Northampton Electronic Collection of Theses and Research

Items where Subject is "TJ1370 Elevators"

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Number of items at this level: 73.

A

  1. Aierbe, X. A., Abete, J. M. and Kaczmarczyk, S. (2008) The simulation model of the vertical dynamics and control of an elevator system. In: Proceedings of the Symposium on the Mechanics of Slender Structure (MoSS 2008).
  2. Aierbe, X. A., Abete, J. M. and Kaczmarczyk, S. (2007) Distributed longitudinal vibration model of a lift system including the machine dynamics. In: Proceedings of the 2nd International Conference on Experiments/Process/System Modelling/Simulation & Optimization. Athens, Greece: University of Patras. 9605300907.
  3. Al-Jelawy, H., Kaczmarczyk, S., Mirhadizadeh, S. and AlKhafaji, D. (2016) A study into the influence of the car geometry on the aerodynamic transient effects arising in a high rise lift installation. Lift and Escalator Symposium. 6, pp. 1-11. 2052-7225.
  4. Andrew, J. P. and Kaczmarczyk, S. (2011) Systems Engineering of Elevators. Mobile, Alabama: Elevator World. 1886536953, 9781886536951.
  5. Arrasate, X., Kaczmarczyk, S. and Abete, J. M. (2010) A simulation model of the vertical dynamics of an elevator system. In: Proceedings of the Symposium on the Mechanics of Slender Structure (MoSS 2010). 9788460811009.
  6. Arrasate, X., Kaczmarczyk, S., Almandoz, G., Abete, J. M. and Isasa, I. (2014) The modelling, simulation and experimental testing of the dynamic responses of an elevator system. Mechanical Systems and Signal Processing. 42(1-2), pp. 258-282. 0888-3270.

C

  1. Chan, R., So, A. and Kaczmarczyk, S. (2016) Evaluating a holistic energy benchmarking parameter of lift systems by using computer simulation. Lift and Escalator Symposium. 6, pp. 65-73. 2052-7225.
  2. Chandrashekar, G. and Kaczmarczyk, S. (2007) Vibration testing of an elevator aramid suspension system. Report submitted to ThyssenKrupp Corporation, 30th June 2007 (Unpublished)
  3. Chandrashekar, G., Kaczmarczyk, S., Maguire, M. and Smith, S. (2007) Identification of the modal parameters of a composite aramid suspension system. In: Proceedings of the 3rd ECCOMAS Thematic Conference on Smart Structures and Materials. Gdansk, Poland: IFFM Publishers. 9788388237027. pp. 67-68.
  4. Colon, D., Cunha Jr, A., Kaczmarczyk, S. and Balthazar, J. (2017) On dynamic analysis and control of an elevator system using polynomial chaos and Karhunen-Loeve approaches. Procedia Engineering. 199, pp. 1629-1634. 1877-7058.
  5. Colon, D., Kaczmarczyk, S. and Balthazar, J. (2016) The application of a polynomial chaos approach to the vibration analysis of an elevator system. In: Rade, D. A. and Lima, A. M. G. (eds.) Proceedings of The 3rd International Symposium on Uncertainty Quantification and Stochastic Modeling. Maresias, Sao Paulo, Brazil: ABCM.

E

  1. Ehrl, T., Smith, R. and Kaczmarczyk, S. (2015) Key dynamic parameters that influence ride quality of passenger transportation systems. Lift and Escalator Symposium. 5, pp. 63-72. 2052-7225.
  2. Emory, B., Zhu, W. and Kaczmarczyk, S. (2009) Modal testing and modeling of a simplified elevator system. In: Proceedings of the 27th Conference and Exposition on Structural Dynamics 2009 (IMAC XXVII). New York, USA: Curran Associates, Inc.. 9781605609614.

