ICTQual AB Level 6 International Diploma in LNG (Liquefied Natural Gas) Technology

ICTQual AB Level 6 International Diploma in LNG (Liquefied Natural Gas) Technology

Step Into Global Energy Careers with ICTQual AB Certification

The ICTQual AB Level 6 International Diploma in LNG (Liquefied Natural Gas) Technology is designed for professionals and aspiring specialists who want to advance their careers in the fast-growing natural gas sector. With the global demand for LNG increasing, this international diploma in LNG technology equips learners with advanced knowledge and hands-on insights into LNG production, storage, transportation, and safety operations.

This Level 6 LNG diploma qualification is globally recognized and tailored for engineers, technicians, and managers who aim to work in LNG processing plants, LNG terminals, and international energy companies. From understanding the fundamentals of LNG operations and safety management to exploring LNG logistics and terminal operations, the course covers every critical aspect of this energy field.

What makes this program stand out is its balance of academic learning and industry application. Learners gain practical knowledge of LNG processing and storage, LNG transport and logistics, and regulatory compliance, preparing them for high-demand roles worldwide. Whether you’re seeking a professional certification in LNG technology to strengthen your career path or you’re entering the industry for the first time, this diploma provides the expertise to succeed.

By completing the ICTQual LNG Technology International Certification, you will position yourself as a competitive professional in the energy industry with opportunities in operations, project management, and global LNG infrastructure. This qualification not only enhances your technical expertise but also ensures you are fully prepared to meet international standards in the LNG sector.

Start your journey today with this advanced LNG technology diploma and take the next big step toward a rewarding career in the international natural gas industry.

Awarding Body

ICTQual AB

Study Mode

Online

Qualification Level

Level 6

Completion Time

3-Years

Study Units

36 Mandatory Units

Assessments

Assignments & Evidences Based

Qualification TitleICTQual AB Level 6 International Diploma in LNG (Liquefied Natural Gas) Technology
LevelLevel 6
Total Credits360
AssessmentPass or fail
Internally assessed and verified by centre staff
External quality assurance by ICTQual AB verifiers

To enrol in the ICTQual AB Level 6 International Diploma in LNG (Liquefied Natural Gas) Technology, applicants must meet the following entry criteria:

Minimum Age
  • Applicants must be 18 years of age or older at the time of registration.
Educational Background
  • Learners must hold a Level 5 qualification (or an equivalent diploma/advanced certificate) in engineering, petroleum, energy, or a related technical field.
  • Candidates with a strong academic foundation in science, technology, or industrial operations will be ideally suited for this LNG (Liquefied Natural Gas) engineering diploma.
Work Experience
  • While prior work experience is not mandatory for fresh learners, professionals with 2–3 years of relevant industry experience in oil, gas, or energy operations will find this program especially valuable.
  • For experienced candidates, this qualification provides a recognized pathway to career advancement in LNG processing, storage, and terminal operations.
English Language Proficiency
  • Since the course is delivered in English, learners must demonstrate good English communication skills (reading, writing, and speaking).
  • Non-native English speakers may be asked to provide evidence of proficiency (e.g., IELTS, TOEFL, or equivalent).

This qualification, the ICTQual AB Level 6 International Diploma in LNG (Liquefied Natural Gas) Technology, consists of 36 mandatory units.

Mandatory Units of ICTQual AB Level 6 International Diploma in LNG (Liquefied Natural Gas) Technology

This qualification, the ICTQual AB Level 6 International Diploma in LNG (Liquefied Natural Gas) Technology, consists of 36 mandatory units.

Year 1 – Foundation in LNG Technology

  1. Principles of Chemical and Process Engineering
  2. Introduction to Liquefied Natural Gas (LNG)
  3. Natural Gas Properties and Analysis
  4. LNG Production Processes Overview
  5. Cryogenic Principles and Applications
  6. Heat and Mass Transfer in LNG Systems
  7. Introduction to LNG Plant Equipment and Technology
  8. Process Instrumentation and Control Basics
  9. Health, Safety, and Environmental Awareness
  10. Industrial Laboratory Techniques
  11. Technical Report Writing
  12. Introduction to LNG Simulation Software

