Pretraga rezultata za izvrsnost 2025

IBI: AG045; Dejan Brkić***, viši naučni saradnik, Univerzitet u Nišu, Elektronski fakultet; Polje: tehničko tehnološke i biotehničke nauke; Period: 2020-2024;

eNauka profil: rp01427; ORCID: 0000-0002-2502-0601;

WOS indikatori: NR = 73; TC = 1094; HIndex = 22;

eNauka WOS indikatori: NR = 74; TC = 1071; HIndex = 21 ;

Lista A broj bodova: 137.3845 (346) 13.0%; Lista B broj bodova: 883.077 (346) 2.0%; Lista C broj bodova: 0.000 (0) nan%; Lista A broj bodova kolaboracije: 0.000 (0) nan%; Lista B broj bodova kolaboracije: 0.000 (0) nan%;

Statistika svih rezultata

StatistikaUkupno2013-20242015-20242018-20242020-2024
Broj rezultata7346433724
Broj citata1094886
Broj M bodova144.00144144.00144
Normirani broj citata1088.45883.07
Normirani broj M bodova rezultata kategorije M21a++M21a+M21+M22+M23+M24137.38137.38137.38137.38
Normirani broj M bodova rezultata kategorije M11+M12+M13+M14+M410.000.000.000.00
Normirani broj M bodova rezultata kategorije M11+M12+M13+M14+M41+M420.000.000.000.00
Normirani broj M bodova rezultata kategorije M510.000.000.000.00
Normirani broj M bodova rezultata kategorije M43+M440.000.000.000.00

Statistika rezultata nastalih u medunarodnim kolaboracijama

StatistikaUkupno2013-20242015-20242018-20242020-2024
Broj rezultata sa 20 i više autora00000
Broj citata rezultata sa 20 i više autora00
Broj M bodova rezultata M21a++M21a+M21+M22+M23 sa 20 i više autora0.0000.000
Normirani broj citata rezultata sa 20 i više autora0.000.00
Normirani broj M bodova rezultata M21a++M21a+M21+M22+M23 sa 20 i više autora0.000.00

