LIST OF PUBLICATIONS

Papers   Conference proceedings   Book Section   Reports

PAPERS:

  1. F. King and M. Kolar, The copper sulphide model for the prediction of the corrosion behaviour of copper canisters, Posiva Oy Report, to be published.
  2. F. King, M. Kolar, M. Vähänen and C. Lilja, Modelling long term corrosion behaviour of copper canisters in KBS-3 repository, Corrosion Engineering, Science and Technology 46, 217-222 (2011).
  3. F. King, M. Kolar and P. Maak, Reactive-transport model for the prediction of the uniform corrosion behaviour of copper used fuel containers, J.Nucl.Mater. 379, 133-141 (2008).
  4. D.W. Shoesmith, M. Kolar and F. King, A mixed-potential model to predict fuel (Uranium Dioxide) corrosion within a failed nuclear waste container, Corrosion 59, 802-816 (2003).
  5. M. Kolar, Kinetic theory of the growth of the circular oxidation islands on the on the UO2 surface, J.Nucl.Mater. 301, 210-219 (2002).
  6. S. Sunder, D.W. Shoesmith, M. Kolar and D.M. LeNeveu, Calculation of used nuclear fuel dissolution rates under anticipated Canadian waste vault conditions, J.Nucl.Mater. 250, 118, (1997).
  7. R.J. McEachern, J.W. Choi, M. Kolar, W. Long, P. Taylor and D.D. Wood, Determination of the activation energy for the formation of U3O8 on UO2, J.Nucl.Mater. 249, 58 (1997).
  8. M. Kolar & S.F. O'Shea, A high-temperature approximation of the path-integral quantum Monte Carlo method, J. Phys. A 29, 3471 (1996).
    A package of C programs used in this paper is available for downloading.
  9. M. Kolar, High-Resolution X-Ray-Diffraction Spectra of Thue-Morse GaAs-AlAs Heterostructures (a comment), Phys.Rev.Lett. 73, 1307 (1994).
  10. M. Kolar, B. Iochum & L. Raymond, Structure factor of 1D systems (superlattices) based on general two-letter substitution rules. I. delta (Bragg) peaks, J.Phys. A: Math.Gen. 26, 7343 (1993).
  11. M. Kolar, New Class of One-Dimensional Quasicrystals, Phys.Rev. B47, 5489 (1993).
  12. D. Huang, G. Gumbs & M. Kolar, Localization in a One-Dimensional Thue-Morse Chain, Phys.Rev. B46, 11479 (1992).
  13. M. Kolar & S.F. O'Shea, Fast, Portable, and Reliable Algorithm for the Calculation of Halton Numbers, Computers Math.Applic. 25, 3 (1993).
  14. M. Kolar & T. Sasaki, Multivariate Quotient by Power-Series Division, SIGSAM Bulletin 26, 17 (1992).
  15. G. Gumbs, D. Huang & M. Kolar, Axial Magnetic Field Effects on Dynamics of Interacting Particle Systems, Phys.Rev. B47, 4379 (1993).
  16. G. Gumbs & M. Kolar, Supercritical bifurcation theory and stability of point attractors, J.Math.Phys. 35, 209 (1994).
  17. M. Kolar & G. Gumbs, Theory for the Experimental Observation of Chaos in a Rotating Waterwheel, Phys.Rev. A45, 626 (1992).
  18. M. Kolar, Substitutions, Finite Automata, and Number Systems, Prog.Theor.Phys. 88, 211 (1992).
  19. T. Sasaki, M. Suzuki, M. Kolar & M. Sasaki, Approximate Factorization of Multivariate Polynomials and Absolute Irreducibility Testing, Jpn.J.Appl.Industr.Math. 8, 357 (1991).
