0.01 0.02 0.03 0.05 0.07 0.1 0.2 0.3 0.5 0.7 1 2 3 5 7 10 20 30 50 70 100 10 m m 5 m m 1 m m 0. 5 m m 0. 1 m m 0. 01 m m 0. 00 5 m m 0. 00 1 m m 0. 00 05 m m 0. 00 01 m m 5E -5 ...
... in a ( m m /s ) 0.1 0.20.3 0.5 1 2 3 4 5 7 10 20 30 50 100 200 500 1000 0.01 0.02 0.03 0.04 0.05 0.07 0.1 0.2 0.3 0.4 0.5 0.7 1 2 3 4 5 7 10 1 m m 0 .5 m m 0 .1 m m 0 .0 5 m m 0 .0 1 m m 0 .0 0 1 m m 0 .0 0 0 5 m m 0 .0 0 0 1 m m 1 E -5 m m 0 .5 g ...
... e u d o b rz in a ( m m /s ) 1 2 3 4 5 678 10 20 30 50 70 100 200 300 500 1000 0.1 0.2 0.3 0.4 0.5 0.7 1 2 3 4 5 7 10 20 30 40 50 70 100 1 m m 0. 5 m m 0. 1 m m 0. 01 m m 0. 00 5 m m 0. 00 1 m m 0. 00 05 m m 0. 00 01 m m 5 g 1 g 0.5 g 0.1 g 0 ...Milanka N. Negovanović. "Model predviđanja potresa od miniranja na površinskim kopovima primenom simulacione metode Monte Karlo i fazi logike" in Универзитет у Београду, Универзитет у Београду, Рударско-геолошки факултет (2015-06-30)
-
Model predviđanja potresa od miniranja na površinskim kopovima primenom simulacione metode Monte Karlo i fazi logike
Milanka N. Negovanović (2015-06-30)Modeliranje predviđanja potresa tla od miniranja primenom fazi logike i metode MonteKarlo zasnovano je na podacima dobijenim terenskim merenjima potresa uzrokovanihminiranjem. Promenljive modela definisane su analizom parametara bušenja i miniranjaminskih serija, kao i velosigrama izmerenih potresa od miniranja. Iskorišćene suprednosti fazi logike u implementaciji mnogo većeg broja ulaznih i izlaznih veličina zamodeliranje u odnosu na postojeće empirijske modele. Na osnovu identičnih podataka,dobijen je regresioni model predviđanja potresa, da bi se izvršilo testiranje novogmodela. U cilju povećanja pouzdanosti modela predviđanja, ...model, predviđanje potresa, miniranje, površinski kop, Monte Karlo, fazilogika, regresiona analiza, FFT analiza, spektri odziva, pomeraj pukotina... in a ( m m /s ) 0.1 0.2 0.5 1 2 3 45 7 10 2030 50 100 200 500 1000 0.01 0.02 0.03 0.05 0.07 0.1 0.2 0.3 0.5 0.7 1 2 3 5 7 10 20 30 50 70 100 10 m m 5 m m 1 m m 0. 5 m m 0. 1 m m 0. 01 m m 0. 00 5 m m 0. 00 1 m m 0. 00 05 m m 0. 00 01 m m 5E -5 ...
... in a ( m m /s ) 0.1 0.20.3 0.5 1 2 3 4 5 7 10 20 30 50 100 200 500 1000 0.01 0.02 0.03 0.04 0.05 0.07 0.1 0.2 0.3 0.4 0.5 0.7 1 2 3 4 5 7 10 1 m m 0 .5 m m 0 .1 m m 0 .0 5 m m 0 .0 1 m m 0 .0 0 1 m m 0 .0 0 0 5 m m 0 .0 0 0 1 m m 1 E -5 m m 0 .5 g ...
... e u d o b rz in a ( m m /s ) 1 2 3 4 5 678 10 20 30 50 70 100 200 300 500 1000 0.1 0.2 0.3 0.4 0.5 0.7 1 2 3 4 5 7 10 20 30 40 50 70 100 1 m m 0. 5 m m 0. 1 m m 0. 01 m m 0. 00 5 m m 0. 00 1 m m 0. 00 05 m m 0. 00 01 m m 5 g 1 g 0.5 g 0.1 g 0 ...Milanka N. Negovanović. "Model predviđanja potresa od miniranja na površinskim kopovima primenom simulacione metode Monte Karlo i fazi logike" in Универзитет у Београду, Универзитет у Београду, Рударско-геолошки факултет (2015-06-30)
-
Linear-motor plunger pump increases lifting efficiency
Bojan Martinović, Dušan Đekić, Dušan Danilović, Pavel Isaev. "Linear-motor plunger pump increases lifting efficiency" in Oil & Gas Journal (2022)
-
Design of a sucker rod pumping system
Ana Ponoćko (2024)For a long time in the history of oil production, sucker rod pumps have been the first and in many cases the only choice when it comes to mechanical extraction methods. Proper selection of each individual element of the system enables optimization, which entails benefits in the form of increased efficiency and reduced costs. The first part of the paper presents the underground and surface equipment of the rod pump and describes the operation of the entire system. The ...... function of the formation volume factor, the oil formation volume factor Bo (m*/m*), and the water formation volume factor Bw (m?/m?): qo+qw 32 n qoBo+qwBw — qo - oil production, (m*/m*) — qw- water production, (m?/m?) If all the gas passes through the pump, the volumetric efficiency increases ...
