LAPT
London Academy of Professional Training
Master Certificate
Level 6-7
Leadership
ISO Environmental Sustainability
ISO 14064-2 — GHG Quantification for Projects
REF: ENV-CCH-14064-2
Who Is It For
This certification is intended for environmental managers, sustainability leaders, and project managers involved in climate change initiatives. Candidates should possess significant experience in environmental management and a strong understanding of greenhouse gas accounting, making this certification essential for those looking to lead projects focused on sustainability.
Prerequisites
None
Awarding Body: LAPT — London Academy of Professional Training
Curriculum Overview
1
Case Studies in GHG Quantification
Understanding GHG Quantification Principles in Project Contexts
6 classes
1.1 Define GHG Quantification Principles in a Project Context
1.2 Identify Key Components of GHG Quantification Frameworks
1.3 Explore Methodologies for GHG Emission Calculations
1.4 Analyze Case Studies on GHG Quantification Applications
1.5 Evaluate Challenges in GHG Quantification for Projects
1.6 Develop a GHG Quantification Plan for a Sample Project
Frameworks and Standards for GHG Quantification
6 classes
2.1 Identify Key Frameworks for GHG Quantification
2.2 Analyze ISO Standards Relevant to GHG Management
2.3 Compare International GHG Protocols and ISO Standards
2.4 Explore the Role of Third-Party Verification in GHG Projects
2.5 Evaluate Case Studies of Successful GHG Quantification Initiatives
2.6 Develop a GHG Quantification Plan Based on Established Frameworks
Methodologies for GHG Emission Calculations
6 classes
3.1 Identify Key Methodologies for GHG Emission Calculations
3.2 Analyze Factors Influencing GHG Emission Quantification
3.3 Compare Different GHG Calculation Approaches
3.4 Apply GHG Emission Reduction Methodologies to Case Studies
3.5 Evaluate the Effectiveness of Selected Calculation Methodologies
3.6 Create a GHG Quantification Plan Using Chosen Methodologies
Case Studies: Successful GHG Projects and Lessons Learned
6 classes
4.1 Analyze Successful GHG Projects: Key Characteristics
4.2 Identify Quantification Methods Used in Case Studies
4.3 Evaluate Challenges Faced in GHG Quantification
4.4 Extract Lessons Learned from Project Implementations
4.5 Design a GHG Quantification Framework Based on Case Studies
4.6 Present and Discuss Findings: Learning from Successful Projects
Evaluating GHG Reduction Strategies in Project Implementation
6 classes
5.1 Analyze GHG Reduction Strategies in Project Context
5.2 Compare Quantification Methods for GHG Reductions
5.3 Assess Stakeholder Impact on GHG Reduction Outcomes
5.4 Evaluate Cost-Effectiveness of GHG Reduction Approaches
5.5 Interpret Case Studies on Successful GHG Strategies
5.6 Develop Recommendations for Enhanced GHG Reduction Implementation
2
Strategic Leadership in Sustainability
Understanding ISO 14064-2: Framework and Principles
6 classes
1.1 Explore the Importance of GHG Quantification in Projects
1.2 Identify the Key Components of ISO 14064-2 Framework
1.3 Analyze the Principles of GHG Accounting and Reporting
1.4 Evaluate the Role of Stakeholders in GHG Mitigation Projects
1.5 Develop a GHG Quantification Plan Using ISO 14064-2 Guidelines
1.6 Implement Monitoring and Reporting Practices for GHG Projects
Identifying and Managing GHG Emissions Sources
6 classes
2.1 Define GHG Emissions Sources in Project Context
2.2 Analyze the Impact of Different GHG Emissions Types
2.3 Identify GHG Emissions Sources in a Sample Project
2.4 Assess the Significance of GHG Emissions Sources
2.5 Develop a GHG Mitigation Strategy for Identified Sources
2.6 Evaluate the Effectiveness of GHG Management Practices
Data Collection and Quantification Methodologies
6 classes
3.1 Identify Key Data Sources for GHG Quantification
3.2 Establish Data Collection Protocols for Sustainability Projects
3.3 Analyze Data Quality and Relevance for Accurate Measurement
3.4 Implement Quantification Methodologies for Emission Reduction Strategies
3.5 Utilize Software Tools for GHG Data Analysis and Reporting
3.6 Evaluate and Improve Data Collection Practices Based on Findings
Implementing GHG Mitigation Strategies
6 classes
4.1 Identify Key GHG Mitigation Opportunities in Projects
4.2 Analyze Current GHG Emission Baselines for Effective Targeting
4.3 Develop Actionable GHG Mitigation Strategies for Project Implementation
4.4 Engage Stakeholders for Successful GHG Mitigation Strategy Adoption
4.5 Monitor and Measure the Effectiveness of GHG Mitigation Efforts
4.6 Report and Communicate GHG Mitigation Outcomes to Stakeholders
Reporting and Verification: Ensuring Credibility and Transparency
6 classes
5.1 Understand the Importance of GHG Reporting in Sustainability Leadership
5.2 Identify Key Components of Effective GHG Quantification
5.3 Explore Verification Processes for Enhanced Credibility in Reporting