H

  1. Hassan, A., Torres Pérez, A., Kaczmarczyk, S. and Picton, P. (2016) The effect of time delay on control stability of an electromagnetic active tuned mass damper for vibration control. Journal of Physics: Conference Series. 721(012007), pp. 1-24. 1742-6596.
  2. Herrera, I. and Kaczmarczyk, S. (2018) 7th Symposium on Mechanics of Slender Structures 2017 (MoSS2017). Journal of Physics: Conference Series. 1048(011001), pp. 1-3. 1742-6596.
  3. Herrera, I. and Kaczmarczyk, S. (2016) Simple models for rope substructure mechanics: application to electro-mechanical lifts. Journal of Physics: Conference Series. 721(012008), pp. 1-8. 1742-6596.
  4. Herrera, I. and Kaczmarczyk, S. (2009) The assessment of vibration absorption capacity of elevator's passengers. Journal of Physics: Conference Series. 181, 012081. 1742-6588.
  5. Herrera, I., Su, H. and Kaczmarczyk, S. (2014) Influence of the load occupancy ratio on the dynamic response of an elevator car system. Applied Mechanics and Materials. 706, pp. 128-136. 1662-7482.
  6. Herrera, I., Su, H. and Kaczmarczyk, S. (2014) Modeling and estimation of damping and stiffness characteristics of lift passengers. In: Sivasundaram, S. (ed.) 10th International Conference on Mathematical Problems in Engineering, Aerospace and Sciences: ICNPAA 2014. Melville, NY: AIP Publishing LLC. 9780735412767. pp. 395-402.
  7. Herrera, I., Su, H. and Kaczmarczyk, S. (2014) Modelling and estimation of the damping and stiffness characteristics of lift passengers. Paper presented to: ICNPAA 2014 World Congress: 10th International Conference on Mathematical Problems in Engineering, Aerospace and Sciences, Narvik University, Norway, 15-18 July 2014. (Unpublished)
  8. Herrera, I., Su, H. and Kaczmarczyk, S. (2010) Investigation into the damping and stiffness characteristics of an elevator car system. Applied Mechanics and Materials. 24-25, pp. 77-82. 1660-9336.