... Wi I I I I I I | I I I I I I -š i •— i m. m.s..mn .:wš·.m w m j m m·:.·&·n.•um·,!_&· “ m MALULIKKKIKI ı- - K -. | i WLa| — . } _ || || -8 ı- | || || | m ” l I I I I I I I I _\n S E I K K N K U E - y r ...
... lo ci ty (m /s ) e PR Ve lo ci ty (m /s ) e 0 MK 2 % “ M O NM M % 0 '#4”Rn 8 3 ć&s20 x 16 20 &&340 28 «' «%#%O PR Positon (cm) Crank Angle (degrees) Plunger Veloctty Plot Maximum Upstroke Polished Rod Velocity (m/s) : ,638 Maximum Downstroke Polished Rod Velocity (m/s) : 651 Maximum ...Ana Ponoćko. Design of a sucker rod pumping system, 2024
-
Application of ERT in the study of debris-flow source area: Case study Selanac debris flow
Dragana Đurić, Jelka Krušić, Biljana Abolmasov. "Application of ERT in the study of debris-flow source area: Case study Selanac debris flow" in 11th Congress of the Balkan Geophysical Society, Volume 2021, Online-Romania, 10 -14. Oct 2021,, European Association of Geoscientists & Engineers (2021). https://doi.org/10.3997/2214-4609.202149BGS15
-
Two new zincophosphates, (H3NCH2CH2NH3)2[Zn(m-PO4)2] and (NH4)[(H3N)Zn{(m-PO4)Zn}3]: Crystal structures and relationships to similar open framework zinco - and aluminophospates
Karanović Ljiljana, Poleti Dejan, Đorđević Tamara, Šutović Sabina. "Two new zincophosphates, (H3NCH2CH2NH3)2[Zn(m-PO4)2] and (NH4)[(H3N)Zn{(m-PO4)Zn}3]: Crystal structures and relationships to similar open framework zinco - and aluminophospates" in Journal of Solid State Chemistry 184 no. 9, 525 B St, Ste 1900; San Diego; CA 92101-4495:Academic Press (2011): 2506-2515. https://doi.org/10.1016/j.jssc.2011.07.030
-
Structural, Morphological and Electrical Properties of Multi-Doped Calcium Phosphate Materials as Solid Electrolytes for Intermediate Temperature Solid Oxide Fuel Cells
Mirković M. Miljana, Došen, M. Anja, Erić P. Suzana, Stojmenović D. Marija, Matović Z. Branko, Rosić A. Aleksandra (2018)Mirković M. Miljana, Došen, M. Anja, Erić P. Suzana, Stojmenović D. Marija, Matović Z. Branko, Rosić A. Aleksandra. "Structural, Morphological and Electrical Properties of Multi-Doped Calcium Phosphate Materials as Solid Electrolytes for Intermediate Temperature Solid Oxide Fuel Cells" in Science of Sintering 50 no. 1, Beograd:International Institute for the Science of Sintering, Belgrade, Serbia (IISS) (2018): 95-109. https://doi.org/10.2298/SOS1801095M
-
Structural, Morphological and Electrical Properties of Multi-Doped Calcium Phosphate Materials as Solid Electrolytes for Intermediate Temperature Solid Oxide Fuel Cells
Mirković Miljana M., Došen Anja M., Erić Suzana P., Stojmenović, Marija D., Matović Branko Z., Rosić Aleksandra A. (2018)Mirković Miljana M., Došen Anja M., Erić Suzana P., Stojmenović, Marija D., Matović Branko Z., Rosić Aleksandra A.. "Structural, Morphological and Electrical Properties of Multi-Doped Calcium Phosphate Materials as Solid Electrolytes for Intermediate Temperature Solid Oxide Fuel Cells" in Science of Sintering 1 no. 50, Beograd:Međunarodni Institut za nauku o sinterovanju (2018): 95-109. https://doi.org/https://doi.org/10.2298/SOS180
-
Development of an integrated model for open-pit-mine discontinuous haulage system optimization
Miodrag Čelebić, Dragoljub Bajić, Sanja Bajić, Mirjana Banković, Duško Torbica, Aleksej Milošević , Dejan Stevanović (2024)Miodrag Čelebić, Dragoljub Bajić, Sanja Bajić, Mirjana Banković, Duško Torbica, Aleksej Milošević , Dejan Stevanović . "Development of an integrated model for open-pit-mine discontinuous haulage system optimization" in Sustainability, MDPI (2024). https://doi.org/10.3390/su16083156
-
Numerical modeling of Selanac debris flow propagation using SPH code
The Selanac debris flow is a very huge event triggered after extreme rainfall caused by Cyclone Tamara activity in the Republic of Serbia in May 2014. The Selanac case study was already modelling in different programs using Voellmy rheology assumptions like RAMMS software. In this paper research are focusing particularly on the process of debris flowing from initiation zone to main deposition area using Geoflow SPH two-phase model considering frictional rheology law. Main rheological parameters are back-calculated using also ...... profiles. According to geophysical ERT investigation, the highest depths of the deposits are about 20 m. Calculated final volume is about 495 000 m 3 while initial volume was computed to be 447 400 m 3 . The results of erosion depth at different time steps are given in Fig.4. SCG-XIII ...