Rezultati

RBIBIGodinaKatTipVrstaReferencaTCTCPBANBBNTCNaslovAutori
1.AG0452008SENERGY Vol. 33 (12): # 1738 - 1753 (16), (DOI: 10.1016/j.energy.2008.08.009) DEC 2008WOS34182018.0000Systematic approach to natural gas usage for domestic heating in urban areasBrkic D, Tanaskovic T
2.AG0452008TOIL & GAS JOURNAL Vol. 106 (48): # 52 - 54 (3), (DOI: ) DEC 22 2008WOS21101.0000Serbian, Russian pipeline accord enhances European gas securityBrkic D
3.AG0452009TAPPLIED ENERGY Vol. 86 (7-8): # 1290 - 1300 (11), (DOI: 10.1016/j.apenergy.2008.10.005) JUL-AUG 2009WOS55411041.0000An improvement of Hardy Cross method applied on looped spatial natural gas distribution networksBrkic D
4.AG0452009TENERGY POLICY Vol. 37 (5): # 1925 - 1938 (14), (DOI: 10.1016/j.enpol.2009.01.031) MAY 2009WOS74104.0000Serbian gas sector in the spotlight of oil and gas agreement with RussiaBrkic D
5.AG0452009TINTERNATIONAL JOURNAL OF MINERAL PROCESSING Vol. 92 (3-4): # 201 - 202 (2), (DOI: 10.1016/j.minpro.2009.03.010) AUG 1 2009WOS30100.0000Comments on "Settling velocities of particulate systems 15: Velocities in turbulent Newtonian flows"Brkic D
6.AG0452011SJOURNAL OF PROFESSIONAL ISSUES IN ENGINEERING EDUCATION AND PRACTICE Vol. 137 (1): # 46 - 48 (3), (DOI: 10.1061/(ASCE)EI.1943-5541.0000039) JAN 2011WOS00200.0000Discussion of "Classroom Activities to Illustrate Concepts of Darcy's Law and Hydraulic Conductivity" by Roseanna M. Neupauer and Norman D. DennisBrkic D, Mitrovic V
7.AG0452011TWATER RESOURCES MANAGEMENT Vol. 25 (12): # 2951 - 2987 (37), (DOI: 10.1007/s11269-011-9784-3) SEP 2011WOS34281028.0000Iterative Methods for Looped Network Pipeline CalculationBrkic D
8.AG0452011TAPPLIED MATHEMATICS LETTERS Vol. 24 (8): # 1379 - 1383 (5), (DOI: 10.1016/j.aml.2011.03.014) AUG 2011WOS40301030.0000W solutions of the CW equation for flow frictionBrkic D
9.AG0452011TNUCLEAR ENGINEERING AND DESIGN Vol. 241 (9): # 4055 - 4059 (5), (DOI: 10.1016/j.nucengdes.2011.07.042) SEP 2011WOS39281028.0000New explicit correlations for turbulent flow friction factorBrkic D
10.AG0452011TJOURNAL OF PETROLEUM SCIENCE AND ENGINEERING Vol. 77 (1): # 34 - 48 (15), (DOI: 10.1016/j.petrol.2011.02.006) APR 2011WOS17113010130.0000Review of explicit approximations to the Colebrook relation for flow frictionBrkic D
11.AG0452011TPETROLEUM SCIENCE AND TECHNOLOGY Vol. 29 (4): #PII 932264292 366 - 377 (12), (DOI: 10.1080/10916460903394003) 2011WOS22151015.0000A Gas Distribution Network Hydraulic Problem from PracticeBrikic D
12.AG0452011TPETROLEUM SCIENCE AND TECHNOLOGY Vol. 29 (15): #PII 938496705 1596 - 1602 (7), (DOI: 10.1080/10916461003620453) 2011WOS36301030.0000An Explicit Approximation of Colebrook's Equation for Fluid Flow Friction FactorBrkic D
13.AG0452012TINTERNATIONAL JOURNAL OF HYDROGEN ENERGY Vol. 37 (14): # 10963 - 10964 (2), (DOI: 10.1016/j.ijhydene.2012.04.074) JUL 2012WOS54104.0000Comments on "Experimental study of the pressure drop in the cathode side of air-forced open-cathode proton exchange membrane fuel cells" by Barreras et al., Int. J. Hydrogen Energy, 36 (13) 2011, 7612-7620Brkic D
14.AG0452012TINTERNATIONAL JOURNAL OF REFRIGERATION-REVUE INTERNATIONALE DU FROID Vol. 35 (1): # 209 - 215 (7), (DOI: 10.1016/j.ijrefrig.2011.09.012) JAN 2012WOS21191019.0000Can pipes be actually really that smooth?Brkic D
15.AG0452012TJOURNAL OF ENERGY ENGINEERING-ASCE Vol. 138 (3): # 163 - 164 (2), (DOI: 10.1061/(ASCE)EY.1943-7897.0000046) SEP 2012WOS00100.0000Discussion of "Sustainable Electric Power System: Is It Possible? Case Study: Croatia" by Zvonimir Glasnovic and Jure MargetaBrkic D
