1. U. Bulgarelli, G. Graziani, D. Mansutti and R. Piva A reduced implicit scheme, via discrete stream function generation, for unsteady Navier-Stokes equations in general curvilinear coordinates, Notes on Numerical Fluid Mechanics, vol.13, D. Rues, W. Kordulla (eds.), 31-39, F. Vieweg and son, Braunschweig/ Weisbaden, 1985.
2. D.
Mansutti, U. Bulgarelli, R. Piva and G. Graziani A discrete vector potential method for unsteady 3D
Navier-Stokes equations, Lecture
Notes in Physics, vol. 264,
462-466, Springer- Verlag, Zurich/Heidelberg/Koln, 1986.
3. P.
Bassanini and D. Mansutti Wake
flow past a plate with spoiler II: gravity effects, Jour. Appl. Math. and Physics (Z.A.M.P.), vol.37, 849-858, Basel, 1986.
4. D.
Mansutti, G. Graziani and R. Piva
A discrete vector potential model for unsteady incompressible viscous
flows, Jour. Computational Physics, vol.92, 161-184, Academic Press, Orlando,
Fl, 1991.
5. D. Mansutti and K. R. Rajagopal Flow of a shear-thinning fluid between
intersecting planes, Int. Jour.
Non-Linear Mechanics, vol.26, 5, 769-775, Pergamon, Oxford, 1991.
6. D. Mansutti and G. Pontrelli Jefferey-Hamel flow of a power-law
fluids for exponent values close to the critical value, Int. Jour. Non-Linear Mechanics, vol.26,
761-767, Pergamon, Oxford,1991.
7. D. Mansutti, G. Pontrelli and K.R. Rajagopal
Non-similar flow of a non-newtonian fluid past a wedge, Int. Jour.
Engrng. Science, vol. 31, 4, 637 - 649, Pergamon, Oxford, 1993.
8. D. Mansutti, G. Pontrelli and K.R. Rajagopal Steady
flows of non-newtonian fluids past an infinite porous plate with suction or
injection, Int. Jour. Numerical
Methods in Fluids, vol. 17,
927-941, Wiley, Chichester, 1993.
9. M.M. Cerimele, D. Mansutti and F. Pistella
Simulation of the melt flow in a horizontal Bridgman growth via a front fixing
method, Numerical Methods in Laminar and Turbulent Flow, R. W. Lewis, J. T.
Cross (eds.), 508 - 515, Pineridge Press, Swansea, 1997.
10. D. Funaro, M. Giangi and D. Mansutti A splitting method for unsteady
incompressible viscous fluids imposing no boundary conditions to pressure,
Jour. Scientific Computing, vol. 13, 1, 95 - 104, Plenum, New York, 1998.
11. D. Mansutti,
F. Baldoni and K.R.
Rajagopal The influence of the kinematical field on the solidification of a
semi-infinite water layer, Mathematical Models and Methods in Applied Sciences,
vol. 11, 2, 367 - 386, World Scient. Publishing, Singapore, 2001.
12. A. Georgescu and D. Mansutti Coincidence of the linear and nonlinear
stability bounds in a horizontal
thermal convection problem, Int.
Jour. Non-linear Mech., vol. 34, 4, 603 - 613, Pergamon, Oxford, 1999.
13. M. Giangi, D. Mansutti and G. Richelli Steady 3D
flow configurations for the horizontal thermal convection with thermocapillary
effects, Jour. Scientific Computing, vol. 14, 2, 179 - 195, Plenum, New York,
1999.
14. G. De Fabritiis, A. Mancini, D. Mansutti and S.
Succi Mesoscopic models of liquid/solid phase transitions, Int. Jour. Modern
Physics C, vol. 9, 8, 1405 - 1415,
World Scient. Publishing, Singapore, 1998.
15. E. Bucchignani and D. Mansutti Horizontal thermal convection in a
shallow cavity: oscillatory regimes and transition to chaos, Int. Jour. Numerical Methods for Heat
and Fluid Flow, vol. 10, 2, 179 - 195, MCB University Press, Bradford, 2000.