K

  1. Kaczmarczyk, S. (2018) The prediction and control of dynamic interactions between tall buildings and high-rise vertical transportation systems subject to seismic excitations. In: Proceedings of the 25th International Congress on Sound and Vibration. Gliwice, Poland: Silesian University of Technology Press.
  2. Kaczmarczyk, S. (2018) The prediction and control of dynamic interactions between tall buildings and high-rise vertical transportation systems subject to seismic excitations. Paper presented to: 25th International Congress on Sound and Vibration (ICSV 25), Hiroshima, Japan, 08-12 July 2018.
  3. Kaczmarczyk, S. (2018) The modelling and prediction of dynamic responses of slender continua deployed in tall structures under long-period seismic excitations. Journal of Physics: Conference Series. 1048(012005), pp. 1-10. 1742-6588.
  4. Kaczmarczyk, S. (2018) The dynamic interactions in high-rise vertical transportation systems. Symposium on Lift & Escalator Technologies. 8, pp. 151-158. 2052-7225.
  5. Kaczmarczyk, S. (2017) The modelling and prediction of dynamic responses of slender continua deployed in tall structures under long period seismic excitations. Symposium presented to: Symposium on Mechanics of Slender Structures (MoSS) 2017, Merida, Spain, 14-15 December 2017.
  6. Kaczmarczyk, S. (2017) Suspension systems under seismic excitations. Invited Presentation presented to: CIBSE Lifts Group Annual Seminar 2017, London, 01 November 2017.
  7. Kaczmarczyk, S. (2017) The dynamics of vertical transportation systems in deep underground and high-rise applications. Invited Presentation presented to: Engineering Research Seminar Series, University of Kwazulu-Natal, Durban, South Africa, 22 August 2017.
  8. Kaczmarczyk, S. (2017) The dynamic behaviour of lift ropes and components under seismic excitation. Invited Presentation presented to: E2 Forum Lab 2017, Milan, Italy, 27 June 2017.
  9. Kaczmarczyk, S. (2016) Going the “distance”: evolution of the Lift Engineering program at UoN. Elevator World. December(2016) 0013-6158.
  10. Kaczmarczyk, S. (2016) Lift industry training and academic education workshop: academic qualifications. Workshop presented to: 6th Symposium on Lift and Escalator Technologies, Northampton, 21-22 September 2016.
  11. Kaczmarczyk, S. (2014) Vibration problems and quality of ride in elevator systems. Workshop presented to: VIII Mechanical and Industrial Engineering Rio Grande do Sul Seminar – SEEMI and VI Materials and Industrial Processes Seminar, Feevale University, Novo Hamburgo, Brazil, 04-07 November 2014. (Unpublished)
  12. Kaczmarczyk, S. (2014) Elevator technology: an introduction to elevator system engineering. Invited Keynote presented to: VIII Mechanical and Industrial Engineering Rio Grande do Sul Seminar – SEEMI and VI Materials and Industrial Processes Seminar, Feevale University, Novo Hamburgo, Brazil, 04-07 November 2014. (Unpublished)
  13. Kaczmarczyk, S. (2014) The prediction and analysis of dynamic behaviour and vibrations of lift systems. Invited Presentation presented to: 6th European Lift Congress Heilbronn 2014, Stuttgart, Germany, 07-08 October 2014. (Unpublished)
  14. Kaczmarczyk, S. (2014) Modelling and numerical simulation of vertical transportation systems. Paper presented to: ICNPAA 2014 World Congress: 10th International Conference on Mathematical Problems in Engineering, Aerospace and Sciences, Narvik University, Norway, 15-18 July 2014. (Unpublished)
  15. Kaczmarczyk, S. (2014) From deep underground to high-rise elevation: a ‘vertical journey’ in applied dynamics. Invited Presentation presented to: Seminar, Universidade Feevale, Brazil, 21 March 2014. (Unpublished)
  16. Kaczmarczyk, S. (2013) The dynamics of vertical transportation systems. Invited Presentation presented to: Seminar, Delft University of Technology, The Netherlands, 11 December 2013. (Unpublished)
  17. Kaczmarczyk, S. (2010) The development of a new advanced passenger / goods lift system (feasibility study for ACE Lifts Ltd). (Unpublished)
  18. Kaczmarczyk, S. (2010) Conference on the Mechanics of Slender Structures (MoSS 2010). Elevator World. LVIII(2), pp. 20-24. 0013-6158.
  19. Kaczmarczyk, S. (2009) The non-stationary dynamics and vibrations of moving slender continua in vertical transportation systems. Seminar Presentation presented to: Engineering Research Seminar Series, Southampton, 17 November 2009. (Unpublished)