16.AG0452012TJOURNAL OF HYDRAULIC ENGINEERING Vol. 138 (11): # 1000 - 1001 (2), (DOI: 10.1061/(ASCE)HY.1943-7900.0000529) NOV 2012WOS55105.0000Discussion of "Jacobian Matrix for Solving Water Distribution System Equations with the Darcy-Weisbach Head-Loss Model" by Angus Simpson and Sylvan ElhayBrkic D
17.AG0452012TJOURNAL OF HYDRAULIC ENGINEERING-ASCE Vol. 138 (9): # 822 - 824 (3), (DOI: 10.1061/(ASCE)HY.1943-7900.0000555) SEP 2012WOS64104.0000Discussion of "Water Distribution System Analysis: Newton-Raphson Method Revisited" by M. Spiliotis and G. TsakirisBrkic D
18.AG0452012TENGINEERING COMPUTATIONS Vol. 29 (5-6): # 617 - 630 (14), (DOI: 10.1108/02644401211246337) 2012WOS25231023.0000Comparison of the Lambert W-function based solutions to the Colebrook equationBrkic D
19.AG0452012TCHEMICAL ENGINEERING Vol. 119 (3): # 34 - 39 (6), (DOI: ) MAR 2012WOS22171017.0000Determining Friction Factors in Turbulent Pipe FlowBrkic D
20.AG0452013EINTERNATIONAL JOURNAL OF MECHANICAL SCIENCES Vol. 67 (): # 10 - 13 (4), (DOI: 10.1016/j.ijmecsci.2012.11.017) FEB 2013WOS35282028.0000Very accurate explicit approximations for calculation of the Colebrook friction factorCojbasic Z, Brkic D
21.AG0452013TJOURNAL OF HYDRAULIC ENGINEERING Vol. 140 (4): # - (3), (DOI: 10.1061/(ASCE)HY.1943-7900.0000769) NOV 1 2013WOS22102.0000Discussion of "Method to Cope with Zero Flows in Newton Solvers for Water Distribution Systems" by Nikolai B. Gorev, Inna F. Kodzhespirov, Yuriy Kovalenko, Eugenio Prokhorov, and Gerardo TrapagaBrkic D
22.AG0452014TJOURNAL OF PETROLEUM SCIENCE AND ENGINEERING Vol. 124 (): # 399 - 401 (3), (DOI: 10.1016/j.petrol.2014.06.007) DEC 2014WOS88108.0000Discussion of "Gene expression programming analysis of implicit Colebrook-White equation in turbulent flow friction factor calculation" by Saeed Samadianfard [J. Pet. Sci. Eng. 92-93 (2012) 48-55]Brkic D
23.AG0452016ECOMPUTATIONAL INTELLIGENCE AND NEUROSCIENCE Vol. 2016 (): #5242596 - (10), (DOI: 10.1155/2016/5242596) 2016WOS26252025.0000Intelligent Flow Friction EstimationBrkic D, Cojbasic Z
24.AG0452016TINTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER Vol. 93 (): # 513 - 515 (3), (DOI: 10.1016/j.ijheatmasstransfer.2015.08.109) FEB 2016WOS22181018.0000A note on explicit approximations to Colebrook's friction factor in rough pipes under highly turbulent casesBrkic D
25.AG0452016TSPREADSHEETS IN EDUCATION Vol. 9 (2): #4 - (21), (DOI: ) 2016WOS15141014.0000Spreadsheet-Based Pipe Networks Analysis for Teaching and Learning PurposeBrkic D
26.AG0452017EFLUIDS Vol. 2 (2): #15 - (27), (DOI: 10.3390/fluids2020015) JUN 2017WOS34342034.0000Evolutionary Optimization of Colebrook's Turbulent Flow Friction ApproximationsBrkic D, Cojbasic Z
27.AG0452017TJOURNAL OF HYDRAULIC ENGINEERING Vol. 143 (9): #7017007 - (2), (DOI: 10.1061/(ASCE)HY.1943-7900.0001341) SEP 2017WOS88108.0000Discussion of "Exact Analytical Solutions of the Colebrook-White Equation" by Yozo Mikata and Walter S. WalczakBrkic D
28.AG0452017TSPREADSHEETS IN EDUCATION Vol. 10 (2): #2 - (13), (DOI: ) 2017WOS23211021.0000Solution of the Implicit Colebrook Equation for Flow Friction Using ExcelBrkic D
29.AG0452018TJOURNAL OF PIPELINE SYSTEMS ENGINEERING AND PRACTICE Vol. 9 (3): #07018002 - (3), (DOI: 10.1061/(ASCE)PS.1949-1204.0000319) AUG 2018WOS10101010.0000Discussion of "Economics and Statistical Evaluations of Using Microsoft Excel Solver in Pipe Network Analysis" by I. A. Oke, A. Ismail, S. Lukman, S. O. Ojo, O. O. Adeosun, and M. O. NwudeBrkic D
