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Results: 1-16 |
Results: 16
OVERFEED FIXED-BED COMBUSTION OF WOOD
Authors: OMAN J TACER M TUMA M
Citation: J. Oman et al., OVERFEED FIXED-BED COMBUSTION OF WOOD, Bioresource technology, 67(2), 1999, pp. 139-147
AN ASSESSMENT OF SOME PRECONDITIONING TECHNIQUES IN SHELL PROBLEMS
Authors: BENZI M KOUHIA R TUMA M
Citation: M. Benzi et al., AN ASSESSMENT OF SOME PRECONDITIONING TECHNIQUES IN SHELL PROBLEMS, Communications in numerical methods in engineering, 14(10), 1998, pp. 897-906
A SPARSE APPROXIMATE INVERSE PRECONDITIONER FOR NONSYMMETRIC LINEAR-SYSTEMS
Authors: BENZI M TUMA M
Citation: M. Benzi et M. Tuma, A SPARSE APPROXIMATE INVERSE PRECONDITIONER FOR NONSYMMETRIC LINEAR-SYSTEMS, SIAM journal on scientific computing, 19(3), 1998, pp. 968-994
POWER-PLANT RELIABILITY CALCULATION WITH MARKOV-CHAIN MODELS
Authors: SENEGACNIK A TUMA M
Citation: A. Senegacnik et M. Tuma, POWER-PLANT RELIABILITY CALCULATION WITH MARKOV-CHAIN MODELS, Forschung im Ingenieurwesen, 64(9), 1998, pp. 215-222
SEMI-MARKOV MODELS WITH AN APPLICATION TO POWER-PLANT RELIABILITY-ANALYSIS
Authors: PERMAN M SENEGACNIK A TUMA M
Citation: M. Perman et al., SEMI-MARKOV MODELS WITH AN APPLICATION TO POWER-PLANT RELIABILITY-ANALYSIS, IEEE transactions on reliability, 46(4), 1997, pp. 526-532
THE POTENTIAL FLUID-FLOW PROBLEM AND THE CONVERGENCE RATE OF THE MINIMAL RESIDUAL METHOD
Authors: MARYSKA J ROZLOZNIK M TUMA M
Citation: J. Maryska et al., THE POTENTIAL FLUID-FLOW PROBLEM AND THE CONVERGENCE RATE OF THE MINIMAL RESIDUAL METHOD, Numerical linear algebra with applications, 3(6), 1996, pp. 525-542
A SPARSE APPROXIMATE INVERSE PRECONDITIONER FOR THE CONJUGATE-GRADIENT METHOD
Authors: BENZI M MEYER CD TUMA M
Citation: M. Benzi et al., A SPARSE APPROXIMATE INVERSE PRECONDITIONER FOR THE CONJUGATE-GRADIENT METHOD, SIAM journal on scientific computing, 17(5), 1996, pp. 1135-1149
ELECTRICITY PRODUCTION AND REGULATION OF NATURAL-GAS EXPANSION
Authors: TUMA M SEKAVCNIK M
Citation: M. Tuma et M. Sekavcnik, ELECTRICITY PRODUCTION AND REGULATION OF NATURAL-GAS EXPANSION, Brennstoff-Warme-Kraft, 48(9), 1996, pp. 71
HEAT SHIFTING SYSTEMS IN GAS-TURBINE PROC ESSES .2. CASES OF APPLICATION
Authors: GERICKE B PERKAVEC M TUMA M
Citation: B. Gericke et al., HEAT SHIFTING SYSTEMS IN GAS-TURBINE PROC ESSES .2. CASES OF APPLICATION, Brennstoff-Warme-Kraft, 48(1-2), 1996, pp. 33
EXERGETIC EFFICIENCY OF THE GAS STEAM PRO CESS BY TAKING INTO ACCOUNTTHE COMBINED HEAT AND POWER PROCESS/
Authors: TUMA M
Citation: M. Tuma, EXERGETIC EFFICIENCY OF THE GAS STEAM PRO CESS BY TAKING INTO ACCOUNTTHE COMBINED HEAT AND POWER PROCESS/, Brennstoff-Warme-Kraft, 47(1-2), 1995, pp. 20-22
HEAT SHIFTING SYSTEMS IN GAS-TURBINE PROC ESSES .1. THERMODYNAMIC FUNDAMENTAL PRINCIPLES
Authors: GERICKE B PERKAVEC M TUMA M
Citation: B. Gericke et al., HEAT SHIFTING SYSTEMS IN GAS-TURBINE PROC ESSES .1. THERMODYNAMIC FUNDAMENTAL PRINCIPLES, Brennstoff-Warme-Kraft, 47(11-12), 1995, pp. 485
THE EFFECTIVENESS OF HEAT-TRANSFER FROM FLUE-GASES TO AMMONIA-WATER MIXTURES
Authors: KUSTRIN I TUMA M
Citation: I. Kustrin et M. Tuma, THE EFFECTIVENESS OF HEAT-TRANSFER FROM FLUE-GASES TO AMMONIA-WATER MIXTURES, Journal of engineering for gas turbines and power, 116(1), 1994, pp. 63-67
QUICK EVALUATION OF THE THERMODYNAMIC PROPERTIES OF WATER AND STEAM
Authors: SENEGACNIK A TUMA M
Citation: A. Senegacnik et M. Tuma, QUICK EVALUATION OF THE THERMODYNAMIC PROPERTIES OF WATER AND STEAM, Applied energy, 49(4), 1994, pp. 369-378
TESTINGS OF MALLOW (MALVA-VERTICILLATA L) ENSILABILITY
Authors: TUMA M KALAC P
Citation: M. Tuma et P. Kalac, TESTINGS OF MALLOW (MALVA-VERTICILLATA L) ENSILABILITY, Zivocisna vyroba, 39(1), 1994, pp. 85-93
THE INFLUENCE OF ULTRASOUND ON THE AGGLOM ERATION OF FLY-ASH IN EXHAUST-GASES
Authors: SILC J TUMA M
Citation: J. Silc et M. Tuma, THE INFLUENCE OF ULTRASOUND ON THE AGGLOM ERATION OF FLY-ASH IN EXHAUST-GASES, Staub, Reihhaltung der Luft, 54(5), 1994, pp. 183-185
EFFICIENCY OF THE GAS STEAM PROCESS BY TA KING INTO CONSIDERATION THEHEAT-AND-POWER COMBINATION
Authors: TUMA M
Citation: M. Tuma, EFFICIENCY OF THE GAS STEAM PROCESS BY TA KING INTO CONSIDERATION THEHEAT-AND-POWER COMBINATION, Brennstoff-Warme-Kraft, 46(7-8), 1994, pp. 341-343
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