Publications

Preprints and In Preparation

  1. Splitting for DAEs with port-Hamiltonian applications
    A. Bartel, M. Diab, A. Frommer, M. Günther, N. Marheineke (2024)
  2. On port-Hamiltonian approximations of a non-isothermal nonlinear flow problem on networks
    S.-A. Hauschild, N. Marheineke (2024)
  3. Nonwoven material design via surrogate optimization
    M. Harmening, J.-P. Burghard, N. Marheineke (2024)
  4. Simulation-based high-speed elongational rheometer for Carreau-type materials
    L. Kannengiesser, W. Arne, A. Bier, N. Marheineke, D. W. Schubert, R. Wegener, arXiv: 2403.01812 (2024)
  5. Reconstruction of inhomogeneous turbulence based on stochastic Fourier-type integrals. Part I: Modeling and analysis
    M. Antoni, Q. Kürpick, F. Lindner, N. Marheineke, R. Wegener, arXiv: 2311.09893 (2023)

Journal Publications

  1. Nonlinear reduction using the extended group finite element method 
    K. Tolle, N. Marheineke, Comp. Appl. Math., arXiv: 2106.02372 (2024)
  2. On snapshot-based model reduction under compatibility conditions for a nonlinear flow problem on networks
    B. Liljegren-Sailer, N. Marheineke, J. Sci. Comput., 92(62), doi: 10.1007/s10915-022-01901-z (2022)
  3. On port-Hamiltonian approximation of a nonlinear flow problem on networks
    B. Liljegren-Sailer, N. Marheineke, SIAM J. Sci. Comp.44(3):B834-B859, doi: 10.1137/21M1443480 (2022)
  4. Machine learning framework to predict nonwoven material properties from fiber graph representations
    D. Antweiler, M. Harmening, N. Marheineke, A. Schmeißer, R. Wegener, P. Welke,  Software Impacts, doi: 10.1016/j.simpa.2022.100423 (2022)
  5. Graph-based tensile strength approximation of random nonwoven materials by interpretable regression 
    D. Antweiler, M. Harmening, N. Marheineke, A. Schmeißer, R. Wegener, P. Welke, Machine Learning with Applications, 8:100288, doi:10.1016/j.mlwa.2022.100288 (2022)
  6. Input-tailored system-theoretic model order reduction for quadratic-bilinear systems
    B. Liljegren-Sailer, N. Marheineke, SIAM J. Matrix Anal. Appl., 43(1):1-39, doi: 10.1137/18M1216699 (2022)
  7. Certified reduced basis method for the damped wave equations on networks,
    N. Stahl, B. Liljegren-Sailer, N. Marheineke, IFAC Papers Online, 55(20):289-294 (2022)
  8. On flow-enhanced crystallization in fiber spinning: Asymptotically justified boundary conditions for numerics of a stiff viscoelastic two-phase model
    M. Ettmueller, W. Arne, N. Marheineke, R. Wegener, J. Non-Newtonian Fluid Mech., 296:104636 (2021)
  9. Efficient graph-based tensile strength simulations of random fiber structures
    M. Harmening, N. Marheineke, R. Wegener, ZAMM – Z. Angew. Math. Mech., doi: 10.1002/zamm.202000287 (2021)
  10. Extended group finite element method
    K. Tolle, N. Marheineke, Appl. Num. Math. 162, doi:10.1016/j.apnum.2020.12.008 (2021)
  11. Industrial dry spinning processes: Simulation framework for a two-phase flow model 
    M. Wieland, W. Arne, N. Marheineke, R. Wegener, J. Math. Ind.10:8, doi: 10.1186/s13362-020-00076-2 (2020)
  12. Low-Mach-number and slenderness limit for elastic Cosserat rods and its numerical investigation