30.AG0452018TADVANCES IN CIVIL ENGINEERING Vol. 2018 (): #5451034 - (18), (DOI: 10.1155/2018/5451034) 2018WOS29272027.0000Advanced Iterative Procedures for Solving the Implicit Colebrook Equation for Fluid Flow FrictionPraks P, Brkic D
31.AG0452018TAPPLIED SCIENCES-BASEL Vol. 8 (11): #2036 - (13), (DOI: 10.3390/app8112036) NOV 2018WOS30282028.0000Unified Friction Formulation from Laminar to Fully Rough Turbulent FlowBrkic D, Praks P
32.AG0452018TENERGIES Vol. 11 (7): #1825 - (12), (DOI: 10.3390/en11071825) JUL 2018WOS18172017.0000One-Log Call Iterative Solution of the Colebrook Equation for Flow Friction Based on Pade PolynomialsPraks P, Brkic D
33.AG0452018TPROCESSES Vol. 6 (8): #130 - (17), (DOI: 10.3390/pr6080130) AUG 2018WOS23232023.0000Choosing the Optimal Multi-Point Iterative Method for the Colebrook Flow Friction EquationPraks P, Brkic D
34.AG0452018TWATER Vol. 10 (9): #1175 - (14), (DOI: 10.3390/w10091175) SEP 2018WOS23222022.0000Symbolic Regression-Based Genetic Approximations of the Colebrook Equation for Flow FrictionPraks P, Brkic D
35.AG0452019TAPPLIED SCIENCES-BASEL Vol. 9 (10): #2019 - (15), (DOI: 10.3390/app9102019) MAY 2 2019WOS17142014.0000Short Overview of Early Developments of the Hardy Cross Type Methods for Computation of Flow Distribution in Pipe NetworksBrkic D, Praks P
36.AG0452019TCOMPUTATION Vol. 7 (3): #48 - (12), (DOI: 10.3390/computation7030048) SEP 2019WOS76206.0000Colebrook's Flow Friction Explicit Approximations Based on Fixed-Point Iterative Cycles and Symbolic RegressionBrkic D, Praks P
37.AG0452019TFLUIDS Vol. 4 (2): #73 - (19), (DOI: 10.3390/fluids4020073) JUN 2019WOS16142014.0000An Efficient Iterative Method for Looped Pipe Network Hydraulics Free of Flow-CorrectionsBrkic D, Praks P
38.AG0452019TFLUIDS Vol. 4 (3): #114 - (13), (DOI: 10.3390/fluids4030114) SEP 2019WOS33203.0000What Can Students Learn While Solving Colebrook's Flow Friction Equation?Brkic D, Praks P
39.AG0452019TMATHEMATICS Vol. 7 (1): #34 - (14), (DOI: 10.3390/math7010034) JAN 2019WOS40352035.0000Accurate and Efficient Explicit Approximations of the Colebrook Flow Friction Equation Based on the Wright ω-FunctionBrkic D, Praks P
40.AG0452019TMATHEMATICS Vol. 7 (5): #410 - (7), (DOI: 10.3390/math7050410) MAY 2019WOS22202.0000Accurate and Efficient Explicit Approximations of the Colebrook Flow Friction Equation Based on the Wright -Function: Reply to DiscussionBrkic D, Praks P
41.AG0452019TMATHEMATICS Vol. 7 (10): #951 - (2), (DOI: 10.3390/math7100951) OCT 2019WOS00200.0000Accurate and Efficient Explicit Approximations of the Colebrook Flow Friction Equation Based on the Wright ω-Function (vol 7, pg 34, 2019)Brkic D, Praks P
42.AG0452020M21a+TArticleMATHEMATICS Vol. 8 (1): #26 - (8), (DOI: 10.3390/math8010026) JAN 2020WOS44220.00004.0000Rational Approximation for Solving an Implicitly Given Colebrook Flow Friction EquationPraks P, Brkic D
43.AG0452020M21TArticleJOURNAL OF MARINE SCIENCE AND ENGINEERING Vol. 8 (8): #555 - (11), (DOI: 10.3390/jmse8080555) AUG 2020WOS161428.000014.0000Proper Use of Technical Standards in Offshore Petroleum IndustryBrkic D, Praks P
44.AG0452020M22TArticlePROCESSES Vol. 8 (6): #686 - (12), (DOI: 10.3390/pr8060686) JUN 2020WOS7725.00007.0000Air-Forced Flow in Proton Exchange Membrane Fuel Cells: Calculation of Fan-Induced Friction in Open-Cathode Conduits with Virtual RoughnessBrkic D, Praks P
45.AG0452020M23TReviewREVISTA INTERNACIONAL DE METODOS NUMERICOS PARA CALCULO Y DISENO EN INGENIERIA Vol. 36 (3): # - (8), (DOI: 10.23967/j.rimni.2020.09.001) 2020WOS272323.000023.0000Review of new flow friction equations: Constructing Colebrook's explicit correlations accuratelyPraks P, Brkic D
