Faculty Publications
Permanent URI for this communityhttps://idr.nitk.ac.in/handle/123456789/18736
Publications by NITK Faculty
Browse
4 results
Search Results
Item Failure Analysis of Cooling Tower Fan-Arm(Springer, 2020) Padasale, B.; Kumar, J.K.R.; Sondar, P.R.; Cadambi, S.; Hegde, S.R.This work presents failure investigation of cooling tower fan-arms commissioned in a chemical processing plant. The analysis aims at understanding the mechanism and root-cause of the failure. The investigation involves site visits, microstructural analysis, fracture surface analysis, hardness measurements, numerical stress analysis and experimental simulation. Work concludes that the fan-arms failed due to the lack of post-weld heat treatment, which caused localized stress-corrosion and pitting at critical locations that served as crack initiation sites. Fatigue loading condition and presence of residual stresses at the weld enabled easy propagation of cracks that led to recurring premature failure. Based on the root-cause and the mechanism identified in this analysis, proper pre-heating and post-weld heat treatment is recommended to relieve the residual stresses at the critical locations and thus to avoid/minimize such recurring failures in future. © 2020, ASM International.Item Premature failure of superheater tubes in a fertilizer plant(Elsevier Ltd, 2021) Dsilva, P.C.; Bhat, S.; Banappanavar, J.; Kodancha, K.G.; Hegde, S.R.This work presents an unique premature failure of steam superheater tubes in a fertilizer plant. The heat exchanger tube bundle made of SA 213 grade T11 steel suffered from wall thinning in the vicinity of baffles causing reduction in wall thickness of the tubes leading to perforation and leakage of steam from the tube-side into the shell-side during service. The work presents details of metallurgical failure analysis involving: site inspection, visual inspection, chemical analysis, X-Ray diffraction, microstructural analysis, and computational fluid dynamics analysis. The qualitative and quantitative chemical analyses and X-Ray diffraction carried out on superheater residue followed by microstructural analysis of failed tubes confirmed that the tubes suffered from aggressive corrosion attack at certain locations due to hot flue gas carrying alkaline salts and refractory fines. To understand the mechanism of thinning and the reasons for the tube bundle failure only at certain locations, a detailed CFD analysis was carried out on model of the heat exchanger which simulated the flow pattern of the hot gas. The analysis comprehensively demonstrates that the hot gas carrying both corrosive and erosive species caused erosion-corrosion of the tubes in the vicinity of tube-baffle junction that lead to wall thinning and subsequent failure of the tube bundle. Suitable remedial measures are suggested to minimize such failures in future. © 2020 Elsevier LtdItem Catastrophic failure of urea prill-tower fan(Elsevier Ltd, 2021) Hegde, S.R.; Rakshan Kumar, J.K.; Sondar, P.R.; Dsilva, P.C.This work presents failure investigation of a prill-tower fan that was in service for about 20 years in a urea plant. All the fan-blades and the plummer blocks fractured catastrophically during the plant-operation, shocked the plant personnel, and caused a huge shutdown loss. Standard failure analysis procedure involving: site visit, visual inspection, microstructural analysis, fracture analysis, analytical stress calculation and FEM analysis was followed. The investigation confirms that the fan-blades having numerous dents and nicks were operating in a mild corrosive atmosphere of ammonium hydroxide. The fracture analysis suggests that a pre-existing dent on the trailing edge of a blade corroded to form a pre-crack that aligned perpendicular to the long axis of the blade. When the pre-crack grew to a critical size, a small chunk of the blade fractured from the vicinity and ejected towards the blade-tip by centrifugal force. Because of confined space around the fan and limited blade-tip clearance, this triggered a chain reaction of blade fracture and rattled the entire array of fan-blades. The analysis establishes that the plummer blocks failed due to mechanical imbalance of the fan-shaft caused by the blade failure. The investigation concludes that presence of dents and nicks on the fan-blades is the root-cause for this catastrophic failure. Grinding-off of the surface defects to eliminate stress raisers is recommended for averting such a failure in future. © 2020 Elsevier LtdItem Failure Analysis of Reciprocating CO2 Compressor(Springer, 2021) Dsilva, P.C.; Shetty, P.; Sondar, P.R.; Ganesh Kumar, B.; Hegde, S.R.This work presents failure analysis of a heavy-duty, four-stage, double-action, reciprocating CO2 compressor, which resulted in the shutdown of an ammonia plant. The failure occurred in the fourth stage of the compressor, during which the piston rod, piston rings, a suction valve, and associated valve cage are found fractured. The failure analysis includes details of site visit, visual inspection, dye penetrant test, fractography, and microstructural analysis. Furthermore, Xanthoproteic test was conducted on the extracts of the failed piston rings that confirmed the presence of bacterial cellular protein. When the morphology of the failed piston ring was studied using a scanning electron microscope, unique degradation features and the presence of bacterial metabolic products were observed conforming to the growth of bacteria. In-service biodegradation of the piston ring material (polyether ether ketone composite) is adjudged as the root cause for the compressor failure. © 2021, ASM International.