16. M. M. Cerimele, D. Mansutti and F. Pistella Numerical Modeling of Liquid/Solid
Phase Transitions. Analysis of a Gallium Melting Test, Computers and Fluids,
vol. 31, 437 - 451, Elsevier Science, Oxford, 2002.
17. E. Bucchignani and D. Mansutti Numerical modeling
of Rayleigh-Marangoni steady convection in a non-uniform differentially heated
3D cavity, Jour. Scientific Computing, vol. 18, 3, 475 - 496, Plenum, New York,
2003.
18. W. Miller, S. Succi and D. Mansutti A lattice Boltzmann model for
anisotropic liquid/solid phase transitions, Physical Review Letters, vol. 86,
16, 3578 - 3581, American Physical Society, Ridge, 2001.
19. E. Bucchignani, A. Georgescu and D. Mansutti A
Lorenz-like model for the horizontal convection flow, Int. Jour. Non-linear
Mech., vol. 38, 5, 629 - 644, Pergamon, Oxford, 2003.
20. E. Bucchignani and D. Mansutti Rayleigh-Marangoni
horizontal convection of low Prandtl number fluids, Physics of Fluids vol. 16,
9, American Institute of Physics, Melville, settembre 2004.
21. E. Bucchignani and D. Mansutti Horizontal
thermocapillary convection of SCN: Steady state, instabilities and transition
to chaos, Physical Review E, vol. 69, 056319, American Physical Society, Ridge,
2004.
22. V. Botte and D. Mansutti Numerical modelling of
the Marangoni effects induced by plankton-generated surfactants, Journal of
Marine Systems, 57, 55 - 69, Elsevier, Amsterdam, 2005.
23. V. Botte, D. Mansutti and A. Pascarelli Numerical
modeling of iron corrosion due to an acidic aqueous solution, Applied Numerical
Mathematics, 55, 253 - 263, Elsevier Science, The Nederlands,2005.
24. M. M. Cerimele, D. Mansutti and F. Pistella
Horizontal solidification of average and low Prandtl fluids in microgravity, Applied
Numerical Mathematics, 56, 5, 682 - 694, Elsevier Science, The Nederlands,
2006.
25. M. M. Cerimele, D. Mansutti and F. Pistella Study
of Europa's crust via a Stefan model with convection, Mathematics and Computers
in Simulation, 79, 3, 258 – 268, http://dx.doi.org/10.1016/j.matcom.2007.11.011,
Elsevier Science, The Nederlands, 2008.
26. D. Mansutti, E. Bucchignani and M.M.Cerimele
Rayleigh-Benard convection flow with liquid/solid phase transition in a low
gravity field, Advances in Fluid Mechanics VII, M. Rahman and C.A.Brebbia
(eds.), 247-255, WITPress, Southampton, UK, 2008.
27. D. Mansutti and E. Bucchignani On the importance
of solid deformation in convection-dominated liquid/solid phase change of pure
materials, Applications of Mathematics, 56,1, 117-136, Prague, 2011.
28. V. Botte and D. Mansutti A
numerical estimate of the plankton-induced sea surface tension effects in a
Langmuir circulation, Mathematics and Computers in Simulation, 82, 2916 - 2928,
http://dx.doi.org/10.1016/j.matcom.2012.07.014,
Elsevier Science, The Nederlands, 2012.
29. D. Mansutti, E. Bucchignani, J. Otero and P. Glowacki, Modelling and numerical sensitivity study on the conjecture of a
subglacial lake at Amundsenisen, Svalbard, Applied Mathematical
Modelling, http://dx.doi.org/10.1016/j.apm.2014.12.043 , 39, 15, 4266-4284, Elsevier Science, The Nederlands, 2015.