46.AG0452020M21a+TEditorial MaterialMATHEMATICS Vol. 8 (5): #796 - (6), (DOI: 10.3390/math8050796) MAY 2020WOS11201.0000Accurate and Efficient Explicit Approximations of the Colebrook Flow Friction Equation Based on the Wright ω-Function: Reply to the Discussion by Majid NiazkarPraks P, Brkic D
47.AG0452020M21TEditorial MaterialJOURNAL OF HYDRAULIC ENGINEERING Vol. 146 (5): #07020007 - (3), (DOI: 10.1061/(ASCE)HY.1943-7900.0001746) MAY 1 2020WOS00200.0000Discussion of "Friction Modeling of Flood Flow Simulations" by Vasilis Bellos, Ioannis Nalbantis, and George TsakirisBrkic D, Praks P
48.AG0452021M21aSReviewFACTA UNIVERSITATIS-SERIES MECHANICAL ENGINEERING Vol. 19 (2): # 253 - 269 (17), (DOI: 10.22190/FUME210111044B) 2021WOS1615212.000015.0000EXCEL VBA-BASED USER DEFINED FUNCTIONS FOR HIGHLY PRECISE COLEBROOK'S PIPE FLOW FRICTION APPROXIMATIONS: A COMPARATIVE OVERVIEWBrkic D, Stajic Z
49.AG0452021M21SArticleJOURNAL OF MARINE SCIENCE AND ENGINEERING Vol. 9 (3): #331 - (11), (DOI: 10.3390/jmse9030331) MAR 2021WOS131028.000010.0000Offshore Oil and Gas Safety: Protection against ExplosionsBrkic D, Stajic Z
50.AG0452021M21SArticleWATER Vol. 13 (6): #796 - (15), (DOI: 10.3390/w13060796) MAR 2021WOS5558.00005.0000Simplified Indirect Estimation of Pump Flow Discharge: An Example from SerbiaAmon M, Radic M, Stajic Z, Brkic D, Praks P
51.AG0452021M21TArticleFIRE-SWITZERLAND Vol. 4 (4): #71 - (23), (DOI: 10.3390/fire4040071) DEC 2021WOS291828.000018.0000Probability Analysis and Prevention of Offshore Oil and Gas Accidents: Fire as a Cause and a ConsequenceBrkic D, Praks P
52.AG0452021M23EArticleREVISTA INTERNACIONAL DE METODOS NUMERICOS PARA CALCULO Y DISENO EN INGENIERIA Vol. 37 (4): # - (12), (DOI: 10.23967/j.rimni.2021.12.002) 2021WOS3243.00002.0000The volatility of natural gas prices - Structural shocks and influencing factorsStajic L, Dordevic B, Ilic S, Brkic D
53.AG0452021M24SProceedings Paper2021 22ND INTERNATIONAL CARPATHIAN CONTROL CONFERENCE (ICCC) Vol. (): # 230 - 233 (4), (DOI: 10.1109/ICCC51557.2021.9454641) 2021WOS32601.6667Methods of Artificial Intelligence for Simulation of Gasification of Biomass and Communal WastePraks P, Brkic D, Najser J, Najser T, Praksova R, Stajic Z
54.AG0452021M21TEditorial MaterialJOURNAL OF MARINE SCIENCE AND ENGINEERING Vol. 9 (4): #404 - (2), (DOI: 10.3390/jmse9040404) APR 2021WOS44204.0000Safe, Secure and Sustainable Oil and Gas Drilling, Exploitation and Pipeline Transport OffshoreBrkic D, Praks P
55.AG0452022M21SArticleAXIOMS Vol. 11 (5): #198 - (11), (DOI: 10.3390/axioms11050198) MAY 2022WOS6558.00005.0000Hydraulic Losses in Systems of Conduits with Flow from Laminar to Fully Turbulent: A New Symbolic Regression FormulationMilosevic M, Brkic D, Praks P, Litricin D, Stajic Z
56.AG0452022M21TArticleAXIOMS Vol. 11 (2): #36 - (8), (DOI: 10.3390/axioms11020036) FEB 2022WOS7528.00005.0000Approximate Flow Friction Factor: Estimation of the Accuracy Using Sobol's Quasi-Random SamplingPraks P, Brkic D
57.AG0452022M21TArticleAXIOMS Vol. 11 (9): #463 - (10), (DOI: 10.3390/axioms11090463) SEP 2022WOS7365.00001.8750Selection of Appropriate Symbolic Regression Models Using Statistical and Dynamic System Criteria: Example of Waste GasificationPraks P, Lampart M, Praksová R, Brkic D, Kozubek T, Najser J
58.AG0452022M21TArticleJOURNAL OF MARINE SCIENCE AND ENGINEERING Vol. 10 (6): #803 - (9), (DOI: 10.3390/jmse10060803) JUN 2022WOS2238.00002.0000Reliability-Based Criterion for Evaluating Explicit Approximations of Colebrook EquationEasa S, Lamri A, Brkic D