  20. M. Kolar & F. Nori, Trace Maps of General Substitutional Sequences, Phys.Rev. B42, 1062 (1990).
  21. M. Kolar & M.K. Ali, Trace Maps Associated with General Two-Letter Substitution Rules, Phys.Rev. A42, 7112 (1990).
  22. M. Kolar, M.K. Ali & F. Nori, Generalized Thue-Morse Chains and Their Properties, Phys.Rev. B43, 1034 (1991).
  23. V.G. Benza, M. Kolar & M.K. Ali, Phase Transition in the Generalized Fibonacci Quantum Ising Models, Phys.Rev. B41, 9578 (1990).
  24. M. Kolar & M.K. Ali, One-Dimensional Generalized Fibonacci Tilings, Phys.Rev. B41, 7108 (1990).
  25. M. Kolar, M.K. Ali & I.I. Satija, Attractors in Quantum Ising Models, Phys.Rev. B40, 11083 (1989).
  26. M. Kolar & M.K. Ali, Attractors of Some Volume Nonpreserving Fibonacci Trace Maps, Phys.Rev. A39, 6538 (1989).
  27. M. Kolar & M.K. Ali, Generalized Fibonacci Superlattices, Dynamical Trace Maps, and Magnetic Excitations, Phys.Rev. B39, 426 (1989).
  28. M. Kolar & M.K. Ali, Magnetic Excitations in Some Generalized Fibonacci Layered Structures, J.Phys.: Condens.Matter 1, 823 (1989).
  29. M. Kolar, M.K. Ali & S.F. O'Shea, A Note on the Application of the Semiclassical Wave Packet Dynamics, J.Chem.Phys. 90, 1036 (1989).
  30. S.G. Davison, H. Ueba, R.J. Jerrard, M. Kolar & M. Steslicka, Surface-State Tunnelling, Progr.Surface Sci. 25, 97 (1988).
  31. L.G. Harrison & M. Kolar, Coupling between Reaction-Diffusion Prepattern and Expressed Morphogenesis, applied to Desmids and Dasyclads, J.Theor.Biol. 130, 493 (1988).
  32. M. Kolar, A Note on the Calculation of Charge Density by Recursion Method (unpublished) (1986).
  33. L.E. Ballentine & M. Kolar, Recursion, Non-Orthogonal Basis Vectors, and the Computation of Electronic Properties, J.Phys. C 19, 981 (1986).
  34. G. Del Re, M. Kolar & F. Cyrot-Lackman, Iterative LCAO Treatment with Overlap and Band Occupation in the Iron-Group Metals, J.Physique 46, 927 (1985).
  35. M. Kolar & S.G. Davison, Field Emission from Band-Gap States, J.Vac.Sci.Tech. A3, 392 (1985).
  36. S.G. Davison & M. Kolar, Surface-State Tunneling, J.Phys. C 18, 4581 (1985).
  37. G. Paasch, T. Fiedler, M. Kolar & I. Bartos, Quasi-Classical Quantization for Potentials with an Infinite Surface Barrier. Subbands in Inversion Layers, phys.stat.sol. (b) 118, 641 (1983).
  38. I. Bartos, M. Kolar & G. Paasch, Modified Thomas-Fermi Approximation for Systems with Finite Surface Barriers, phys.stat.sol. (b) 115, 437 (1983).
  39. M. Kolar & L. Farkas, New Correlation Potential for the Local-Spin- Density Functional Formalism. II. Hyperfine Structure Contact Term in Free Atoms, Czech.J.Phys. B32, 30 (1982).
  40. M. Kolar, Pseudopotential Matrix Elements in the Gaussian Basis, Computer Physics Commun. 23, 275 (1981).
  41. M. Kolar, A Contribution to the Theoretical Study of the Magnetic Surface Anisotropy of Transition Metals, phys.stat.sol. (b) 96, 683 (1979).
  42. M. Kolar, On Surface Density of States of More Complex Tight-Binding Systems, phys.stat.sol. (b) 96, 447 (1979).
  43. M. Kolar, On the Calculation of Surface Density of States in the Tight-Binding Formalism, phys.stat.sol. (b) 83, 625 (1977).
  44. M. Kolar, Surface Density of States in a Simple Model of Nickel, phys.stat.sol. (b) 80, 521 (1977).
  45. M. Kolar, Magnetic Surface Anisotropy and Surface States of a Semiinfinite Crystal of Ferromagnetic Transition Metals, Czech.J.Phys. B25, 806 (1975).