    F. Baus, A. Klar, N. Marheineke, R. Wegener, Asymp. Anal., 120(1-2):103-121 (2020)
  13. Model reduction techniques for linear constant coefficient port-Hamiltonian differential-algebraic systems
    S.-A. Hauschild, N. Marheineke, V. Mehrmann, Control & Cybernetics, 48(1):125-152 (2019) 
  14. Melt-blowing of viscoelastic jets in turbulent airflows: Stochastic modeling and simulation
    M. Wieland, W. Arne, N. Marheineke, R. Wegener, Appl. Math. Mod., 76:558-577 (2019)
  15. Modelling and simulation of curved fibers in dry spinning scenarios
    M. Wieland, W. Arne, N. Marheineke, R. Wegener, Results Appl. Math., doi: 10.1016/j.rinam.2019.100013 (2019)
  16. An efficient numerical framework for spinning scenarios with evaporation effects in airflows
    M. Wieland, W. Arne, R. Fessler, N. Marheineke, R. Wegener, J. Comput. Phys., 384:326-348 (2019)
  17. Modeling of macroscopic stresses in a dilute suspension of small weakly inertial particles
    A. Vibe, N. Marheineke, Kinetic Related Models, 11(6):1443-1474 (2018)
  18. Whipping of electrified visco-capillary jets in airflows
    W. Arne, N. Marheineke, M. Perez-Saborid, J. Rivero-Rodriguez, R. Wegener, M. Wieland, SIAM J. Appl. Math., 78(1):343-371 (2018)
  19. On structure-preserving model reduction for damped wave propagation in transport networks
    H. Egger, T. Kugler, B. Liljegren-Sailer, N. Marheineke, V. Mehrmann, SIAM J. Sci. Comp., 40(1):A33-A365 (2018)
  20. Stochastic dynamics for inextensible fibers in a spatially semi-discrete setting
    F. Lindner, N. Marheineke, H. Stroot, A. Vibe, R. Wegener, Stoch. Dyn., 17:1750016 (2017)
  21. Aerodynamic web forming: process simulation and material properties 
    S. Gramsch, A. Klar, G. Leugering, N. Marheineke, C. Nessler, C. Strohmeyer, R. Wegener, J. Math. Ind., 6(1):1-23 (2016)
  22. Impact of weak particle inertia on dilute suspensions of ellipsoids
    A. Vibe, N. Marheineke, J. Comp. Theor. Transport, 45(5):396-409 (2016)
  23. Asymptotics and numerics for the upper convected Maxwell model of transient curved viscoelastic jets
    N. Marheineke, B. Liljegren-Sailer, M. Lorenz, R. Wegener, Math. Mod. Meth. Appl. Sci., 26(3):569-600 (2016)
  24. On a nonlinear partial differential algebraic system arising in technical textile industry: Analysis and numerics
    M. Grothaus, N. Marheineke, IMA J. Num. Anal., 36(4):1783-1803 (2015)
  25. Finite volume approach for the instationary Cosserat rod model describing the spinning of viscous jets
    W. Arne, N. Marheineke, A. Meister, S. Schiessl, R. WegenerJ. Comput. Phys., 294:20-37 (2015)
  26. Optimal control of glucose balance in ICU patients based on GlucoSafe-model
    N. Marheineke, T.M. Cibis, S. Schiessl, U. Pielmeier, J. Math. Ind., 4:3 (2014)
  27. On simulations of spinning processes with a stationary one-dimensional upper convected Maxwell model
    M. Lorenz, N. Marheineke, R. Wegener, J. Math. Ind., 4:2 (2014)
  28. Random field sampling for a simplified model of melt-blowing considering turbulent velocity fluctuations
    F. Huebsch, N. Marheineke, K. Ritter, R. Wegener, J. Stat. Phys., 150(6):1115-1137 (2013)
  29. Semiconductor device optimization in the presence of thermal effects