59.AG0452022M21TArticleSUSTAINABILITY Vol. 14 (4): #2002 - (12), (DOI: 10.3390/su14042002) FEB 2022WOS4455.71432.8571Steady-State Analysis of Electrical Networks in Pandapower Software: Computational Performances of Newton-Raphson, Newton-Raphson with Iwamoto Multiplier, and Gauss-Seidel MethodsVysocky J, Foltyn L, Brkic D, Praksová R, Praks P
60.AG0452023M21TArticleAXIOMS Vol. 12 (9): #850 - (13), (DOI: 10.3390/axioms12090850) SEP 2023WOS6246.66671.6667Symbolic Regression Approaches for the Direct Calculation of Pipe DiameterBrkic D, Praks P, Praksová R, Kozubek T
61.AG0452023M22TEditorial MaterialJOURNAL OF IRRIGATION AND DRAINAGE ENGINEERING Vol. 149 (7): #07023016 - (2), (DOI: 10.1061/JIDEDH.IRENG-10071) JUL 1 2023WOS22202.0000Discussion of "Explicit Solution for Pipe Diameter Problem Using Lambert W-Function"Brkic D, Praks P
62.AG0452024M21TArticleCOMPUTATION Vol. 12 (2): #25 - (15), (DOI: 10.3390/computation12020025) FEB 2024WOS2118.00001.0000Two Iterative Methods for Sizing Pipe Diameters in Gas Distribution Networks with LoopsBrkic D
63.AG0452024M21TArticleJOURNAL OF MARINE SCIENCE AND ENGINEERING Vol. 12 (9): #1663 - (14), (DOI: 10.3390/jmse12091663) SEP 2024WOS4018.00000.0000Revised Friction Groups for Evaluating Hydraulic Parameters: Pressure Drop, Flow, and Diameter EstimationBrkic D
64.AG0452024M22TArticleENERGY EXPLORATION & EXPLOITATION Vol. 42 (1): # 330 - 340 (11), (DOI: 10.1177/01445987231215445) JAN 2024WOS4115.00001.0000Serbian Energy Sector in a Gap Between East and WestBrkic D
65.AG0452024M21a+TLetterNATURE Vol. 626 (8000): # 716 - 716 (1), (DOI: 10.1038/d41586-024-00514-w) FEB 22 2024WOS00100.0000Serbia rewards top 10% of its scientistsBrkic D
66.AG0452025SURBAN SCIENCE Vol. 9 (7): #284 - (32), (DOI: 10.3390/urbansci9070284) JUL 21 2025WOS00300.0000Natural Gas Heating in Serbian and Czech Towns: The Role of Urban Topologies and Building TypologiesBrkic D, Stajic Z, Novakovic D
67.AG0452025SELECTRONIC RESEARCH ARCHIVE Vol. 33 (9): # - (21), (DOI: 10.3934/era.2025231) 2025WOS00500.0000Reducing the number of input variables through symbolic regressionBrkic D, Praks P, Marek M, Ilic U, Stajic Z
68.AG0452025TSCIENCE PROGRESS Vol. 108 (3): #00368504251366357 - (23), (DOI: 10.1177/00368504251366357) JUL 2025WOS00500.0000Maintenance optimization for unavailability enhancement of representative interconnected infrastructure based on minimum costBris R, Praks P, Fujdiak R, Vrtal M, Brkic D
69.AG0452025TALGORITHMS Vol. 18 (7): #416 - (23), (DOI: 10.3390/a18070416) JUL 6 2025WOS10100.0000European Efficiency Schemes for Domestic Gas Boilers: Estimation of Savings in Heating of SettlementsBrkic D
70.AG0452025TDATA Vol. 10 (11): #193 - (13), (DOI: 10.3390/data10110193) NOV 20 2025WOS00200.0000Sampling the Darcy Friction Factor Using Halton, Hammersley, Sobol, and Korobov Sequences: Data Points from the Colebrook RelationBrkic D, Milosevic M
71.AG0452025TFIRE-SWITZERLAND Vol. 8 (1): #29 - (22), (DOI: 10.3390/fire8010029) JAN 2025WOS20100.0000Fire Hazards Caused by Equipment Used in Offshore Oil and Gas Operations: Prescriptive vs. Goal-Oriented LegislationBrkic D
72.AG0452025TMATERIALS Vol. 18 (8): #1811 - (17), (DOI: 10.3390/ma18081811) APR 15 2025WOS10500.0000Experimental Analysis of Magnetic Focusing of the Plasma Arc of a Cutting TorchMarek M, Brkic D, Praks P, Kozubek T, Frantík J
73.AG0452026TENERGY EXPLORATION & EXPLOITATION Vol. 44 (1): # 293 - 319 (27), (DOI: 10.1177/01445987251377791) JAN 2026WOS00700.0000Evaluating the unavailability of interconnected power and communication networks with open-source tools on a petascale clusterBeloch M, Praks P, Praksová R, Fujdiak R, Vrtal M, Bris R, Brkic D