30. D. Mansutti, E. Bucchignani and P. Glowacki, Numerical validation of
the conjecture of a subglacial lake at Amundsenisen, Svalbard, Applied Mathematical
Modelling, http://dx.doi.org/10.1016/j.apm.2016.03.030
, 40, 7615-7626, Elsevier
Science, The Nederlands, 2016.
31. D. Mansutti, E. Bucchignani and P.
Glowacki, A numerical algorithm for the assessment of the conjecture of a
subglacial lake tested at Amundsenisen, Svalbard. Rendiconti
Lincei - Scienze Fisiche e Naturali, http://dx.doi.org/10.1007/s12210-016-0547-1,
27, 1, 173-182, Springer
International Publishing, 2016.
32. L. Cinque, R. Cossu, D. Mansutti, R. M. Spitaleri and M. Blaszczyk, Tuning of level-set speed function for speckled image segmentation, http://dx.doi.org/10.1007/s10044-016-0532-4,
D. Mansutti
and R. M. Spitaleri, On Applied Scientific Computing for
Challenging Applications XIV – Preface, Mathematics and Computers in Simulation, 147, 1,
https://doi.org/10.1016/j.matcom.2018.01.001,
Elsevier Science, The
Nederlands, 2018.
34. K. Kannan, D. Mansutti, K. R. Rajagopal and S. Urbini, Mathematical modeling of rock glacier flow with temperature effects in Mathematical Approach to Climate Change and its Impacts - MAC2I (eds. Cannarsa P., Mansutti D., Provenzale A.), https://doi.org/10.1007/978-3-030-38669-6_4, Springer INdAM Series, 38, 137 – 149, 2020.
35. A. Scagliarini, E. Calzavarini, D. Mansutti and F. Toschi, Modelling sea ice and melt ponds evolution: sensitivity to microscale heat transfer mechanisms in Mathematical Approach to Climate Change and its Impacts - MAC2I (eds. Cannarsa P., Mansutti D., Provenzale A.), https://doi.org/10.1007/978-3-030-38669-6_6, Springer INdAM Series, 38, 167 – 186, 2020.
36. S. Carillo, C. Conti, D. Mansutti D., F. Pitolli and R.M. Spitaleri, Applied Scientific Computing XV: Innovative Modeling and Simulation in Sciences, https://www.sciencedirect.com/science/article/pii/S0378475420301269?via%3Dihub, Mathematics and Computers in Simulation,176, 1 -3, 2020.
37. P. Cannarsa, D. Mansutti and A. Provenzale, Preface in Mathematical Approach to Climate Change and its Impacts - MAC2I (eds. Cannarsa P., Mansutti D., Provenzale A.), Springer INdAM Series, 38, vii – viii, 2020.
38. K. Kannan, D. Mansutti and K.R. Rajagopal, Computational corroboration of the flow of rock glaciers against borehole measurements, https://doi.org/10.1016/j.ijnonlinmec.2021.103710, Intl. Jour. of Non-Linear Mech, 132, 1-11, 2021.
Papers in conference Proceedings with International Scientific Committee
(peer reviewed)
39. D. Mansutti, U. Bulgarelli, R. Piva and G. Graziani Generazione di un potenziale vettore
discreto per flussi incomprimibili viscosi non-stazionari, Atti VIII Congresso
Nazionale A.I.M.E.T.A., vol.1, 203-208, Torino, 1986.
40. D. Mansutti, G. Graziani and R. Piva A discrete stream function model for
the solution of the Navier-Stokes equations in multiply connected domains, Computational Methods in Flow Analysis,
H. Niki, M. Kawahara (eds.), vol.2, 687-694, Okayama University of
Science, Okayama, 1988.
41. D. Mansutti and F. Pitolli Domain decomposition for a discrete
vector potential model of a 3D isochoric newtonian flow, Parallel Computing: Achievements,
Problem and Prospects, P. Messina,
A. Murli (eds.), 353-359, Elsevier Publisher, Amsterdam, 1991.
42. D. Mansutti and F. Pitolli Simulation of a 3D Navier-Stokes flows
via domain decomposition by the modified discrete vector potential model,
Contemporary Mathematics
n.157, Domain Decomposition
Methods in Science and Engrng., A.
