ISSN 2594-5327
76º Congresso Anual da ABM - Internacional — vol. 76, num.76 (2023)
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Abstract
Operators of equipment critical to plant operations commonly require Fitness-For-Service (FFS) assessments to determine necessary measures for continued operation. This paper presents the work performed on by Hatch on several melt shop cranes which supports operations at Gerdau’s integrated steel plant at Ouro Branco in Minas Gerais State, Brazil. Some of these cranes have shown signs of structural damage including cracking and local deformations to girders and trolley structures. Hatch was requested to perform a structural FFS assessment of some of the critical cranes which included two primary Hot Metal Charging cranes, a BOF slag crane and a Scrap Metal Charging crane. Root Cause Analysis (RCA) and subsequent FFS assessments were performed, which included fatigue assessments to aid in the identification of cracking mechanisms for the observed damages to the crane structure. This work led to the development of a range of practical options for mitigation and monitoring tailored to address the observed damages. These options included short-term local repairs and monitoring strategies that could be completed with minimum interruptions to overall production. This work also proposed possible long-term repairs, reinforcements, and local platework replacements to extend the operational life until a replacement crane is procured and installed. To date, many of the interventions have been successfully implemented, allowing for reliable continued operation of these cranes, resulting major benefits to the melt shop facility.
Operators of equipment critical to plant operations commonly require Fitness-For-Service (FFS) assessments to determine necessary measures for continued operation. This paper presents the work performed on by Hatch on several melt shop cranes which supports operations at Gerdau’s integrated steel plant at Ouro Branco in Minas Gerais State, Brazil. Some of these cranes have shown signs of structural damage including cracking and local deformations to girders and trolley structures. Hatch was requested to perform a structural FFS assessment of some of the critical cranes which included two primary Hot Metal Charging cranes, a BOF slag crane and a Scrap Metal Charging crane. Root Cause Analysis (RCA) and subsequent FFS assessments were performed, which included fatigue assessments to aid in the identification of cracking mechanisms for the observed damages to the crane structure. This work led to the development of a range of practical options for mitigation and monitoring tailored to address the observed damages. These options included short-term local repairs and monitoring strategies that could be completed with minimum interruptions to overall production. This work also proposed possible long-term repairs, reinforcements, and local platework replacements to extend the operational life until a replacement crane is procured and installed. To date, many of the interventions have been successfully implemented, allowing for reliable continued operation of these cranes, resulting major benefits to the melt shop facility.
Keywords
Overhead Crane; Fitness-for-Service; Life Extension; Root Cause Analysis (RCA); Finite Element Analy
Overhead Crane; Fitness-for-Service; Life Extension; Root Cause Analysis (RCA); Finite Element Analy
How to refer
Ross, Michael;
Long, Christopher;
Cruz, Ivan;
Braun, Kirsten;
Maleki, Majid;
Maccrimmon, Robert a;
Ghorbani, Hamid.
CAMPAIGN LIFE ASSESSMENT AND EXTENSION OF MELT SHOP CRANES
,
p. 1-14.
In: 76º Congresso Anual da ABM - Internacional,
São Paulo,
2023.
ISSN: 2594-5327
, DOI 10.5151/2594-5327-39890