... . Pastor, M., Fernández Merodo, J.A., Herreros, I., Mira, P., González, E., Haddad, B., Quecedo, M., Tonni, L., Drempetic, V. (2008) ‘’Mathematical, constitutive and numerical modelling of catastrophic landslides and related phenomena’’. Rock Mech Rock Eng 41:85–132. Pastor, M., Blanc, T., ...
... Marjanović, Manuel Pastor, Saeid M. Tayyebi Дигитални репозиторијум Рударско-геолошког факултета Универзитета у Београду [ДР РГФ] Numerical modeling of Selanac debris flow propagation using SPH code | Jelka Krušić, Biljana Abolmasov, Miloš Marjanović, Manuel Pastor, Saeid M. Tayyebi | SCG-XIII International ...Jelka Krušić, Biljana Abolmasov, Miloš Marjanović, Manuel Pastor, Saeid M. Tayyebi . "Numerical modeling of Selanac debris flow propagation using SPH code" in SCG-XIII International Symposium on Landslides. Cartagena, Colombia- February 22-26, 2021, International Society for Soil Mechanics And Geotechnical Engineering (2021)
-
Analysis and visualization of geophysical well-logging data from closely spaced boreholes
Geophysical logging measurements for determining the condition of the rock mass on the dam profile and locating the predisposed directions of water circulation and loss from the reservoir were conducted in four boreholes distributed at a close distance. The survey was carried out in a typical karst terrain, which is an additional challenge for defining the geological model, especially in terms of water retention. That kind of data set provides an excellent opportunity for a new approach to analysis ...... Mutnte TpkajteckH Np Baapa HayaQ /leca CrtacoBcka M-p Mapuja CrojaHoBa, Canrto I eoprHeBckH M-p Kuka IHInparoBa /leauc I eoprHeB M-p Mapuja MaugeBa, /laMurap I eopraeB M-p CrojaHue HHKOJIOB BaHuo AHreJIoB M-p Ewait IerpynteB, VcenH Baratmron M-Pp IIenuo PacTeBcCKH TexuHuuku ype/JiHuHk: HnpuHia ...
... to n( m) Detance (m) Figure 1. Integration of 1D log data Kom boreholes into 2D view. Examples: (a) gamma ray and (b) spontaneous-potential logs. Sn-Gamma (b) R a 4 Sp-Gamma (a) Pwat3 Ele vat ion ( m). Ele vat ion ( m) Ele vat ion ( m) o 5 t 0820 25 Distance (m) 0 5 ...
... MakeJIOHCKO TČOJIOHIKO JIpyITTBO IynaBHH H 0JIT0OBOpHu ype/iHuHiH IIpoQ. m-p Tonop Cepa(Q)HMoBckH H IIpoQ. m-p Bnaxo Boen Opranu3anuckKu o0/10o0p: IIpoQ. n-p Coma JIenarKoBa M-p /lgHMurap IIerpoB IIpoQ. n-p Munopajn JOBaHOBCKH ~ M-Pp 3aTKoO IIenTeKOBCKH IIpoQ. n-p Fopru JUHMoB, Ooperr duuc IIpodo ...Branislav Sretković, Ivana Vasiljević, Dimitry Sidorov - Biryukov. "Analysis and visualization of geophysical well-logging data from closely spaced boreholes" in Vth Congress of the Geologists of the Republic of North Macedonia, Ohrid, Republic of North Macedonia, September 27-28, 2024, Macedonian Geological Society (2024)