Open AccessMathematical modeling for demurrage reduction in coal transportation for an Indian Thermal Power Plant
Author(s) -
Amit Bhatnagar,
Ritesh Gupta,
Sriharsha Pappu,
Goutam Dutta
Publication year - 2004
Publication title -
opsearch
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.353
H-Index - 20
eISSN - 0975-0320
pISSN - 0030-3887
DOI - 10.1007/bf03398835
Subject(s) - coal , power station , thermal power station , frame (networking) , power (physics) , queueing theory , reduction (mathematics) , computer science , operations research , process (computing) , operations management , environmental science , environmental economics , agricultural engineering , business , waste management , engineering , economics , telecommunications , mathematics , computer network , physics , geometry , electrical engineering , quantum mechanics , operating system
Competitive pressures on power plants have seen them attempting to reduce their operating expenses for profitable operations. In India, the plants use wagons of the Indian Railways to transport coal from the mines (in case of domestic coal) or from the ports (in case of imported coal). Once these loaded railway wagons have reached the power plant, they need to be unloaded and released within a stipulated time frame. If there is any delay beyond the stipulated time, the power plant has to pay penalty cost to the Indian Railways. In this paper, we describe an analysis of the underlying causes behind these delays. We use correlation analysis, queuing theory and simulation to mathematically model the coal arrival process in the company. The recommendation suggested by the study is currently under implementation.
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