27. 04. 2026.; 00:07:11; Trajanje procesiranja: 0.030 s


Legenda:

RB - redni broj rezultata
IBI - identifikacioni broj istraživača
Godina - godina u kojoj je rezultat publikovan (isključivo sa kompletnom paginacijom)
Kat - kategorija rezulata
Tip - tip rezultata (teorijski, simulacioni ili eksperimentalni)
Vrsta - vrsta rezultata
Referenca - referenca rezultata (bez autora i naslova rezultata) sa direktnim linkom na rezultat (ako ima DOI broj), sa linkom na zapis u eNauci ili WOS
TC - ukupan broj citata rezulata na dan 31. 1. 2026. godine
TCP - ukupan broj citata rezultata u periodu 2015-2024
BA - broj autora na rezultatu
NBB - normirani broj bodova rezultata
NTC - normirani broj citata rezultata u periodu 2015-2024
Naslov - naslov rezultata
Autori - spisak svih autora ili najviše prvih 30 autora

Primer:

Primer normiranja broja M poena i broja citata ostvarenih na jednom rezultatu: eksperimentalni rad sa 11 autora u časopisu kategorije M21a+ koji je publikovan 2020. godine, citiran je 65 puta, od čega 55 puta u periodu 2015-2024. godine.

Normirani broj M poena koje istraživač ostvaruje na rezultatu je 20/(1+0.2*(11-10))=16.6667 a normirani broj citata je 55/(1+0.2*(11-10))=45.8333.

Ukupan broj ostaverinih bodova utvrđuje se na naznačenom periodu za sabiranje normiranih M poena svakog istraživača i u periodu za određivanje ukupnog broja normiranih citata (2015-2024).