Quarteroni (ed.), 477 - 482,
American Mathematical Society, Providence, RI, 1994.
43. E. Bucchignani and D. Mansutti Oscillatory regimes for the horizontal
thermal convection in solidification problems, E.C.C.O.M.A.S. Computational Fluid Dynamics '98, K. Papailiou et al. (eds), 720 - 725, John Wiley & Sons Ltd.,
Chichester/New York/Weinheim/Brisbane/Singapore/Toronto, 1998.
44. M. M.
Cerimele, D. Mansutti and F. Pistella
A front-fixing method for fluids in liquid/solid phase-change with a
benchmark test, CD-Rom Proceedings E.C.C.O.M.A.S. 2000 (European Congress on
Computational Methods in Applied Sciences and Engineering), ECCOMAS,
Barcellona, 2000.
45. M. M.
Cerimele, D. Mansutti and F. Pistella Front-fixing modeling of directional
solidification in microgravity, Progress in Industrial Mathematics at E.C.M.I.
2000, A. M. Anile, V. Capasso e A. Greco (eds.), Mathematics in Industry, vol.
1, 197 - 203, Springer-Verlag, Wien, 2002.
46. M. M.
Cerimele, D. Mansutti and F. Pistella Marangoni effects in a horizontal
solidification process in microgravity, M.A.S.C.O.T. 03, 3rd Meeting on Applied
Scientific Computing and Tools, R. M. Spitaleri e F. Pistella (eds.), IMACS
Series in Computational and Applied Mathematics, 31-40,IMACS,Roma, 2004.
47. V. Botte, D. Mansutti and A. Pascarelli Numerical
modeling of iron dissolution in a chemical corrosion process: case 1D,
M.A.S.C.O.T. 03, 3rd Meeting on Applied Scientific Computing and Tools, R. M.
Spitaleri e F. Pistella (eds.), IMACS Series in Computational and Applied
Mathematics, 8, 11-20,IMACS,Roma, 2004.
48. D. Mansutti, R. Raffo and R. Santi Liquid/solid
phase change with convection and deformations: a 2D numerical test, Progress in
Industrial Mathematics at E.C.M.I. 2004,A. Di Bucchianico, R.M.M. Mattheij and
M.A. Peletier (eds), Mathematics in Industry, vol. 8, 268-272, Springer-Verlag,
Berlin Heidelberg, 2006.
49. D. Mansutti and E. Bucchignani Effects of solid
deformations in the Gau & Viskanta gallium melting experiment, CD Rom
Proceedings of 17th I.M.A.C.S. World Congress, Scientific Computation, Applied
Mathematics and Simulation, Paris, July 11 - 15, 2005.
50. M. M. Cerimele, D. Mansutti and F. Pistella
EuropaÕs crust thermomechanics via a liquid/solid phase transition model with
convection, M.A.S.C.O.T. 05, 5th Meeting on Applied Scientific Computing and
Tools, F. Pistella and R. M. Spitaleri (eds.), IMACS Series in Computational
and Applied Mathematics, 1-10, IMACS, Roma, 2006.
51. E. Bucchignani and D. Mansutti Interaction between
deforming/conductive and convective ice layers of the Europa's crust,
M.A.S.C.O.T. 06, 6th Meeting on Applied Scientific Computing and Tools, F.
Pistella and R. M. Spitaleri
(eds.), IMACS Series in Computational and Applied Mathematics, 11,
25-36,IMACS,Roma, 2007.
52. D. Mansutti, E. Bucchignani and M.M. Cerimele
Numerical simulation of the conductive ice deformation effects on the Europan
icy crust, Proceedings of the XXIVth I.U.G.G. General Assembly: Earth Our
Changing Planet, L. Ubertini, P. Manciola, S. Casadei, S. Grimaldi (eds.) USMA
2007, Perugia, 2007.
