V.R. Renjith
V.R. Renjith
Professor of Safety and Fire Engineering, Cochin University of Science and Technology
Verified email at cusat.ac.in
Title
Cited by
Cited by
Year
Two-dimensional fuzzy fault tree analysis for chlorine release from a chlor-alkali industry using expert elicitation
VR Renjith, G Madhu, VLG Nayagam, AB Bhasi
Journal of hazardous materials 183 (1-3), 103-110, 2010
782010
Fuzzy FMECA (failure mode effect and criticality analysis) of LNG storage facility
VR Renjith, PH Kumar, D Madhavan
Journal of loss prevention in the process industries 56, 537-547, 2018
472018
Individual and societal risk analysis and mapping of human vulnerability to chemical accidents in the vicinity of an industrial area
VR Renjith, G Madhu
International Journal of Applied Engineering Research 1 (2), 135, 2010
232010
Human vulnerability mapping of chemical accidents in major industrial units in Kerala, India for better disaster mitigation
K Rajeev, S Soman, VR Renjith, P George
International journal of disaster risk reduction 39, 101247, 2019
82019
Application of fuzzy failure mode effect and criticality analysis on unloading facility of LNG terminal
ASG Joel John, V.R. Renjith, Priscilla G
Journal of Loss Prevention in the Process Industries, 2019
82019
Consequence modelling, vulnerability assessment and fuzzy fault tree analysis of hazardous storages in an industrial area
VR Renjith, G Madhu
Cochin University of Science & Technology, 2010
62010
Vapour absorption refrigeration system using low grade energy-an ecofriendly approach
VR Renjith, PJ Joshy
First international seminar SAFE 99, 24-26, 1999
41999
Failure mode effect and criticality analysis using dempster shafer theory and its comparison with fuzzy failure mode effect and criticality analysis: A case study applied to …
MJ Kalathil, VR Renjith, NR Augustine
Process Safety and Environmental Protection 138, 337-348, 2020
32020
Safety and Security of Process Plants: A Fuzzy-Based Bayesian Network Approach
PG George, VR Renjith
Reliability, Safety and Hazard Assessment for Risk-Based Technologies, 639-648, 2020
12020
Risk assessment of LNG regasification terminal using cascaded fuzzy-LOPA 2
V Renjith, S George
12017
Bayesian estimation and consequence modelling of deliberately induced domino effects in process facilities
PG George, VR Renjith
Journal of Loss Prevention in the Process Industries, 104340, 2020
2020
Risk Assessment and Vulnerability Analysis of Liquefied Natural Gas (LNG) Regasification Terminal
S James, VR Renjith
Process Integration and Optimization for Sustainability, 1-23, 2020
2020
Application of dynamic risk analysis in offshore drilling processes
B Bijay, P George, VR Renjith, AJ Kurian
Journal of Loss Prevention in the Process Industries 68, 104326, 2020
2020
A Deterministic Approach to Quantify the Risk in Propellant Processing Unit Using Bow Tie Analysis
K Sreejesh, VR Renjith, SC Bhattacharyya
Reliability, Safety and Hazard Assessment for Risk-Based Technologies, 967-980, 2020
2020
Consequence Analysis, Vulnerability Mapping and Fuzzy Fault Tree Analysis for a Better Disaster Management in and Around Chemical Industrial Areas
VR Renjith, G Madhu
Journal of Industrial Safety Engineering 1 (1), 12-18, 2019
2019
EVALUATION OF INHERENTLY SAFER DESIGNS BASED ON SAFETY INDICES: A REVIEW
S Mahindra, VR Renjith
ICEEMS’19 SCHOOL OF ENGINEERING COCHIN UNIVERSITY OF SCIENCE AND TECHNOLOGY, 241, 2019
2019
Corroboration of sparse failure data through Bayesian estimation for natural gas cross country pipelines: A case study with reference to the Indian scenario
A Raveendran, VR Renjith
Journal of Loss Prevention in the Process Industries 55, 347-358, 2018
2018
A Knowledge based early warning system for safety
B Anil, VR Renjith
2011
Individual and societal risk analysis and mapping of human vulnerability to chemical accidents in the vicinity of an industrial area
R VR, G Madhu
2010
Risk Assessment of LNG Storages using LOPA and FTA: An Integrated Approach
RV Ravindran
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Articles 1–20