  46. M. Kolar & I. Bartos, On the Role of the Image Potential in Electron Surface Studies, Czech.J.Phys. B23, 179 (1973) (this was part of my Diploma work (M.Sc. Thesis)).

CONFERENCE PROCEEDINGS:

  1. F. King, M. Kolar, P. Maak and P. Keech, Simulation of the Anaerobic Corrosion of Carbon Steel Used Fuel Containers and the Impact of Corrosion Products on Other Barriers in the Repository, CORROSION/2013 conference, NACE International.
  2. F. King, M. Kolar and M. Vähänen, Reactive-transport modelling of the sulphide-assisted corrosion of copper nuclear waste canisters. In (Chapter 9 of): Sulphur-Assisted Corrosion in Nuclear Disposal Systems (EFC 59, 2008), Editors D. Féron; B. Kursten; F. Druyts. Maney Publishing (2011).
  3. F. King, M. Kolar and M. Apted, A Revised EPRI Source-Term Model for the Dissolution of Commercial Spent Nuclear Fuel, 15th International High-Level Radioactive Waste Management Conference (IHLRWM), 2008.
  4. F. King and M. Kolar, EPRI's Engineered Barrier System Corrosion Model (EBSCOM), 13th International High-Level Radioactive Waste Management Conference (IHLRWM), 2006.
  5. F. King, M. Kolar, T. Jack and R. Worthingham, A Permeable Coating Model for Predicting the Environment at the Pipe Surface under CP-compatible coatings, IPC 2004 Intn'l Pipeline Conference, Oct. 4-8, 2004, Calgary, AB, Canada.
  6. F. King, T. Jack, M. Kolar and R. Worthingham, A Permeable Coating Model for Predicting the Environment at the Pipe Surface under CP-compatible coatings, CORROSION/04 conference (NACE International, Houston, TX), paper No. 04148 (2004).
  7. F. King, M. Kolar, S. Stroes-Gascoyne and P. Maak, Model for the Microbiological Corrosion of Copper Containers in a Deep Geologic Repository, Mat. Res. Soc. Symp. Proc. Vol. 807 (Kalmar, June 15-18, 2003).
  8. F. King and M. Kolar, Validation of the Mixed-Potential Model for Used Fuel Dissolution, 2001 Spent Fuel Workshop, Helsinki, Sept. 13-14, 2001.
  9. S. Stroes-Gascoyne, M. Kolar, F. King, and D.W. Shoesmith, Long-Term Behaviour of Steel Redox Barriers in Nuclear Fuel Waste Containers, In: Proc. of the XXIIIth Int. Symp. on Scientific Basis for Nuclear Waste Management, Fall 1999, Mat. Res. Soc. Dym. Proc., 2000.
  10. F. King, M. Kolar, S. Stroes-Gascoyne, P. Bellingham, J. Chu and P.V. Dawe, Modelling the Activity of Sulphate-Reducing Bacteria and the Effects on Container Corrosion in an Underground Nuclear Waste Disposal Vault. In: Proceedings of the XXIIthe Int. Symp. on the Scientific Basis for Nuclear Waste Management, Fall 1998, Mat. Res. Soc. Sym. Proc. Vol. 556, p. 1167, 1999.
  11. F. King, M. Kolar, and D.W. Shoesmith, Modelling the oxidative dissolution of UO2, Proceedings of the XXII Meeting on the Scientific Basis for Nuclear Waste Management, Fall 1998, Mat. Res. Soc. Sym. Proc. Vol. 556, p. 463, 1999.
  12. S. Sunder, D.W. Shoesmith, M. Kolar & D.M. LeNeveu, From Laboratory Experiments to a Geological Disposal Vault: Calculation of Used Nuclear Fuel Dissolution Rates. In: Proc. of the XXIth International Symposium on Scientific Basis for Nuclear Waste Management, Fall 1997, Mat. Res. Soc. Sym. Proc. Vol. 506, p. 273, 1998.
