Assessment of Railtrack Geometry of Iddo - Mushin Corridor Lagos Region
Ocena geometrii torów kolejowych korytarza Iddo-Mushin w Lagos
Railway transport is a primary asset to trade, industry and commerce development of nations hat demand among others, a safe transit and optimal maintenance. Track performance remains an important index towards measuring track degradation. Thus, in this study the rail track geometry model was adopted to analyze the quality of Iddo - Mushin rail corridor towards safe rail transport system. Geometric parameters of interest include vertical irregularities, horizontal irregularities, crosslevel, twist and track gauge. The parameters were calculated from a 3-dimensional data collected using Tachymetric Surveying approach covering Mushin, Yaba, Ebute-Meta and Iddo terminus. It should be noted that despite the high standard used as regards to the design and construction of the Iddo-Mushin rail track facilities, several derailments have occurred over time due to rail geometry deformation with high probability incidents along the Iddo - Ebute-Meta corridor. It was also discovered that the Iddo-Mushin axis can only permit average train speed of about 80 km/h, using the Polish Railway Synthetic Coefficient for safe rail transportation system. The synthetic assessment approach is simple and facilitate a continuous measurement of geometric parameters along railway track. Proper maintenance and upgrade of the rail track system mechanisms to support the incremental trasport demand and services as a result of socio-economic growth and development of Lagos mega city, is therefore suggested. (original abstract)
- Adeoye A. A., 1998, Geographic/Land Information System Principle and Application, Fakodemo Press, Lagos.
- Adesanya A., 2010, Bringing the Nigerian Railways Back on Track: Challenges and Options, NISER Seminar Series, Held at NISER, Lagos.
- Agunloye O. O., Oduwaye L., 2011, Factors influencing the quality of rail transport services in metropolitan Lagos, Journal of Geography and Regional Planning, 4(2), 98-103.
- Al-Douri Y. K., Tretten P., Karim R., 2016, Improvement of railway performance: a study of Swedish railway infrastructure, Journal of Modern Transportation, 24, 22-37. (DOI 10.1007/s40534-015-0092-0)
- Badejo B., 2009, Unbundling the Challenges of Transportation and Development in Nigeria: The Lagos State Example, University of Ibadan, Ibadan.
- BS EN 13306, 2017, https://www.techstreet.com [22.05.2019]
- Bowman A., 2015, An illusion of success: The consequences of British rail privatisation, Accounting Forum, 39(1), 5163. (DOI 10.1016/j.accfor.2014.10.001)
- Creswell J. W., 1994, Research Design: Qualitative, Quantitative, and Mixed Methods Approaches, SAGE publications, California.
- Dina A. O., Raji B. A., 2016, Analysis of train speed performance on Nigeria railway corporation Lagos district narrow gauge track , Eithopian Journal of Environmental Studies & Management, 9(Suppl.2), 967 - 976. (DOI 10.4314/ejesm.v9i2.3S)
- EN 13848-1, Railway applications - Track-Track geometry quality- Part 1: Characterisation of track geometry, 2008, Swedish Standard Institute, Stockholm.
- Esveld C., 2001, Modern railway track, MRT Productions, Zaltbommel.
- Greene J. C., Caracelli V.J., 1997, Advances in mixed-method evaluation: the challenges and benefits of integrating diverse paradigms, Jossey-Bass publishers, San Francisco.
- Jaekel F., 1997, History of Nigerian Railway, Vol. 2, Spectrum Books Limited, Ibadan.
- Jovanovic S., 2004, Railway track quality assessment and related decision making. IEEE International Conference on Systems, Man and Cybernetics, 6, 5038-5043. (DOI 10.1109/ICSMC.2004.1400992)
- Kim D. S., Hwang S. H., Kono A., Matsushima T., 2018, Evaluation of ballast compactness during the tamping process by using an image-based 3D discrete element method, Journal of Rail and Rapid Transit, 0(0), 1-14. (DOI 0.1177/0954409718754927)
- Lichtberger B., 2005, Track Compendium: formation, permanent way, maintenance, economics, Eurailpress, Hamburg.
- Lyngby N., Hokstad P. and Vatn J., 2008, RAMS management of railway tracks, [in:] K. B. Misra (ed.), Handbook of Performability Engineering, Springer, London, 11231145. (DOI 10.1007/978-1-84800-131-2_68)
- Madejski J., Grabczyk J., 2002, Continuous geometry measurement for diagnostics of tracks and switches, Proceedings of the International Conference on Switches, Delft University of Technology, Delft.
- Martey E. N., Attoh-Okine N., 2018, Modeling tamping recovery of track geometry using the copula-based approach, Journal of Rail and Rapid Transit, 0(0), 1-18. (DOI 10.1177/0954409718757556)
- Obi I., 1986, The New Nigeria '12 Steps, economy, Nigeria, railways, transportation, [in:] T. Falola, S. A. Olanrewaju (eds.) Transport Systems in Nigeria, Syracuse University, New York, 31-50.
- He Q., Li H., Bhattacharjya D., Parikh D. P., Hampapur A., 2014, Track geometry defect rectification based on track deterioration modelling and derailment risk assessment, Journal of the Operational Research Society, 66, 1-13. (DOI 10.1057/jors.2014.7)
- Sadeghi J., Askarinejad H., 2007, Influences of track structure, geometry and traffic variables on railway deterioration, International Journal of Engineering, Transactions B: Applications, 20, 292-300.
- Sadeghi J., Askarinejad H., 2010, Development of improved railway track degradation models, Structure and Infrastructure Engineering, 6(6), 675-688. (DOI 10.1080/15732470801902436)
- Sato Y., 1997, Optimum track structure considering track deterioration in ballasted track, [in:] The sixth international heavy haul railway conference. International Heavy Haul Association, Virginia. 576-590.
- Soleimanmeigouni I., Ahmad A., Letot C., Nissen A., Kumar U., 2016, Cost-Based Optimization of Track Geometry Inspection, [in:] 11th World Congress on Railway Research, Milan. 1-7.
- Soleimanmeigouni I., Xiao X., Ahmadi A., Xie M., Nissen A., Kumar U., 2018, Modelling the evolution of ballasted railway track geometry by a two-level piecewise model, Structure and Infrastructure Engineering, 14(1), 33-45. (DOI 10.1080/15732479.2017.1326946)
- Caetano L. F., Teixeira P. F., 2013, Availability Approach to Optimizing Railway Track Renewal Operations, Journal of Transportation Engineering, 139(9), 941-948. (DOI 10.1061/(ASCE)TE.1943-5436.0000575)
- Weston P., Roberts C., Yeo G., Stewart E., 2015, Perspectives on railway track geometry condition monitoring from in-service railway vehicles, International Journal of Vehicle Mechanics and Mobility, 53(7), 1063-1091. (DOI 10.1080/00423114.2015.1034730)
- Zhang Y.-J., Murray M. H., Ferreira L., 2000, Modelling Rail Track Performance: An Integrated Approach, Transport, 141(4), 187-194. (DOI 10.1680/tran.2000.141.4.187)