    C.R. Drago, N. Marheineke, R. Pinnau, Z. Ang. Math. Mech., 93(9):700-705 (2013)
  30. Multiphysics and multimethods problem of rotational glass fiber melt-spinning
    N. Marheineke, J. Liljo, J. Mohring, J. Schnebele, R. Wegener, Int. J. Num. Anal. Mod. B, 3(3):330-344 (2012)
  31. Model hierarchies in space mapping optimization - Feasibility study for transport processes
    N. Marheineke, R. Pinnau, J. Comput. Meth. Sci. Eng., 12:63-74 (2012)
  32. Space mapping-focused control techniques for particle dispersions in fluids
    N. Marheineke, R. Pinnau, E. Resendiz, Opt. Eng., 13(1):101-120 (2012)
  33. Two adjoint-based optimization approaches for a free surface Stokes flow
    S. Repke, N. Marheineke, R. Pinnau, SIAM J. Appl. Math., 71(6):2168-2184 (2011)
  34. Fluid-fiber-interactions in rotational spinning process of glass wool manufacturing
    W. Arne, N. Marheineke, J. Schnebele, R. Wegener, J. Math. Ind., 1:2 (2011)
  35. Asymptotic transition of Cosserat rod to string models for curved viscous inertial jets
    W. Arne, N. Marheineke, R. Wegener, Math. Mod. Meth. Appl. Sci., 21(10):1987-2018 (2011)
  36. Adjoint-based optimal control using mesh-less discretizations
    J. Marburger, N. Marheineke, R. Pinnau, J. Comp. Appl. Math., 235:3138-3150 (2011)
  37. Modeling and application of a stochastic drag for fibers in turbulent flows
    N. Marheineke, R. Wegener, Int. J. Multiphase Flow, 37:136-148 (2011)
  38. Numerical analysis of Cosserat rod and string models for viscous jets in rotational spinning processes
    W. Arne, N. Marheineke, A. Meister, R. Wegener, Math. Mod. Meth. Appl. Sci., 20(10):1941-1965 (2010)
  39. Hierarchy of mathematical models for production processes of technical textiles
    A. Klar, N. Marheineke, R. Wegener, Z. Ang. Math. Mech., 89(12):941-961 (2009)
  40. Asymptotic model for the dynamics of curved viscous fibers with surface tension
    N. Marheineke, R. Wegener, J. Fluid Mech., 622:345-369 (2009)
  41. Systematic derivation of an asymptotic model for the dynamics of curved viscous fibers
    S. Panda, N. Marheineke, R. Wegener, Math. Meth. Appl. Sci., 31:1153-1173 (2008)
  42. Hydrodynamic limit for the Fokker-Planck equation describing fiber lay-down models
    L.L. Bonilla, T. Götz, A. Klar, N. Marheineke, R. Wegener, SIAM J. Appl. Math., 68(3):648-665 (2007)
  43. Fiber dynamics in turbulent  flows: Specific Taylor drag
    N. Marheineke, R. Wegener, SIAM J. Appl. Math., 68(1):1-23 (2007)
  44. A stochastic model and associated Fokker-Planck equation for the fiber lay-down process in nonwoven production processes
    T. Götz, A. Klar, N. Marheineke, R. Wegener, SIAM J. Appl. Math., 67(6):1704-1717 (2007)
  45. Fiber dynamics in turbulent  flows: General modeling framework
    N. Marheineke, R. Wegener, SIAM J. Appl. Math., 66(5):1703-1726 (2006)

Reviewed Proceedings / Contributions to Books

  1. Operator splitting for port-Hamiltonian systems
    A. Frommer, M. Günther, B. Liljegren-Sailer, N. Marheineke, In: Progress in Industrial Mathematics at ECMI 2023, Springer (2024), arXiv 2304.01766
  2. Generalized Newtonian material models in fiber spinning simulations