  13. F. King, D.W. Shoesmith, and M. Kolar, A mixed-potential model for the prediction of the effects of alpha-radiolysis, precitipation and redox processes on the dissolution of used nuclear fuel, 1998 Spent Fuel Wokshop, Las Vegas, NV, 18-20 May 1998.
  14. F. King and M. Kolar, Mechanistic Modelling of the Corrosion Behaviour of Copper Nuclear Fuel Waste Containers, 1996 International Conference on Deep Geological Disposal of Radioactive Waste, Sept. 16-19, Winnipeg, Manitoba, Canada.
  15. S. Sunder, D.W. Shoesmith, M. Kolar and D.M. LeNeveu, Calculation of fuel dissolution rates for alternative post-closure assessment case study, 1996 International Conference on Deep Geological Disposal of Radioactive Waste, Sept. 16-19, Winnipeg, Manitoba, Canada.
  16. M. Kolar, Numerical Solution of the Nonlinear Reaction-Diffusion Equations (Abstract), Canadian Applied Mathematics Society Annual Meeting (CAMS), May 31 - June 2, 1996, Winnipeg, Manitoba.
  17. D.W. Shoesmith, M. Kolar and B. Ikeda, Modelling the failure of nuclear waste containers, CORROSION/96 conference, NACE International (Denver, Colorado), paper #369 (1996).
  18. F. King, M. Kolar and D.W. Shoesmith, Modelling the effects of porous and semi-permeable layers on corrosion processes, CORROSION/96 conference, NACE International (Denver, Colorado), paper #380 (1996).
  19. M. Kolar & F. King, Modelling the consumption of oxygen by container corrosion and reaction with Fe(II), In: Proc. of the XIXth International Symposium on Scientific Basis for Nuclear Waste Management, Boston, Nov. 27-Dec. 1 1995 (W. M. Murphy and D. Knecht, Eds.), Mat. Res. Soc. Proc. Vol. 412, p. 547, Pittsburgh, PA, 1996.
  20. F. King & M. Kolar, A numerical model for the corrosion of copper nuclear waste containers, In: Proc. of the XIXth International Symposium on Scientific Basis for Nuclear Waste Management, Boston, Nov. 27-Dec. 1 1995 (W. M. Murphy and D. Knecht, Eds.), Mat. Res. Soc. Proc. Vol. 412, p. 555, Pittsburgh, PA, 1996.
  21. F. King & M. Kolar, Prediction of lifetimes of copper nuclear waste containers under restrictive mass-transport and evolving redox conditions, CORROSION/95, NACE International (Houston, Texas), paper #425 (1995).
  22. M. Kolar, Application of integral method (method of moments) to a moving-boundary diffusion-reaction problem, In: Proc. of 1995 Symposium on Applied Mathematics (Deep River, Ontario, 24-25 Febr.1995), AECL Report, RC-1458, CMS-95-03.
  23. S. Stroes-Gascoyne, D.L. Moir, M. Kolar, R.J. Porth, J.L. McConnell & A.M. Kerr, Measurement of gap and grain-boundary inventory of 129I in used CANDU fuel, In: Proc. of the XVIIIth International Symposium on the Scientific Basis for Nuclear Waste Management, Kyoto, Japan, 23-27 Oct. 1994, MRS Proc. Vol. 353, p. 625, 1995.
  24. M. Kolar, D.M. LeNeveu, & L.H. Johnson, Near-field transport of 129I from a point source in an in-room disposal vault, In: Proc. of the XVIIIth International Symposium on the Scientific Basis for Nuclear Waste Management, Kyoto, Japan, 23-27 Oct. 1994, MRS Proc. Vol. 353, p. 535, 1995.
  25. M. Kolar, Diffusion problem with discontinuities - a spectral (Fourier) approach, In: Proc. of 1994 Symposium on Applied Mathematics (Deep River, Ontario, 11-12 Febr. 1994), AECL Research Report, RC-1221, CMS-94-02.