53. D. Mansutti, G. Colicchio, M.L. Santarelli A
numerical model of an experiment of iron corrosion, Comunications to SIMAI
congress, 3, 331 – 341, SIMAI Roma, 2009.
54. G. Colicchio, D. Mansutti, M. L. Santarelli
Approach to irron corrosion via the numerical simulation of a galvanic cell,
Advanced Materials Research, S. P. Trasatti and J. Ippolito (eds.), 138, 127
– 136, Scitec Publications, Uetikon-Zurich, 2010.
55. D. Mansutti and V. Botte Effects of
plankton-generated surfactants in presence of a wind burst via numerical
simulation, M.A.S.C.O.T. 09, 9th Meeting on Applied Scientific
Computing and Tools, F. Pistella and R.M. Spitaleri (eds.), IMACS series
computational and applied mathematics, 15, 121 – 130, IMACS, Roma, 2010.
56. E. Bucchignani, D. Mansutti, F. J. Navarro, J. Otero and
P. Glowacki Numerical modelling of
Amundsenisen Icefield for compatibility check of a subglacial lake. Preliminary
tests, GEOPHYSICAL RESEARCH ABSTRACTS, 14, EGU2012-8148, 2012 (abstract and
poster).
57. R. Cossu,
Daniela Mansutti and M. Blaszczyk Delimitation
of Glacier Zones in Svalbard using SAR Images. MASCOT 11 (R.
M. Spitaleri, ed.), IMACS Series in
Computational and Applied Mathematics, 17, 71-80, 2013.
58. E.
Bucchignani, D. Mansutti, F. J. Navarro, J. Otero and P. Glowacki Plausibility
of a subglacial lake under Amundsenisen Icefield (Svalbard): spatially variable
water content and sensitivity to thermal effect of snow and firn layers. GEOPHYSICAL
RESEARCH ABSTRACTS, 15, EGU2013-9289, 2013 (abstract and poster).
59. A. Scagliarini, E. Calzavarini,
D. Mansutti and F. Toschi A continuum model for the coupled
evolution of sea ice thickness and melt pond distribution. GEOPHYSICAL
RESEARCH ABSTRACTS, 20,
EGU2018-10529, 2018.
60. D. Mansutti, K. Kannan and
K.R.Rajagopal Numerical test of a mathematical model of rock glacier flow with
temperature effects. Geophysical
research abstracts, EGU2019-17090, 2019 https://meetingorganizer.copernicus.org/EGU2019/EGU2019-17090.pdf.
Edited Volumes
62. D. Mansutti and R. M. Spitaleri (eds.), MASCOT2015.
Proceedings of the conference. IAC-CNR, Rome, June 9 – 12, 2015. IMACS
Series in Computational and Applied Mathematics ISSN: 1098-870X, vol. 20, IMACS
- Rome,180 pp., 2017.
64. S. Carillo, C. Conti, D. Mansutti, F. Pitolli
and R. M. Spitaleri (eds.), MASCOT2018. Book of Abstracts of the conference.
Civil and Industrial Engineering Faculty, Sapienza University in Rome, October
2 – 5, 2018. IMACS Series in Computational and Applied Mathematics ISSN:
1098-870X, vol. 21, IMACS - Rome, 98 pp., 2018.
65. S. Carillo, C. Conti, D. Mansutti, F.
Pitolli and R. M. Spitaleri (eds.), MASCOT2018. Book of Proceedings of the
conference. IAC-CNR, Rome, October 2 – 5, 2018. IMACS Series in
Computational and Applied Mathematics ISSN: 1098-870X, vol. 22, IMACS -
Rome,110 pp., 2019.
