Client Overview: HSE Risk Management Services (HSE-RMS) was engaged to provide scribing support for the Safety Integrity Level (SIL) Study of the Acid Gas Removal Unit (AGRU) at Kuwait Gulf Oil Company (KGOC). The objective was to ensure systematic, accurate, and standards-compliant documentation of all HAZOP proceedings, including deviations, risks, and recommendations to enhance process safety and operability.

Process Technology Overview: The AGRU is designed to remove acid gases (primarily H₂S and CO₂) from feed gas using an amine absorption-regeneration system. The unit consists of multiple interconnected sections:

• Feed Gas Handling & Absorption Section
• Rich Amine Handling Section
• Wash Water System
• Lean Amine Circulation System
• Regeneration Section
• Storage & Utility Systems

SIL Concept Overview: A SIL Assessment Study is a structured evaluation process used to:

• Identify potential hazardous events
• Define Safety Instrumented Functions (SIFs)
• Determine the required level of risk reduction

The SIL study aimed to evaluate hazardous scenarios and determine the required Safety Integrity Levels (SILs) for Safety Instrumented Functions (SIFs), ensuring adequate risk reduction and compliance with safety requirements.

The SIL represents the reliability required from a Safety Instrumented System (SIS) to mitigate identified risks.

SIL determination is based on:

1. Likelihood of hazardous event occurrence (without SIF)
2. Severity of consequences:
1. Personnel Safety (S)
2. Environmental Impact (E)
3. Asset/Economic Loss (P)
4. Reputation Impact (R)

Objectives of SIL Study

• Establish study basis and applicable standards
• Identify all Safety Instrumented Functions (SIFs)
• Define causes, consequences, and IPLs
• Evaluate Probability of Failure on Demand (PFD)
• Determine Risk Reduction Factor (RRF) and SIL levels
• Record recommendations and action items

SIL Study Methodology: The study was conducted using Layer of Protection Analysis (LOPA) methodology, aligned with:

1. KOC Recommended Practice for SIF (KOC-I-017)
2. International standards: IEC 61508 and IEC 61511

Each scenario was analyzed considering:

• Initiating events
• Enabling conditions
• Existing Independent Protection Layers (IPLs)
• Risk ranking and tolerability criteria

Conclusion: The SIL scribing support provided by HSE-RMS ensured precise, structured, and standards-compliant documentation of the AGRU SIL study at KGOC. This enabled effective risk assessment, reliable SIL determination, and contributed significantly to strengthening the overall safety integrity of the facility.