  20. Kaczmarczyk, S. (2009) The prediction and analysis of the dynamic responses of governor ropes in freedom tower elevator system. (Submitted)
  21. Kaczmarczyk, S. (2009) The prediction and analysis of the dynamic responses of compensating ropes in freedom tower elevator system. (Submitted)
  22. Kaczmarczyk, S. (2008) The dynamic response of elevator compensating ropes in high-rise buildings. In: Proceedings of ELEVCON 2008. Elevator Technology. pp. 178-186.
  23. Kaczmarczyk, S. (2007) The prediction and analysis of the dynamic responses of compensating ropes in the Chicago Spire residential elevator system. Report submitted to ThyssenKrupp Corporation, 25 July 2007 (Unpublished)
  24. Kaczmarczyk, S. (2007) Machine beam vibration analysis. Report submitted to ThyssenKrupp Corporation, 31 May 2007 (Unpublished)
  25. Kaczmarczyk, S. (2007) The dynamics of material handling and lift systems. Lecture presented to: Istanbul Technical University, Istanbul, Turkey, 10 April 2007. (Unpublished)
  26. Kaczmarczyk, S. (2007) Inaugural Lift Engineering School. Elevatori. 36(1), pp. 32-35. 1121-7995.
  27. Kaczmarczyk, S. (2005) Prediction of the influence of vibration on structural integrity of elevator suspension ropes. Key Engineering Materials. 293-294, pp. 761-768. 1013-9826.
  28. Kaczmarczyk, S. and Chandrashekar, G. (2007) Turbo track analysis: resonance frequencies of the pallet assembly. Report submitted to ThyssenKrupp Corporation, 21 December 2007 (Unpublished)
  29. Kaczmarczyk, S., Iwankiewicz, R. and Terumichi, Y. (2009) The dynamic behaviour of a non-stationary elevator compensating rope system under harmonic and stochastic excitations. Journal of Physics: Conference Series. 181, 012047. 1742-6588.
  30. Kaczmarczyk, S., Iwankiewicz, R. and Terumichi, Y. (2008) Dynamic response of elevator compensating ropes in buildings under wind loading. In: Proceedings of the Symposium on the Mechanics of Slender Structure (MoSS 2008).
  31. Kaczmarczyk, S. and Iwankiewicz, R. (2017) On the nonlinear deterministic and stochastic dynamics of a cable - mass system with time-varying length. In: Bucher, C., Ellingwood, B. and Frangopol, D. (eds.) Proceedings of 12th International Conference on Structural Safety & Reliability. Vienna: TU-Verlag.
  32. Kaczmarczyk, S., Iwankiewicz, R. and Terumichi, Y. (2010) The responses of long moving vertical ropes and cables subjected to dynamic loading due to the host structure sway. In: Proceedings of the Symposium on the Mechanics of Slender Structure (MoSS 2010). San Sebastian, Spain: University of Mondragon. 9788460811009. pp. 1-10.
  33. Kaczmarczyk, S. and Mirhadizadeh, S. (2014) Computer simulation model of a lift car assembly with an active tuned mass damper. In: Kaczmarczyk, S. and Peters, R. (eds.) Symposium on Lift and Escalator Technologies: Volume 4. Northampton, UK: The University of Northampton, CIBSE Lifts Group. 2052-7225. pp. 99-104.
  34. Kaczmarczyk, S. and Smith, R. (2017) MSc Lift Engineering at The University of Northampton: systems engineering approach bridging the gap between the theory and industrial practice. Workshop presented to: 7th Symposium on Lift and Escalator Technologies, Highgate House, Creaton, Northampton, 20-21 September 2017. (Unpublished)
  35. Kaczmarczyk, S. and Smith, R. (2016) Elevator System. United Kingdom, Switzerland, Austria, Ireland, Germany. 21 September 2016. Patent number EP2913289 B1.
  36. Kawaguti, K., Terumichi, Y., Takehara, S., Kaczmarczyk, S. and Sogabe, K. (2007) The study of the tether motion with time-varying length using the absolute nodal coordinate formulation with multiple nonlinear time scales. Journal of System Design and Dynamics. 1(3), pp. 491-500. 1881-3046.
  37. Kwiatkowski, R., Kaczmarczyk, S., Mellor, N., Su, H., Salter, C. and Mulhern, L. (2015) Knowledge Transfer Partnership project as an example of best practices for innovation in the UK lift industry. Lift and Escalator Symposium. 5, pp. 97-104. 2052-7225.
  38. Kwiatkowski, R., Kaczmarczyk, S., Salter, C. and Mulhern, L. (2014) The development of a low to mid-rise energy efficient, green lift system. In: Kaczmarczyk, S. and Peters, R. (eds.) Symposium on Lift and Escalator Technologies: Volume 4. Northampton, UK: The University of Northampton, CIBSE Lifts Group. 2052-7225. pp. 127-132.