66. P. Cannarsa, D.
Mansutti and A. Provenzale (eds.), Mathematical Approach to Climate Change and its Impacts -
MAC2I, Springer INdAM Series, ISBN: 978-3-030-38668-9, 38, pp. 237, 2020. https://link.springer.com/book/10.1007%2F978-3-030-38669-6
67. S. Carillo, C. Conti, D. Mansutti, F. Pitolli and R. M.
Spitaleri (eds.), Applied
Scientific Computing XV: Innovative Modelling and Simulation in Sciences.
Mathematics and Computers in Simulation, vol. 176, pp. 324, October 2020. https://www.sciencedirect.com/journal/mathematics-and-computers-in-simulation/vol/176/suppl/C
Technical Reports
T1. D.
Mansutti Metodi della pressione per la soluzione numerica della equazioni di Navier-Stokes per
fluidi non-isotermi, Laurea Thesis
in Matematica, Univ. Roma I, advisors: Prof P. Bassanini, Dr. U. Bulgarelli.
T2. A. Guspini
and D. Mansutti, Programma di
calcolo per un modello di flusso con scia per un profilo con spoiler in
presenza di gravitˆ, Quaderno
I.A.C., n.13/1989.
T3. D.
Mansutti and F. Pitolli Decomposizione del dominio per il metodo del potenziale
vettore discreto per fluidi newtoniani non stazionari incomprimibili, Rap. Tec.
1/54-PF Sistemi Informatici e Calcolo Parallelo, 1991.
T4. D. Mansutti and L. Pezza Accurate Hopf points for the Poiseuille flow of a Bingham
fluid, Quaderno I.A.C. n.11/1992.
T5. F. Pitolli
and D. Mansutti Decomposizione del
dominio per il metodo del potenziale vettore discreto per fluidi newtoniani
non-stazionari incomprimibili: test
numerici, Quaderno I.A.C.
n.9/1993.
T6. D. Mansutti and F. Pitolli Manuale di MDVP-DD, un codice numerico per flussi 3D di
Navier-Stokes isocorici e non-stazionari,
Quaderno I.A.C., n.18/1993.
T7. E. Bucchignani and D. Mansutti A numerical analysis of 3D steady
horizontal convection in microgravity, Quaderno I.A.C. n. 12/2000.
T8. V. Botte and D. Mansutti Numerical modelling of the
Marangoni effects induced by plankton-generated surfactants, I.A.C. Reports n.
27 (12/2003).
T9. V. Botte and D. Mansutti Numerical modelling of the
effects of plankton-generated surfactants on the circulation induced by a wind
burst, I.A.C. Reports n. 70 (5/2005).
T10. D. Mansutti Towards the numerical simulation of
appearance and evolution of subglacial basins, I.A.C. Reports n. 99 (11/2006).
T11. D.
Mansutti Simulazione numerica della comparsa ed evoluzione di un lago
subglaciale, I.A.C. Reports n. 166 (11/2008)
T12. E. Bucchignani and D. Mansutti Modello matematico-numerico
per lo studio evolutivo della termodinamica di un lago subglaciale, I.A.C.
Reports n. 167 (11/2008).
T13. D. Mansutti Outline of activities developed by the Italian team within the SvalGlac
project,
http://svalglac.eu/Oslo_report_Italy.pdf,
2011.
T14.D. Mansutti and E. Bucchignani Diagnostic simulation of
a subglacial lake at Amundsenisen (South-Spitzbergen). Part 1: a mathematical
model, IAC Reports 191 (2/2011).
T15. D. Mansutti and E. Bucchignani Diagnostic simulation of a subglacial lake at Amundsenisen (South-Spitzbergen). Part 2: a finite volume solution procedure, IAC Reports 192 (2/2011) .
T16. D.
Mansutti Outline of the activities developed by the Italian
group: SvalGlac, 3rd year mid-term, http://svalglac.eu/reports.htm,
2012.
T18. D. Mansutti, E. Bucchignani, J. Otero, P. Glowacki Numerical thermo-mechanical
model of an icefield with subglacial lake. A test case in Svalbard, Arctic. http://eprints.bice.rm.cnr,it/7855/ (on-line legal deposit), 2013.