Year 2 – Intermediate LNG Technology

  1. Advanced LNG Liquefaction Processes
  2. Gas Pretreatment and Sweetening Techniques
  3. Refrigeration Cycles and Cryogenic Operations
  4. Process Control and Automation in LNG Plants
  5. Energy Management and Efficiency in LNG Operations
  6. LNG Storage and Tank Design
  7. Process Safety Management and Hazard Analysis
  8. LNG Transportation and Pipeline Technology
  9. Quality Control and Assurance in LNG Production
  10. Environmental Management and Sustainability
  11. LNG Blending and Product Optimisation
  12. Data Analysis and Technical Communication

Year 3 – Advanced LNG Technology

  1. Advanced LNG Plant Optimisation and Troubleshooting
  2. LNG Project Management and Planning
  3. Advanced Cryogenic Engineering and Heat Exchangers
  4. LNG Process Simulation and Modelling
  5. Corrosion, Maintenance, and Reliability in LNG Systems
  6. Energy Transition and Cleaner LNG Technologies
  7. Risk Assessment and Emergency Response
  8. Advanced Laboratory Techniques and Process Testing
  9. Supply Chain and Logistics in LNG Operations
  10. Capstone Project in LNG Technology
  11. Professional Development and Leadership in Energy
  12. Strategic Decision-Making in LNG Plant Management

Upon successful completion of the ICTQual AB Level 6 International Diploma in LNG (Liquefied Natural Gas) Technology, learners will be able to:

Year 1 – Foundation in LNG Technology

Principles of Chemical and Process Engineering

By the end of this unit, learners will be able to:

  • Explain the fundamental principles of chemical and process engineering relevant to LNG production systems.
  • Apply mass and energy balances to real-world LNG operations.
  • Analyze fluid flow, thermodynamics, and reaction engineering concepts in the context of natural gas processing.
  • Demonstrate understanding of unit operations critical to LNG plant technology.
  • Evaluate process design considerations for efficiency and safety in LNG engineering projects.

Introduction to Liquefied Natural Gas (LNG)

By the end of this unit, learners will be able to:

  • Define LNG (Liquefied Natural Gas) and explain its global significance in the energy sector.
  • Identify the major stages of the LNG value chain, from production to transportation.
  • Compare LNG with other fuels in terms of efficiency, cost, and sustainability.
  • Assess the role of LNG technology in meeting international energy demands.
  • Recognize industry trends, challenges, and innovations shaping the future of LNG engineering.

Natural Gas Properties and Analysis

By the end of this unit, learners will be able to:

  • Describe the physical and chemical properties of natural gas used in LNG processing.
  • Perform analytical methods for gas composition and impurity detection.
  • Evaluate the impact of gas properties on LNG liquefaction and storage.
  • Apply knowledge of gas analysis to ensure compliance with international LNG standards.
  • Use laboratory techniques to assess gas quality for LNG production optimization.

LNG Production Processes Overview

By the end of this unit, learners will be able to:

  • Outline the main stages of the LNG production process, from gas treatment to liquefaction.
  • Explain the role of pretreatment, fractionation, and refrigeration cycles in LNG operations.
  • Compare different LNG liquefaction technologies and their industrial applications.
  • Analyze key challenges in production, including efficiency, cost, and safety.
  • Relate production processes to global LNG market demands.

Cryogenic Principles and Applications

By the end of this unit, learners will be able to:

  • Explain the science of cryogenics and its application in LNG systems.
  • Apply thermodynamic principles to cryogenic cooling and liquefaction.
  • Demonstrate understanding of cryogenic materials and their safety considerations.
  • Analyze the efficiency of cryogenic equipment used in LNG plants.
  • Evaluate real-world applications of cryogenics in energy and LNG operations.

Heat and Mass Transfer in LNG Systems

By the end of this unit, learners will be able to:

  • Explain the principles of heat and mass transfer in LNG processes.
  • Apply conduction, convection, and radiation concepts to LNG plant equipment.
  • Evaluate heat exchanger performance in LNG liquefaction and storage systems.
  • Analyse mass transfer phenomena in gas absorption, distillation, and separation units.
  • Optimize heat and mass transfer for improved efficiency in LNG engineering operations.

