Abstract
A bisphenol A production plant possesses considerable potential risks in the top of the methanol separation column, as pressurized acetone, methanol, and water are processed at an elevated temperature, especially in the event of an abnormal pressure increase due to a sudden power outage. This study assesses the potential risks in the methanol separation column through hazard and operability assessments and evaluates the damages in the case of fire and explosion accident scenarios. The study chooses three leakage scenarios: a 5-mm puncture on the methanol separation column, a 50-mm diameter fracture of a discharge pipe and a catastrophic rupture, and, simulated using Phast (Ver. 6.531), the concentration distribution of scattered methanol, thermal radiation distribution of fires, and overpressure distribution of vapor cloud explosions. Implementation of a safety-instrumented system equipped with two-out-of-three voting as a safety measure can detect overpressure at the top of the column and shut down the main control valve and the emergency shutoff valve simultaneously. By applying a safety integrity level of three, the maximal release volume of the safety relief valve can be reduced and, therefore, the design capacity of the flare stack can also be reduced. Such integration will lead to improved safety at a reduced cost.
Highlights
The chemical industry in Korea has adopted advanced technologies and systems for safety management
The power failure will lead to a total loss of coolant supply because 100% of the coolant supply pump is powered by an electrical motor
The boiler feedwater (BFW) pump is driven by a steam turbine
Summary
The chemical industry in Korea has adopted advanced technologies and systems for safety management. Most field sites have not carried out the effective safety measures because of inadequate understanding of quantitative risk assessment with the leakage scenario In this regard, this study performs the hazard and operability assessment (HAZOP) of the methanol separation process, a highly hazardous process in the bisphenol A (BPA) plant, to evaluate the risk factors [4]. This research collects and analyzes cases in Korea and outside [7,8], caused by malfunction in measurement control systems for analysis and examination of their safety measures By applying these safety measures to the methanol separation process, we expect improved productivity from decreased flare stack emission volume and minimized scope of the accident damage. This study finds that these safety improvements will lead to increased yield and reduced costs associated with the methanol separation process
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