  26. M. Kolar, New Classes of Diffraction Spectra of One-Dimensional Systems, (Proc. of the VI-th Symposium on Surface Physics, Chlum Castle, Czech Republic, 24-28 May 1993), Czech.J.Phys. B43, 933 (1993).
  27. M. Kolar, Periodic Windows in the Lorenz Model, Dynamics Days Rydzyna (Poznan), June 10-13, 1992, Poland (poster/preprint).
    Figure 2 of this poster can be viewed here. It is the map of the sigma-rho parameter space for beta=1. Only the widest periodic windows are shown. It is a considerably expanded version of a figure from the Malkus waterwheel paper.
  28. M. Kolar & T. Sasaki, Use of Power-Series Division in Multivariate Polynomial Arithmetic, In: The Report of RIMS (Research Institute for Mathematical Study) Annual Meeting on Computer Algebra, Kyoto, Japan (November 1991).
  29. G. Gumbs & M. Kolar, Supercritical Bifurcation at a Phase Transition, In: Proc. 37th MMM Conf., Houston, Texas, Dec 1-4, 1992.
  30. M. Kolar, T. Sasaki & M. Suzuki, Fourier Transform of Rational Functions. Symbolic-Numeric Calculation of Integrals, In: Proc. of the Symposium on Numerical Analysis, Kimizu-shi, Chiba, Japan (June 12-14, 1990).
  31. M. Kolar & J. Masek, An Efficient Method for the Construction of Ab-initio Atomic Pseudopotentials, In: Proc. of the 13th Annual Symposium on Electron Structure of Metals and Alloys, Johnsbach, East Germany (May 2-6, 1983).
  32. M. Kolar, L. Farkas & P. Novak, Free Atom Hyperfine Structure Contact Term in the Local Spin-Density Functional Formalism, In: Proc. of the 11th Annual Symposium on Electron Structure of Metals and Alloys, Gaussig, East Germany (April, 1981).
  33. M. Kolar, Magnetic Surface Anisotropy of Nickel (in Czech), In Proc. of The Third Conf. of Czech. Physicists, Olomouc 1973, Academia, Prague 1974, p. 262.

Book Section:

  1. D.W. Shoesmith, M. Kolar and F. King, A Mixed-Potential Model to Predict Fuel (UO2) Corrosion within a Failed Nuclear Waste Container, In "Modelling and Prediction of Lifetimes for Corrodible Structures", edited by J.R.Scully and D.W.Shoesmith; 72-100, NACE International, Houston, TX. (2003).

REPORTS:

  1. F. King and M. Kolar, Theory Manual for the Steel Corrosion Model, Version 1.0, NWMO TR-2009-07, March 2009.
  2. F. King and M. Kolar, Consequences of Microbial Activity for Corrosion of Copper Used Fuel Containers - Analyses using the CCM-MIC.0.1 Code. Ontario Power Generation Report 06819-REP-1300-10120-R00, Sept. 2006.
  3. F. King and M. Kolar, Simulation of the Consumption of Oxygen in Long-term In Situ Experiments and in the Third Case Study Repository Using the Copper Corrosion Model CCM-UC.1.1. Ontario Power Generation Report 06819-REP-1300-10084-R00, Jan. 2006.
  4. F. King and M. Kolar, Theory Manul for the Unsaturated Permeable Coating Model PCM Version 3.x. Nova Chemicals Report, Dec. 2005.
  5. F. King, M. Kolar and S. Stroes-Gascoyne, Preliminary Simulations of the Long-term Activity of Microbes in a Deep Geologic Repository using CCM-MIC.1 and the Implications for Corrosion of Copper Containers. Ontario Power Generation Report 06819-REP-01200-10116-R00, Nov. 2003.
  6. F. King and M. Kolar, The Mixed-Potential Model for UO2 Dissolution, MPM Versions V1.3 and V1.4. Ontario Power Generation Report 06819-REP-01200-10104-R00, Sept. 2003.