    L. Kannengiesser, N. Marheineke, R. Wegener, In: Progress in Industrial Mathematics at ECMI 2023, Springer (2024)
  3. Industrial melt spinning with two-way coupled airflow including viscoelasticity, crystallizationn and radial effects
    M. Ettmüller, W. Arne, N. Marheineke, R. Wegener, In: Progress in Industrial Mathematics at ECMI 2023, Springer (2024)
  4. A regression-based predictive model hierarchy for nonwoven tensile strength inference
    D. Antweiler, J. P. Burghard, M. Harmening, N. Marheineke, A. Schmeißer, R. Wegener, P. Welke, In: Informed Machine Learning, Springer (to appear, 2024)
  5. Structure-preserving methods for a coupled port-Hamiltonian system of compressible non-isothermal fluid flow 
    S.-A. Hauschild, N. Marheineke, PAMM – Proc. Appl. Math. Mech., 23, doi: 10.1002/pamm.202300012 (2023)
  6. Product integration method for the simulation of radial effects in fiber melt spinning of semi-crystalline polymers
    M. Ettmueller, W. Arne, N. Marheineke, R. Wegener, PAMM – Proc. Appl. Math. Mech., 22 (2022)
  7. Efficient state estimation for gas pipeline networks via low-rank approximations
    N. Stahl, N. Marheineke, ARGESIM Report, 20:163-170 (2022)
  8. Graph-based view of an equilibrium model for nonwoven tensile strength simulations
    M. Harmening, N. Marheineke, R. Wegener. In: Progress in Industrial Mathematics at ECMI 2021, 123-129, Springer (2022)
  9. Model reduction for a port-Hamiltonian formulation of the Euler equations
    S.-A. Hauschild, N. Marheineke, In: Progress in Industrial Mathematics at ECMI 2021, 1-7, Springer (2022)
  10. A low-rank extended Kalman filter for gas pipeline networks
    N. Stahl, N. Marheineke, In: Progress in Industrial Mathematics at ECMI 2021, 181-187, Springer (2022)
  11. On online parameter identification in laser-induced thermotherapy
    K. Tolle, N. Marheineke, In: Modeling, Simulation and Optimization in the Health- and Energy-Sector, 43-62, Springer (2022)
  12. Extended group finite element method for a port-Hamiltonian formulation of the non-isothermal Euler equations 
    S.-A. Hauschild, N. Marheineke,  PAMM – Proc. Appl. Math. Mech., 21, doi: 10.1002/pamm.202100032 (2021)
  13. Asymptotically justified boundary conditions for a viscoelastic two-phase fiber model 
    M. Ettmueller, W. Arne, N. Marheineke, R. Wegener,  PAMM – Proc. Appl. Math. Mech., 21, doi: 10.1002/pamm.202100087 (2021)
  14. MathEnergy - Mathematical key technologies for evolving energy grids
    T. Clees, A. Baldin, P. Benner, S. Grundel, C. Himpe, B. Klaassen, F. Küsters, N. Marheineke, L. Nikitina, I. Nikitin, J. Pade, N. Stahl, C. Strohm, C. Tischendorf, A. Wirsen, In: Mathematical Modeling, Simulation and Optimization for Power Engineering and Management, 233-262, Springer (2021)
  15. Tensile strength simulations of nonwoven fiber materials
    M. Harmening, N. Marheineke, R. Wegener, Proc. Appl. Math. Mech., 20, Wiley, doi: 10.1002/pamm.202000111 (2020)
  16. Structure-preserving discretization of a port-Hamiltonian formulation of the non-isothermal Euler equations
    S.-A. Hauschild, N. Marheineke, Proc. Appl. Math. Mech., 20, Wiley, doi: 10.1002/pamm.202000014 (2020)
