OSHAA 30-Hours Professional Diploma in Quality Assurance / Quality Control (QA/QC) and Piping Engineering

OSHAA 30-Hours Professional Diploma in Quality Assurance / Quality Control (QA/QC) and Piping Engineering

The OSHAA 30-Hours Professional Diploma in Quality Assurance / Quality Control (QA/QC) and Piping Engineering is a specialized training program designed to provide comprehensive knowledge of quality management systems and piping engineering fundamentals used in industrial projects. Learners gain a structured understanding of how QA/QC processes ensure project reliability, operational safety, and adherence to technical codes. The curriculum combines theoretical principles with practical industry insights to strengthen technical competence.

This diploma emphasizes core areas such as piping components, isometric drawings, welding inspection basics, quality documentation, and non-destructive testing concepts. Participants learn how to interpret technical drawings, monitor fabrication activities, and maintain compliance with approved project specifications. The course highlights the importance of systematic inspection, reporting accuracy, and coordination between engineering and quality departments. By understanding piping systems and quality control frameworks, learners develop the ability to evaluate workmanship and support efficient project execution in complex industrial environments.

The OSHAA 30-Hours Professional Diploma in Quality Assurance / Quality Control (QA/QC) and Piping Engineering also promotes professionalism, analytical thinking, and technical responsibility. It prepares individuals to maintain high-quality standards while ensuring safety and regulatory compliance in piping projects. Through structured modules and applied learning, participants enhance their technical knowledge and build confidence in inspection and engineering support roles. This training strengthens the practical understanding required to contribute effectively to industrial quality assurance and piping engineering operations.

Course Overview

Awarding Body

OSHAA

Duration

30-Hours 

Study Mood

Online

Assessment

Assignments Based

Course Study Units

  1. Fundamentals of QA/QC in Piping Engineering (2 Hours)
  2. Piping Materials, Components, and Manufacturing Processes (3 Hours)
  3. Welding Technology and Procedure Qualification (4 Hours)
  4. International Codes and Standards: ASME, API, ISO (6 Hours)
  5. Non-Destructive Testing (NDT): Methods and Applications (4 Hours)
  6. Interpretation of Piping Isometrics and Layout Drawings (3 Hours)
  7. Inspection and Test Plans (ITPs) in QA/QC Projects (3 Hours)
  8. Identification and Evaluation of Piping Defects (2 Hours)
  9. Quality Documentation: WPS, PQR, NDT Reports, and Records (3 Hours)

Entry Requirements

  • Minimum age: Minimum age of 18 years.
  • Educational background: A basic educational background is recommended, preferably in technical or engineering-related subjects.
  • Language proficiency: Proficiency in English language for reading, writing, and communication.
  • Work experience: Prior experience in piping, fabrication, construction, or quality control is beneficial but not mandatory.

Who Can Enroll

The OSHAA 30-Hours Professional Diploma in Quality Assurance / Quality Control (QA/QC) and Piping Engineering is ideal for individuals aiming to build technical expertise in industrial quality and engineering operations.

  • Engineering or technical graduates pursuing industrial careers
  • QA/QC professionals seeking structured piping knowledge
  • Piping and fabrication staff wanting inspection expertise
  • Construction supervisors handling quality compliance
  • Technicians interested in piping system fundamentals
  • Individuals motivated to ensure safety and quality standards

Course Learning Outcomes

Fundamentals of QA/QC in Piping Engineering (2 Hours)

• Understand the core principles and objectives of quality assurance and quality control
• Recognise the importance of QA/QC in piping-related industries
• Identify the roles and responsibilities of QA/QC professionals in project execution

Piping Materials, Components, and Manufacturing Processes (3 Hours)

• Identify common piping materials and their mechanical properties
• Understand the selection criteria for pipes, fittings, flanges, and valves
• Describe various manufacturing and fabrication processes used in piping systems

Welding Technology and Procedure Qualification (4 Hours)

• Explain different welding techniques applicable to piping systems
• Understand welding procedure specifications (WPS) and procedure qualification records (PQR)
• Identify welding symbols and interpret basic weld inspection results

International Codes and Standards: ASME, API, ISO (6 Hours)

• Interpret key international piping standards and codes
• Understand how ASME, API, and ISO standards apply to QA/QC practices
• Apply relevant codes to assess compliance during inspection and testing processes

Non-Destructive Testing (NDT): Methods and Applications (4 Hours)

• Identify various NDT techniques including VT, PT, MT, UT, and RT
• Understand the principles and applications of each NDT method
• Recognise how NDT supports piping system integrity and quality assurance

Interpretation of Piping Isometrics and Layout Drawings (3 Hours)

• Read and interpret piping isometric drawings and layout plans
• Extract essential inspection and verification information from drawings
• Validate piping installation against approved design specifications

Inspection and Test Plans (ITPs) in QA/QC Projects (3 Hours)

• Understand the structure and purpose of ITPs in piping projects
• Develop basic ITPs for piping fabrication and installation activities
• Monitor and document inspection stages in accordance with ITP requirements

Identification and Evaluation of Piping Defects (2 Hours)

• Identify common fabrication and welding defects in piping systems
• Understand causes, risks, and implications of piping defects
• Apply inspection findings to recommend corrective actions

Quality Documentation and Reporting in QA/QC

• Understand the role of WPS, PQR, and NDT reports in quality control
• Maintain accurate and traceable quality records
• Support audits and inspections through proper documentation practicesT Reports, and Records (3 Hours)
• Understand the purpose and contents of essential QA/QC documents
• Accurately review and interpret WPS, PQR, and NDT reports
• Maintain proper documentation and compliance records for audit and verification purposes

Frequently Asked Questions (FAQs)

QA/QC ensures that piping systems are designed, fabricated, and installed according to approved standards and specifications. Proper quality control reduces risks, prevents failures, and enhances long-term project reliability.

Yes, the course introduces basic interpretation of piping drawings and isometric diagrams. This helps learners understand system layouts and inspection checkpoints within projects.

Learners develop skills in inspection procedures, defect identification, quality documentation, and compliance monitoring. The training enhances both technical understanding and professional confidence in industrial environments.

Yes, proper documentation and reporting procedures are key components of the training. Learners understand how accurate records support compliance, audits, and overall project quality management.

Compliance ensures that all work meets approved standards, codes, and project specifications. Following QA/QC procedures reduces risks, improves safety, and enhances long-term system reliability.

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