  7. F. King, M. Kolar and S. Stroes-Gascoyne, Theory Manual for the Microbiological Copper Corrosion Model CCM-MIC.0. Ontario Power Generation Report 06819-REP-01200-10091-R00, Nov. 2002.
  8. F. King and M. Kolar, A Permeable Coating Model for Predicting the Development of Trapped Water Chemistry and Conditions at the Pipe Surface Under Disbonded Coating, PCM Version 1.0. Nova Chemicals Report, Feb. 2002.
  9. F. King and M. Kolar, A Model for Predicting the Extent of Internal Corrosion of Gas Transmission Pipelines, ICM Version 1.0. Nova Chemicals Report, Feb. 2002.
  10. F. King and M. Kolar, Sensitivity Analysis of the Factors Affecting the Effective G-value GEFF in the Mixed-Potential Model for Used Fuel Dissolution. Ontario Power Generation Report 06819-REP-0130-10044-R00, Jan. 2002.
  11. F. King and M. Kolar, Validation of the Mixed-Potential Model for Used Fuel Dissolution against Experimental Data. Ontario Power Generation Report 06819-REP-01200-10077-R00, Jan. 2002.
  12. F. King and M. Kolar, An Improved C-Steel Corrosion Model for the Mixed-Potential Model for Used Fuel Dissolution (MPM Version 1.4). Ontario Power Generation Report 06819-REP-01300-10027-R00, June 2001.
  13. F. King and M. Kolar, Mixed-Potential Model Simulations of the Effects of Porous Film Formation on the Dissolution of Used Fuel (MPM Version 1.3). Ontario Power Generation Report 06819-REP-01300-10019-R00, March 2001.
  14. F. King and M. Kolar, The Copper Container Corrosion Model Used in AECL's Second Case Study. Ontario Power Generation Report 06819-REP-01200-10041-R00, Sept. 2000.
  15. F. King, D. Leneveu and M. Kolar, An Interim Performance Assessment Model for the Dissolution of Spent Fuel. Ontario Power Generation Report 06819-REP-01200-10034-R00, May 2000.
  16. M. Kolar and F. King, Theory Manual, MPM Release 1 (MPM-1), The Mixed-Potential Model Computer Codes, Version V1.0, V1.1, V1.2. Ontario Power Generation Report (unpublished), May 2000.
  17. M. Kolar, User's Manual and Computer Program Abstract, MPM Release 1 (MPM-1), The Mixed-Potential Model Computer Codes, Version V1.0, V1.1, V1.2. Ontario Power Generation Reports (unpublished), April 2000.
  18. F. King and M. Kolar, Analysis of the Effect of Cladding on the Oxidative Dissolution of Used Nuclear Fuel Using the Mixed-Potential (MPM Version 1.2). Ontario Power Generation Report, 06819-REP-01200-10022-R00, March 2000.
  19. F. King and M. Kolar, Prediction of the Effects of alpha-Radiolysis, Precipitation and Redox Reactions with Fe and Fe(II) on the Dissolution of UO2 Using the Mixed-Potential Model for Fuel Dissolution (MPM Version 1.1). Ontario Hydro Report, 06819-REP-01200-10014-R00, Oct. 1999.
  20. M. Kolar and L.H. Johnson, A Reaction-Diffusion Model for the Interaction of Radiolytic Oxidants with Spent Fuel and FE2+. Appendix B in "The Interaction of Radiolysis Products and Canister Corrosion Products and the Implications for Radionuclide Transport in the Near Field of a Repository for Spent Fuel" by L.H. Johnson and P.A. Smith, Nagra, Sept. 1999.
  21. F. King and M. Kolar, Mathematical implementation of the mixed-potential model of fuel dissolution - Version MPM-V1.0. Ontario Hydro Report, 06819-REP-01200-10005-R00, March 1999.
  22. P. Baumgartner, J.D. Garroni, M. Kolar and R.B. Cooper, Engineering gap analysis - Disposal vault geotechnical design tools. Ontario Hydro, Nuclear Waste Management Division Report. 06819-REP-01200-10000-R00, March 1999.