  17. Port-Hamiltonian modeling of district heating networks,
    S.-A. Hauschild, N. Marheineke, V. Mehrmann, J. Mohring, A. Moses Badlyan, M. Rein, M. Schmidt, In: Differential-Algebraic Equations Forum II, 333-355, Springer, doi: 10.1007/978-3-030-53905-4_11(2020)
  18. Model reduction techniques for port-Hamiltonian differential-algebraic systems
    S.-A. Hauschild, N. Marheineke, V. Mehrmann,  Proc. Appl. Math. Mech., 19, Wiley, doi: 10.1002/pamm.201900040 (2019)
  19. Structure-preserving Galerkin approximation for a class of nonlinear port-Hamiltonian partial differential equations on networks
    B. Liljegren-Sailer, N. Marheineke, Proc. Appl. Math. Mech., 19, Wiley, doi: 10.1002/pamm.201900399 (2019)
  20. Filtering and model reduction of PDAEs with stochastic boundary data
    N. Stahl, N. Marheineke, Proc. Appl. Math. Mech., 19, Wiley, doi: 10.1002/pamm.201900130 (2019)
  21. Multi-fidelity optimization using reduced order models
    K. Tolle, N. Marheineke, Proc. Appl. Math. Mech., 19, Wiley, doi: 10.1002/pamm.201900168 (2019)
  22. Mean-field surrogate model of a dilute and chaotic particle suspension
    A. Vibe, N. Marheineke, Proc. Appl. Math. Mech., 19, Wiley, doi:10.1002/pamm.201900360 (2019)
  23. Model hierarchy of upper-convected Maxwell models with regard to simulations of melt-blowing processes
    M. Wieland, W. Arne, N. Marheineke, R. Wegener, Proc. Appl. Math. Mech., 19, Wiley, doi: 10.1002/pamm.201900018 (2019)
  24. Moment matching based model order reduction for quadratic-bilinear systems
    N. Stahl, B. Liljegren-Sailer, N. Marheineke, In: Progress in Industrial Mathematics at ECMI 2018, Eds. I. Farago, F. Izsak, P.L. Simon, Springer, 551-557 (2019)
  25. Efficient therapy-planning via model reduction for laser-induced thermotherapy
    K. Tolle, N. Marheineke, In: Progress in Industrial Mathematics at ECMI 2018, Eds. I. Farago, F. Izsak, P.L. Simon, Springer, 207-213 (2019)
  26. On a dry spinning model using two-phase flow
    M. Wieland, W. Arne, R. Fessler, N. Marheineke, R. Wegener, In: Progress in Industrial Mathematics at ECMI 2018, Eds. I. Farago, F. Izsak, P.L. Simon, Springer, 19-25 (2019)
  27. Product integration method for simulation of radial effects in dry spinning processes
    M. Wieland, W. Arne, R. Fessler, N. Marheineke, R. Wegener, Proc. Appl. Math. Mech., 18, Wiley (2018)
  28. Viscoelastic Cosserat rod model for spinning processes
    W. Arne, N. Marheineke, R. Wegener, In: Progress in Industrial Mathematics at ECMI 2016, Eds. P. Quintela, P. Barral, D. Gomez, F.J. Pena, J. Rodriguez, P. Salgado, M.E. Vazquez-Mendez, Springer, 235-241 (2017)
  29. A structure-preserving model order reduction approach for space-discrete gas networks with active elements
    B. Liljegren-Sailer, N. Marheineke, In: Progress in Industrial Mathematics at ECMI 2016, Eds. P. Quintela, P. Barral, D. Gomez, F.J. Pena, J. Rodriguez, P. Salgado, M.E. Vazquez-Mendez, Springer, 439-446 (2017)
  30. Stability-preserving interpolation strategy for parametric mor of gas pipeline-networks