M

  1. Maguire, M., Kaczmarczyk, S., Adams, J. P. and Smith, R. (2007) Modal parameters of a lift suspension system. Elevatori. 36(6), pp. 68-75. 1121-7995.
  2. Mirhadizadeh, S., Kaczmarczyk, S., Tongue, N., Al-Jelawy, H., Feldhusen, P., Delk, W., Anderson, K. and Dudde, F. (2015) Modelling and computer simulation of aerodynamic interactions in high-rise lift systems. Lift and Escalator Symposium. 5, pp. 117-124. 2052-7225.

S

  1. Samamaliki-Simpson, R., Kaczmarczyk, S., Picton, P. and Turner, S. J. (2006) Non-linear modal interactions in a suspension rope system with time-varying length. Applied Mechanics and Materials. 5-6, pp. 217-224. 1660-9336.
  2. Smith, R. and Kaczmarczyk, S. (2008) Method and apparatus to minimize compensation rope sway in elevators. USA. 15 September 2008. Patent number 60/972,495.
  3. Smith, R. and Kaczmarczyk, S. (2008) Actively damped tension member. USA. 16 May 2008. Patent number 60/938,305.
  4. Smith, R. and Kaczmarczyk, S. (2007) Method and apparatus to minimize compensation rope sway through tendon control in elevators. USA. 14 September 2007. Patent number 60/972,506.
  5. Sánchez Crespo, R., Kaczmarczyk, S. and Picton, P. (2014) The coupled nonlinear dynamics of a lift system. Paper presented to: ICNPAA 2014 World Congress: 10th International Conference on Mathematical Problems in Engineering, Aerospace and Sciences, Narvik University, Norway, 15-18 July 2014. (Unpublished)
  6. Sánchez Crespo, R., Kaczmarczyk, S., Picton, P. and Su, H. (2015) Modelling and simulation of the nonstationary behaviour of high-rise elevator systems to predict the dynamic interactions between their components. Invited Presentation presented to: 5th Symposium on the Mechanics of Slender Structures (MoSS2015)), Northampton, UK, 21-22 September 2015. Northampton: The University of Northampton.
  7. Sánchez Crespo, R., Kaczmarczyk, S., Picton, P. and Su, H. (2014) The coupled nonlinear dynamics of a lift system. In: 10th International Conference on Mathematical Problems in Engineering, Aerospace and Sciences: ICNPAA 2014. Melville, NY: AIP Publishing LLC. 9780735412767. pp. 245-252.
  8. Sánchez Crespo, R., Kaczmarczyk, S., Picton, P. and Su, H. (2014) Modelling and simulation of a nonstationary high-rise elevator system to predict the dynamic interactions between its components. In: Kaczmarczyk, S. and Peters, R. (eds.) Symposium on Lift and Escalator Technologies: Volume 4. Northampton, UK: The University of Northampton, CIBSE Lifts Group. 2052-7225. pp. 175-182.

T

  1. Terumichi, Y., Takehara, S., Kaczmarczyk, S. and Sogabe, K. (2009) Absolute nodal coordinate formulation for flexible bodies with time-varying length using multiple nonlinear time scales. In: Proceedings of the 1st African Conference on Computational Mechanics (AfriCOMP2009).
  2. Torres Pérez, A., Hassan, A., Kaczmarczyk, S. and Picton, P. (2018) Energy efficient active vibration control strategies using electromagnetic linear actuators. Journal of Physics: Conference Series. 1048(012011), pp. 1-14. 1742-6588.
  3. Torres Pérez, A., Hassan, A., Kaczmarczyk, S. and Picton, P. (2017) Energy efficient active vibration control strategies using electromagnetic linear actuators. Symposium presented to: Symposium on Mechanics of Slender Structures (MoSS) 2017, Merida, Spain, 14-15 December 2017.

Z

  1. Zhu, W. and Kaczmarczyk, S. (2009) Conference on the Mechanics of Slender Structures (MoSS2008). Elevator World. LVII(2), pp. 20-24. 0013-6158.
This list was generated from NECTAR on Thu Sep 18 21:05:53 2025 BST.