Introduction to LNG Plant Equipment and Technology

By the end of this unit, learners will be able to:

  • Identify and describe the main equipment used in LNG plants (compressors, turbines, exchangers, pumps).
  • Explain the function and design principles of key LNG plant machinery.
  • Assess the role of instrumentation in monitoring LNG production processes.
  • Evaluate operational performance of equipment in LNG operations.
  • Demonstrate knowledge of emerging plant technologies enhancing LNG efficiency.

Process Instrumentation and Control Basics

By the end of this unit, learners will be able to:

  • Describe the role of instrumentation in monitoring LNG plant operations.
  • Explain measurement techniques for pressure, flow, temperature, and composition.
  • Apply control system fundamentals to LNG processes.
  • Analyze the importance of automation in improving LNG safety and efficiency.
  • Demonstrate the use of instrumentation in optimizing LNG production systems.

Health, Safety, and Environmental Awareness

By the end of this unit, learners will be able to:

  • Explain international health and safety standards for LNG industry operations.
  • Recognize common workplace hazards in LNG plants and apply control measures.
  • Demonstrate knowledge of personal protective equipment (PPE) for LNG operations.
  • Assess environmental impacts of LNG production and propose sustainable practices.
  • Apply safety awareness in compliance with global LNG industry regulations.

Industrial Laboratory Techniques

By the end of this unit, learners will be able to:

  • Demonstrate safe laboratory practices relevant to LNG and gas analysis.
  • Conduct experimental procedures for testing gas properties.
  • Analyse laboratory results to support LNG production quality.
  • Apply international standards in laboratory documentation and reporting.
  • Use laboratory instruments to simulate industrial LNG operations.

Technical Report Writing

By the end of this unit, learners will be able to:

  • Write clear and concise technical reports aligned with international standards.
  • Structure reports to present findings from LNG processes and laboratory tests.
  • Demonstrate effective use of visuals, graphs, and data in reports.
  • Apply academic and professional writing styles for LNG industry communication.
  • Critically evaluate reports for accuracy, clarity, and professional presentation.

Introduction to LNG Simulation Software

By the end of this unit, learners will be able to:

  • Identify commonly used LNG process simulation software.
  • Apply basic modelling skills to simulate LNG production processes.
  • Analyse process efficiency using digital tools.
  • Compare simulated results with real-world LNG operations.
  • Demonstrate practical skills in using software for process design and optimization.

Year 2 – Intermediate LNG Technology

Advanced LNG Liquefaction Processes

By the end of this unit, learners will be able to:

  • Analyse advanced liquefaction technologies and their industrial applications in LNG plants
  • Compare efficiency and performance of single mixed refrigerant, cascade, and dual mixed refrigerant processes
  • Apply advanced thermodynamic principles to LNG liquefaction cycle design
  • Evaluate cost and energy efficiency factors in modern LNG liquefaction systems
  • Recommend improvements for optimising LNG liquefaction performance in real-world scenarios

Gas Pretreatment and Sweetening Techniques

By the end of this unit, learners will be able to:

  • Explain the importance of gas pretreatment in LNG production
  • Demonstrate knowledge of amine treating, dehydration, and mercury removal processes
  • Analyse the effect of impurities on LNG plant efficiency and safety
  • Apply international standards for gas sweetening and conditioning
  • Evaluate the role of pretreatment in ensuring product quality for LNG export

Refrigeration Cycles and Cryogenic Operations

By the end of this unit, learners will be able to:

  • Describe refrigeration cycles used in LNG liquefaction
  • Apply cryogenic engineering principles to refrigeration system design
  • Evaluate the role of compressors, expanders, and heat exchangers in cryogenic operations
  • Analyse safety considerations in LNG cryogenic processes
  • Optimise refrigeration systems for improved LNG plant efficiency

Process Control and Automation in LNG Plants

By the end of this unit, learners will be able to:

  • Demonstrate knowledge of distributed control systems (DCS) and programmable logic controllers (PLC)
  • Apply process control strategies to LNG operations for stability and efficiency
  • Analyse the role of automation in improving LNG safety, reliability, and cost-effectiveness
  • Evaluate advanced control techniques for LNG plant optimisation
  • Use simulation tools to model automation in LNG processes

Energy Management and Efficiency in LNG Operations

By the end of this unit, learners will be able to:

  • Explain principles of energy management in LNG production
  • Analyse major sources of energy consumption in LNG liquefaction and storage
  • Apply energy-saving techniques to improve LNG plant performance
  • Evaluate environmental and financial benefits of energy efficiency practices
  • Develop strategies for sustainable energy management in LNG facilities

LNG Storage and Tank Design

By the end of this unit, learners will be able to:

  • Describe the design principles of cryogenic storage tanks for LNG
  • Analyse material selection for LNG storage tanks to ensure durability and safety
  • Explain insulation methods to reduce boil-off losses in LNG storage
  • Evaluate safety systems integrated into LNG storage facilities
  • Compare international design codes and standards for LNG tank construction

Process Safety Management and Hazard Analysis

By the end of this unit, learners will be able to:

  • Demonstrate knowledge of process safety frameworks for LNG plants
  • Apply hazard identification techniques such as HAZOP, HAZID, and risk assessment
  • Evaluate the importance of safety culture in LNG operations
  • Analyse case studies of LNG accidents and lessons learned
  • Recommend process safety measures to mitigate operational risks

LNG Transportation and Pipeline Technology

By the end of this unit, learners will be able to:

  • Explain LNG transportation methods including pipelines, shipping, and trucking
  • Analyse LNG carrier design and safety features
  • Evaluate the role of international regulations in LNG transportation
  • Assess operational challenges in LNG pipeline systems
  • Apply logistics strategies to optimise LNG supply chain performance

Quality Control and Assurance in LNG Production

By the end of this unit, learners will be able to:

  • Define quality assurance and control principles in LNG production
  • Apply international standards for LNG quality certification
  • Conduct laboratory and on-site testing for LNG product compliance
  • Analyse the role of quality management systems in LNG operations
  • Evaluate the importance of traceability and documentation in LNG quality control

Environmental Management and Sustainability

By the end of this unit, learners will be able to:

  • Explain environmental challenges related to LNG operations
  • Analyse LNG plant emissions and waste management practices
  • Apply sustainability strategies to LNG production and transport
  • Evaluate compliance with international environmental regulations
  • Recommend cleaner technologies for reducing LNG carbon footprint

LNG Blending and Product Optimisation

By the end of this unit, learners will be able to:

  • Explain the purpose and techniques of LNG blending
  • Analyse the impact of blending on product quality and energy content
  • Apply optimisation methods for LNG product uniformity
  • Evaluate the role of blending in meeting customer and market requirements
  • Demonstrate use of simulation tools for LNG product optimisation

Data Analysis and Technical Communication

By the end of this unit, learners will be able to:

  • Apply statistical and analytical methods to LNG process data
  • Interpret technical data for process improvement and troubleshooting
  • Demonstrate effective communication of technical findings through reports and presentations
  • Use digital tools for data visualisation in LNG projects
  • Critically evaluate data to support decision-making in LNG operations

Year 3 – Advanced LNG Technology

Advanced LNG Plant Optimisation and Troubleshooting

By the end of this unit, learners will be able to:

  • Identify operational inefficiencies in LNG plants using diagnostic tools
  • Apply advanced optimisation techniques to LNG processes
  • Troubleshoot common issues in liquefaction, storage, and transport
  • Analyse case studies of plant optimisation for best practices
  • Recommend cost-effective solutions for improving LNG plant performance

LNG Project Management and Planning

By the end of this unit, learners will be able to:

  • Apply project management principles to LNG projects
  • Demonstrate skills in scheduling, budgeting, and resource allocation
  • Evaluate risk management strategies in LNG project planning
  • Analyse stakeholder engagement in LNG project development
  • Use project management software for LNG plant planning and execution

Advanced Cryogenic Engineering and Heat Exchangers

By the end of this unit, learners will be able to:

  • Explain advanced cryogenic engineering principles in LNG applications
  • Analyse design and operation of plate-fin, spiral wound, and brazed aluminum heat exchangers
  • Apply thermodynamic and fluid flow analysis to heat exchanger performance
  • Evaluate safety and reliability issues in cryogenic heat exchangers
  • Recommend design improvements for efficient LNG heat exchange systems

LNG Process Simulation and Modelling

By the end of this unit, learners will be able to:

  • Demonstrate advanced use of LNG process simulation software
  • Develop models for liquefaction, storage, and transportation processes
  • Analyse simulated data to improve LNG process performance
  • Apply digital twin technology concepts in LNG operations
  • Evaluate the role of simulation in reducing costs and risks in LNG projects

Corrosion, Maintenance, and Reliability in LNG Systems

By the end of this unit, learners will be able to:

  • Identify types and causes of corrosion in LNG plants
  • Apply maintenance strategies to extend equipment lifespan
  • Analyse reliability-centered maintenance (RCM) techniques in LNG facilities
  • Evaluate international standards for asset integrity in LNG systems
  • Recommend preventive and corrective maintenance approaches for LNG operations

Energy Transition and Cleaner LNG Technologies

By the end of this unit, learners will be able to:

  • Explain the role of LNG in global energy transition
  • Analyse emerging technologies for reducing carbon emissions in LNG operations
  • Evaluate carbon capture, utilisation, and storage (CCUS) in LNG plants
  • Assess renewable integration opportunities with LNG infrastructure
  • Recommend sustainable strategies for advancing cleaner LNG technologies

Risk Assessment and Emergency Response

By the end of this unit, learners will be able to:

  • Apply risk assessment techniques to LNG facilities and operations
  • Analyse emergency scenarios including leaks, fires, and cryogenic hazards
  • Demonstrate knowledge of LNG emergency response systems and protocols
  • Evaluate international standards for crisis management in LNG industry
  • Recommend best practices for improving LNG safety and preparedness

Advanced Laboratory Techniques and Process Testing

By the end of this unit, learners will be able to:

  • Apply advanced laboratory methods for LNG quality testing
  • Demonstrate precision in measuring gas properties and contaminants
  • Analyse laboratory data to ensure LNG compliance with specifications
  • Evaluate accuracy and reliability of modern testing equipment
  • Conduct advanced experiments simulating LNG plant processes

Supply Chain and Logistics in LNG Operations

By the end of this unit, learners will be able to:

  • Explain the global LNG supply chain from production to end-user delivery
  • Analyse challenges in LNG shipping, storage, and distribution logistics
  • Evaluate the impact of international trade regulations on LNG operations
  • Apply logistics optimisation strategies for LNG transportation systems
  • Recommend improvements for enhancing efficiency in the LNG supply chain

Capstone Project in LNG Technology

By the end of this unit, learners will be able to:

  • Design and execute a research-based project in LNG technology
  • Apply theoretical knowledge to solve practical LNG industry problems
  • Demonstrate project management and teamwork skills in project execution
  • Present findings through professional reports and presentations
  • Critically evaluate project outcomes and recommend practical solutions

Professional Development and Leadership in Energy

By the end of this unit, learners will be able to:

  • Demonstrate leadership and communication skills for energy sector roles
  • Evaluate career pathways and opportunities in the LNG industry
  • Apply professional ethics and responsibility in LNG operations
  • Analyse the role of teamwork and collaboration in energy projects
  • Develop a personal professional growth plan for LNG career advancement

Strategic Decision-Making in LNG Plant Management

By the end of this unit, learners will be able to:

  • Apply strategic decision-making models to LNG plant operations
  • Analyse financial, technical, and environmental factors in LNG management
  • Evaluate the role of leadership in strategic LNG decision-making
  • Recommend policies for long-term competitiveness of LNG plants
  • Demonstrate critical thinking in addressing global LNG industry challenges

The ICTQual AB Level 6 International Diploma in LNG (Liquefied Natural Gas) Technology is designed for learners who want to advance their careers in the global energy and gas industry. This program is ideal for engineers, technicians, graduates, HSE professionals, managers, and supply chain specialists seeking a globally recognized LNG diploma qualification. Whether you are an experienced professional aiming for career growth or a newcomer preparing to enter the LNG sector, this course provides the knowledge, technical skills, and international recognition to succeed in one of the world’s fastest-growing energy fields.