    Y. Lu, N. Marheineke, J. Mohring, In: Progress in Industrial Mathematics at ECMI 2016, Eds. P. Quintela, P. Barral, D. Gomez, F.J. Pena, J. Rodriguez, P. Salgado, M.E. Vazquez-Mendez, Springer, 431-437 (2017)
  31. Aerodynamic web forming: Pareto-optimized mass distribution
    N. Marheineke, S. Antonov, S. Gramsch, R. Wegener,  In: Progress in Industrial Mathematics at ECMI 2016, Eds. P. Quintela, P. Barral, D. Gomez, F.J. Pena, J. Rodriguez, P. Salgado, M.E. Vazquez-Mendez, Springer, 207-213 (2017)
  32. A finite volume method with staggered grid on time-dependent domains for viscous fiber spinning
    S. Schiessl, W. Arne, N. Marheineke, R. Wegener,  In: Progress in Industrial Mathematics at ECMI 2016, Eds. P. Quintela, P. Barral, D. Gomez, F.J. Pena, J. Rodriguez, P. Salgado, M.E. Vazquez-Mendez, Springer, 713-720 (2017)
  33. Wiener chaos expansion for an inextensible Kirchhoff beam driven by stochastic forces
    A. Vibe, N. Marheineke, In: Progress in Industrial Mathematics at ECMI 2016, Eds. P. Quintela, P. Barral, D. Gomez, F.J. Pena, J. Rodriguez, P. Salgado, M.E. Vazquez-Mendez, Springer, 761-768 (2017)
  34. Interpolation strategy for BT-based parametric MOR of gas pipeline-networks
    Y. Lu, N. Marheineke, J. Mohring, In: MS&A - Model Reduction of Parametrized Systems, Eds. P. Benner, M. Ohlberger, A. Patera, G. Rozza, K. Urban, Springer, 387-401 (2017)
  35. MOR via quadratic-linear representation of nonlinear-parametric PDEs
    Y. Lu, N. Marheineke, J. Mohring, In: Progress in Industrial Mathematics at ECMI 2014, Eds. G. Russo, V. Capasso, G. Nicosia, V. Romano, Springer, 793-799 (2017)
  36. Setup of viscous Cosserat rod model describing electrospinning
    J. Rivero-Rodriguez, W. Arne, N. Marheineke, R. Wegener, M. Perez-Saborid, In: Progress in Industrial Mathematics at ECMI 2014, Eds. G. Russo, V. Capasso, G. Nicosia, V. Romano, Springer, 985-992 (2017)
  37. Homotopy method for viscous Cosserat rod model describing electrospinning
    W. Arne, J. Rivero-Rodriguez, M. Perez-Saborid, N. Marheineke, R. Wegener, In: Progress in Industrial Mathematics at ECMI 2014, Eds. G. Russo, V. Capasso, G. Nicosia, V. Romano, Springer, 979-984 (2017)
  38. A moving mesh framework based on three parametrization layers for 1d PDEs
    S. Schiessl, N. Marheineke, R. Wegener, In: Progress in Industrial Mathematics at ECMI 2014, Eds. G. Russo, V. Capasso, G. Nicosia, V. Romano, Springer, 945-951 (2017)
  39. Homogenization strategies for fiber curtains and bundles in air flows
    T.M. Cibis, C. Leithaeuser, N. Marheineke, R. Wegener, In: Progress in Industrial Mathematics at ECMI 2014, Eds. G. Russo, V. Capasso, G. Nicosia, V. Romano, Springer, 971-978 (2017)
  40. Interpolation-based nonlinear parametric MOR for gas pipelines
    Y. Lu, N. Marheineke, J. Mohring, Proc. Appl. Math. Mech., 14, Wiley, 971-972 (2014)
  41. An adaptive moving mesh approach for hyperbolic conservation laws in time-dependent domains
    S. Schiessl, N. Marheineke, W. Arne, R. Wegener, Proc. Appl. Math. Mech., 14, Wiley, 957-958 (2014)
  42. Model-based medical decision support for glucose balance in ICU patients: Optimization and analysis
    T.M. Cibis, N. Marheineke, In:Progress in Industrial Mathematics at ECMI 2012, Eds. M. Fontes, M. Guenther, N. Marheineke, Springer, 237-243 (2014)