  23. D.W. Shoesmith and M. Kolar, Waste Package Performance, Chapter 5 In "Alternative Approaches to Assessing the Performance and Suitability of Yucca Mountain for Spent Fuel Disposal", TR-108732, Nov. 1998, published by EPRI, Palo Alto, CA.
  24. T. Chan, M. Kolar, P.A. O'Connor, N.W. Scheier and F.W. Stanchell (with contributions by C.C. Davison, L.H. Frost, B.W. Nakka, N.A. Chandler, R.S. Read, J.D. Garroni, C.I. Kitson, D.M. Leneveu, L.H. Johnson and R. Zach), Finite-Element Sensitivity Analysis of Effects of an Excavation Damage Zone on 129I Transport from a Used CANDU Fuel Waste Disposal Repository. Ontario Hydro Report 06819-REP-01200-0022-R00, April 1999.
  25. M. Kolar and F. King, A model for the corrosion of copper containers in a Canadian nuclear fuel waste disposal vault. Part 2. The mathematical model, results and discussion. AECL Report, AECL-11473, COG-95-521-I (1998).
  26. M. Kolar, Review of methods used to model gas generation and gas migration from an underground nuclear waste repository. Ontario Hydro Report 06819-REP-01200-0008-R00, Nov. 1997.
  27. M. Kolar, DEC Alpha, gcc, cc, and the Tower of Hanoi (1998).
  28. M. Kolar, New fast iterative computer algorithms for the Tower of Hanoi puzzle (1998).
  29. F. King and M. Kolar, Corrosion of copper containers prior to saturation of a nuclear fuel waste disposal vault. AECL Report, AECL-11718, COG-96-566-I (1997).
  30. F. King and M. Kolar, The effect of geosphere conditions on the lifetimes of copper containers. AECL Report, AECL-11717, COG-96-565-I (1997).
  31. M. Kolar, Methodology for the comparison of the radionuclide release from in-floor (borehole) and in-room emplacement rooms and the performance of the bentonite bulkheads in the two cases, AECL Report, AECL-11741 (1997).
  32. D.M. LeNeveu and M. Kolar, Radionuclide response function for the convection-dispersion equation for a point source along the axis of nested cylindrical media, AECL Report, AECL-11549, COG-96-90 (1996).
  33. F. King and M. Kolar, Modelling of the effects of porous and semi-permeable layers on corrosion processes, AECL Report, AECL-11592, COG-96-273 (1996).
  34. F. King and M. Kolar, Mechanistic modelling of the corrosion behaviour of copper nuclear fuel waste containers, AECL Report, AECL-11644, COG-96-327 (1996).
  35. L.H. Johnson, D.M. LeNeveu, F. King, D.W. Shoesmith, M. Kolar, D.W. Oscarson, S. Sunder, C. Onofrei and J.L. Crosthwaite, Disposal of Canada's Nuclear Waste: A study of in-room emplacement of used CANDU fuel in copper containers in permeable plutonic rock: Volume 2: Vault Model, AECL Report, AECL-11494-2, COG-96-552-2 (1996).
  36. M. Kolar, TRANSIENT - a C package for the numerical solution of systems of partial differential equations of parabolic type (1996-2007).
  37. D.W. Shoesmith, B.M. Ikeda, M.J. Quinn & M. Kolar, Estimating the lifetimes of titanium containers for nuclear fuel waste: A damage function for the crevice corrosion of grade-2 titanium, AECL Research Report, AECL-11255, COG-95-018 (1995).
  38. M. Kolar & D.M. LeNeveu, Near-field mass transport from a point source (instantaneously failed container) located in a disposal room, AECL Research Report, AECL-11172, COG-I-94-444 (1994).
  39. M. Kolar, Application of the integral method to modelling the oxidation of defected fuel elements, AECL Research Report, AECL-11174, COG-I-94-446 (1995).
  40. M. Kolar & M.K. Ali, Initial Conditions for the Semiclassical Wave Packet Treatment of Surface Scattering, Technical Report, University of Lethbridge, December 1988.