1. Energy and Petroleum Engineers Seeking Specialisation in LNG

  • Professionals aiming to deepen their expertise in LNG production, storage, and transportation systems
  • Engineers working in the oil and gas sector who want to transition into LNG technology and operations
  • Technical specialists interested in mastering LNG liquefaction and cryogenic processes
  • Energy engineers seeking a globally recognized LNG diploma qualification
  • Individuals pursuing leadership roles in LNG project design, plant optimization, and risk management

2. Technicians and Plant Operators in LNG Facilities

  • Current LNG plant operators who want to upgrade their technical skills with a Level 6 LNG engineering diploma
  • Technicians involved in LNG equipment maintenance, plant troubleshooting, and process monitoring
  • LNG workforce members seeking internationally recognized LNG technology certification
  • Professionals responsible for LNG plant safety, instrumentation, and control systems
  • Individuals looking to advance from operational to supervisory or management positions in LNG facilities

3. Graduates and Early-Career Professionals in Energy Fields

  • Recent graduates with a Level 5 qualification in engineering, petroleum, or industrial technology
  • Young professionals interested in building a career in the international LNG sector
  • Students seeking advanced education in natural gas properties, LNG production processes, and cryogenic systems
  • Early-career employees aiming to stand out with a globally recognized LNG technology diploma
  • Aspiring LNG professionals who want to strengthen their knowledge before entering the workforce

4. Health, Safety, and Environmental (HSE) Professionals in Energy

  • Safety officers aiming to specialize in LNG plant hazard analysis and emergency response
  • HSE professionals working on risk assessment and process safety management in LNG operations
  • Individuals committed to improving environmental sustainability in LNG production and transportation
  • Professionals seeking expertise in international LNG safety standards and compliance
  • Safety consultants looking to expand their portfolio with advanced knowledge of LNG technology

5. LNG Supply Chain, Transport, and Logistics Professionals

  • Shipping and logistics managers handling LNG carrier operations and global transportation networks
  • Supply chain professionals aiming to understand the end-to-end LNG value chain
  • Port and terminal staff seeking deeper knowledge of LNG storage, tank design, and product optimization
  • Pipeline engineers and transport specialists managing LNG distribution infrastructure
  • Professionals aiming to work in global LNG trading, export, and import operations

6. Managers, Supervisors, and Strategic Decision-Makers in LNG

  • LNG plant supervisors seeking to transition into senior management and leadership roles
  • Project managers handling large-scale LNG infrastructure development projects
  • Business professionals evaluating the economic, financial, and strategic aspects of LNG operations
  • Managers interested in strategic decision-making, sustainability, and global LNG competitiveness
  • Industry leaders aiming to expand their understanding of energy transition and cleaner LNG technologies

7. International Learners and Global Energy Professionals

  • Professionals from across the world seeking a globally recognized LNG diploma qualification
  • Learners interested in international opportunities in LNG operations, projects, and energy companies
  • Individuals looking to upgrade skills in alignment with global LNG industry standards
  • Students planning to work in multinational corporations within the oil, gas, and LNG sector
  • Energy professionals committed to contributing to sustainable LNG development worldwide

As an approved centre of ICTQual AB, we provide flexible certification pathways for learners aiming to achieve the ICTQual AB Level 6 International Diploma in LNG (Liquefied Natural Gas) Technology. Depending on your background and industry experience, you can follow one of two routes to certification:

Route 1: Experienced Professionals (Recognition of Prior Learning – RPL)

  • This route is designed for industry professionals with at least 6 years of verifiable work experience in LNG, oil, gas, or related energy sectors.
  • Learners are assessed based on their prior knowledge, practical experience, and evidence of competency in LNG technology, operations, and management.
  • Candidates will submit documented proof of professional experience for verification by ICTQual AB and our centre.
  • Successful assessment will lead directly to the award of the Level 6 International Diploma in LNG Technology, recognizing their expertise with an internationally accredited qualification.
  • This route provides a fast-track pathway for professionals who want global recognition of their existing skills.

Route 2: Fresh Candidates (Academic Route)

  • This route is designed for fresh learners or graduates who may not have significant industry experience but want to build a career in the LNG sector.
  • Candidates are required to complete all 36 mandatory study units of the qualification, covering Year 1 (Foundation), Year 2 (Intermediate), and Year 3 (Advanced LNG Technology).
  • Each unit will be assessed through assignments, technical projects, and practical applications.
  • Learners must successfully complete all 36 assignments to qualify for the diploma.
  • This pathway ensures a strong academic and technical foundation for those entering the LNG industry for the first time.

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Henry
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+44 (0) 2078703422
+44 (0) 2078703422
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United Kingdom
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