  43. Efficient sampling of random fields for fiber-fluid interactions in isotropic turbulence
    F. Huebsch, N. Marheineke, R. Wegener, In: Progress in Industrial Mathematics at ECMI 2012, Eds. M. Fontes, M. Guenther, N. Marheineke, Springer, 119-126 (2014)
  44. On viscoelastic fiber spinning: Die swell effect in 1d uniaxial UCM model
    N. Marheineke, M. Lorenz, R. Wegener, In: Progress in Industrial Mathematics at ECMI 2012, Eds. M. Fontes, M. Guenther, N. Marheineke, Springer, 91-98 (2014)
  45. Asymptotic modeling framework for fiber-flow interactions in a two-way coupling
    T.M. Cibis, N. Marheineke, R. Wegener, In: Progress in Industrial Mathematics at ECMI 2012, Eds. M. Fontes, M. Guenther, N. Marheineke, Springer, 109-117 (2014)
  46. Numerical treatment of non-stationary viscous Cosserat rod in a two-dimensional Eulerian framework
    W. Arne, N. Marheineke, A. Meister, R. Wegener, In: Progress in Industrial Mathematics at ECMI 2012, Eds. M. Fontes, M. Guenther, N. Marheineke, Springer, 99-107 (2014)
  47. DAE-index monitoring for semi-discretized viscous Cosserat rod models
    S. Schiessl, W. Arne, N. Marheineke, R. Wegener, Proc. Appl. Math. Mech., 13:501-502, Wiley (2013)
  48. Asymptotics and numerics for non-Newtonian jet dynamics
    M. Lorenz, N. Marheineke, R. Wegener, Proc. Appl. Math. Mech., 13:515-516, Wiley (2013)
  49. On an asymptotic upper-convected Maxwell model for a viscoelastic jet
    M. Lorenz, N. Marheineke, R. Wegener, Proc. Appl. Math. Mech., 12:601-602, Wiley (2012)
  50. On the modeling of slender heat sources
    T.M. Cibis, N. Marheineke, R. Wegener, Proc. Appl. Math. Mech., 12:581-582, Wiley (2012)
  51. Asymptotic Cosserat models for viscous jets in rotational spinning
    W. Arne, N. Marheineke, R. Wegener, Proc. Appl. Math. Mech., 12:747-748, Wiley (2012)
  52. Numerical treatment of fiber-fiber and fiber-obstacle contacts in technical textile manufacturing
    F. Olawsky, M. Hering-Bertram, A. Schmeisser, N. Marheineke, In: Progress in Industrial Mathematics at ECMI 2010, Eds. M. Günther, A. Bartel, M. Brunk, S. Schöps, M. Striebel, Springer, 335-340 (2012)
  53. Asymptotic models of different complexity for viscous jets and their applicability regimes
    W. Arne, N. Marheineke, R. Wegener, In: Progress in Industrial Mathematics at ECMI 2010, Eds. M. Günther, A. Bartel, M. Brunk, S. Schöps, M. Striebel, Springer, 349-356 (2012)
  54. Stochastic PDAE-models and associated Monte-Carlo simulations for elastic threads in turbulent flows
    N. Marheineke, R. Wegener, In: Progress in Industrial Mathematics at ECMI 2010,  Eds. M. Günther, A. Bartel, M. Brunk, S. Schöps, M. Striebel, Springer, 239-246 (2012)
  55. State estimation and fault detection of an aircraft using nonlinear filters
    J. Christmann, C. Kappenberger, N. Marheineke, Proc. Appl. Math. Mech., 11, Wiley, 807-808 (2011)
  56. Adjoint-based optimization of a free surface  flow in film casting
    S. Repke, N. Marheineke, Proc. Appl. Math. Mech., 10, Wiley, 589-590 (2010)
  57. Models and methods for viscous jets, break-up and drop forming
    N. Marheineke, In: Progress in Industrial Mathematics at ECMI 2008, Eds. A. Fitt, J. Norbury, H. Ockendon, E. Wilson, Springer, 589-590 (2010)
  58. General string theory for dynamic curved viscida with surface tension
    N. Marheineke, R. Wegener, In: Progress in Industrial Mathematics at ECMI 2008, Eds. A. Fitt, J. Norbury, H. Ockendon, E. Wilson, Springer, 591-596 (2010)
  59. On optimal control of a free surface flow
    S. Repke, N. Marheineke, Proc. Appl. Math. Mech., 9, Wiley, 607-608 (2009)
  60. Space-mapping approach for particle control in turbulent  flows
    N. Marheineke, R. Pinnau, E. Resendiz, Proc. Appl. Math. Mech., 8, Wiley, 10015-10018 (2008)
  61. Statistic analysis of nonwoven properties based on a stochastic fiber lay-down model
    N. Marheineke, Proc. Appl. Math. Mech., 7, Wiley, 2080017-2080018 (2007)
  62. Dynamics of curved viscous fibers
    S. Panda, N. Marheineke, R. Wegener, In: Progress in Industrial Mathematics at ECMI 2006, Eds. L.L. Bonilla, M. Moscoso, G. Platero, J.M. Vega, Springer, 685-690 (2007)
  63. Mathematical force concept for the one-way-coupling of dynamic fibers and turbulent flows
    N. Marheineke, R. Wegener, Proc. Appl. Math. Mech., 6, Wiley, 535-536 (2006)
  64. Modeling of turbulence effects on fiber motion
    In: Progress in Industrial Mathematics at ECMI 2004, Eds. A. Di Bucchianico, R.M.M. Mattheij, M.A. Peletier, Springer, 366-370 (2005)
  65. Mathematical modeling and numerical simulations of fiber dynamics
    mit D. Hietel, Proc. Appl. Math. Mech., 5, Wiley, 667-670 (2005)
  66. Modified FEM for fibre-fluid interactions
    In: Progress in Industrial Mathematics at ECMI 2002, Eds. A.D. Fitt, A. Buikis, R. Ciegis, Springer, 81-90 (2004)
  67. Mesh-less method for homogeneous handling of fiber-fluid interactions
    N. Marheineke, In: Computational Fluid and Solid Mechanics, Proc. Second MIT Conf., Ed. K.J. Bathe, Elsevier, 2067-2070 (2003)

Book Chapters

  1. Virtual Production of Filaments and Fleeces
    R. Wegener, N. Marheineke, D. Hietel. In: Currents in Industrial Mathematics: from Concepts to Research to Education, Eds. H. Neunzert, D. Praetzel-Wolters, Springer, Heidelberg, 103-162 (2015)
  2. Virtuelle Produktion von Filamenten und Vliesstoffen
    R. Wegener, N. Marheineke, D. Hietel. In: Mathematik im Fraunhofer Institut, Eds. H. Neunzert, D. Praetzel-Wolters, Springer, Heidelberg, 105-165 (2015)
  3. Problemloesungskompetenz Mathematische Modellierung
    In: Studien- und Berufsplaner Mathematik, 5. ed., Springer Spektrum, Heidelberg, 140-142 (2015)
  4. Mathematiker spinnen?! - Asymptotische Modellierung
    N. Marheineke. In: Facettenreiche Mathematik - Einblicke in die moderne mathematische Forschung, Eds. K. Wendland, A. Werner, Vieweg+Teubner, Wiesbaden, 273-290 (2011)

Editor

  1. Progress in Industrial Mathematics at ECMI 2012Eds. M. Fontes, M. Guenther, N. Marheineke, Springer (2014)

Theses

  1. Turbulent Fibers - On the Motion of Long Flexible Fibers in Turbulent Flows
    Dissertation, FB Mathematik, TU Kaiserslautern, Shaker-Verlag, Aachen (2005)
  2. Modified FEM for Fibre-Fluid Interactions
    Diplomarbeit, FB Mathematik, Universität Kaiserslautern (2001)