5.4 Analyze Best Practices in GHG Reporting and Verification
5.5 Develop a Framework for Transparent GHG Reporting in Projects
5.6 Implement Strategies for Continuous Improvement in GHG Verification
3
Project Impact Evaluation
Understanding GHG Emissions: Fundamentals and Classifications
6 classes
1.1 Define GHG Emissions and Their Relevance to Climate Change
1.2 Identify Different Types of Greenhouse Gases and Their Sources
1.3 Explore the Global Warming Potential (GWP) of Various GHGs
1.4 Classify GHG Emissions: Direct vs. Indirect Sources
1.5 Analyze the Impact of GHG Emissions on Project Evaluation
1.6 Apply GHG Classification to a Real-World Project Scenario
ISO 14064-2 Framework: Standards and Methodologies
6 classes
2.1 Understand the ISO 14064-2 Framework Overview
2.2 Identify Key Terms and Definitions in GHG Quantification
2.3 Explore Methodological Approaches for GHG Accounting
2.4 Analyze Project Boundary Determination Techniques
2.5 Evaluate Data Collection and Management Strategies
2.6 Implement Monitoring and Reporting Practices for GHG Projects
Project Impact Assessment: Identifying and Measuring Emission Sources
6 classes
3.1 Define Key Concepts in GHG Emission Sources
3.2 Identify Common Emission Sources in Projects
3.3 Analyze Project Activities for GHG Emissions
3.4 Measure GHG Emissions Using Standardized Methods
3.5 Assess the Impact of GHG Emission Reduction Strategies
3.6 Develop a GHG Quantification Plan for Your Project
Data Collection and Management for GHG Quantification
6 classes
4.1 Identify Key Data Sources for GHG Projects
4.2 Collecting Primary Data: Techniques and Best Practices
4.3 Understanding Secondary Data and Its Application in GHG Quantification
4.4 Develop a Data Management Plan for GHG Projects
4.5 Ensure Data Quality: Validation and Verification Processes
4.6 Analyze and Report Collected Data for GHG Assessments
Reporting and Communicating GHG Results: Strategies for Transparency
6 classes
5.1 Analyze Key GHG Reporting Requirements and Standards
5.2 Identify Stakeholders and Tailor Communication Strategies
5.3 Develop Transparent GHG Data Presentation Techniques
5.4 Utilize Effective Visual Aids for GHG Reporting
5.5 Create a GHG Communication Plan for Stakeholder Engagement
5.6 Evaluate Feedback Mechanisms for Continuous Improvement in Reporting
4
Data Collection Techniques
Fundamentals of GHG Inventories and Data Collection
6 classes
1.1 Understand GHG Inventories and Their Importance
1.2 Identify Key Components of GHG Data Collection
1.3 Explore Methods for Accurate Data Gathering
1.4 Evaluate Data Sources for GHG Inventories
1.5 Implement GHG Data Quality Assurance Techniques
1.6 Analyze and Report GHG Data Effectively
Identifying Data Sources and Methodologies
6 classes
2.1 Identify Relevant Data Sources for GHG Quantification
2.2 Analyze Methodologies for Data Collection in GHG Projects
2.3 Evaluate the Reliability of Different Data Sources
2.4 Compare Qualitative and Quantitative Data Collection Techniques
2.5 Assess the Impact of Data Quality on GHG Reporting
2.6 Implement Data Collection Strategies for Effective Project Assessment
Quantitative Data Collection Techniques
6 classes
3.1 Identify Key Quantitative Data Types for GHG Projects
3.2 Explore Techniques for Designing Quantitative Surveys
3.3 Implement Statistical Sampling Methods for Data Collection
3.4 Utilize Technology for Efficient Data Capture
3.5 Analyze Collected Quantitative Data for Accuracy and Relevance
3.6 Present Quantitative Data Findings to Stakeholders Effectively
Qualitative Data Collection Techniques and Stakeholder Engagement
6 classes
4.1 Understand Qualitative Data Collection Techniques
4.2 Identify Key Stakeholders in GHG Projects
4.3 Design Effective Qualitative Surveys for Stakeholder Engagement
4.4 Conduct Effective Interviews with Stakeholders
4.5 Analyze Qualitative Data to Inform GHG Quantification
4.6 Develop a Stakeholder Engagement Plan for GHG Projects
Validating Data and Ensuring Accuracy and Integrity
6 classes
5.1 Understand the Importance of Data Validation in GHG Projects
5.2 Identify Common Sources of Data Errors in GHG Reporting
5.3 Explore Techniques for Data Quality Assessment
5.4 Implement Procedures for Data Verification and Review
5.5 Analyze Case Studies of Data Integrity Failures
5.6 Develop Best Practices for Ensuring Accurate Data Collection
5
ISO 14064-2 Standards Application
Understanding ISO 14064-2: Framework and Principles
6 classes
1.1 Define the Scope of ISO 14064-2 Standards
1.2 Identify Key Principles of GHG Quantification
1.3 Explore the Structure of the ISO 14064-2 Framework
1.4 Analyze the Importance of GHG Accounting in Projects
1.5 Examine the Role of Continuous Monitoring in GHG Management
1.6 Apply ISO 14064-2 Principles to a Sample Project Scenario
Defining Project Boundaries for GHG Accounting
6 classes
2.1 Understand the Importance of Project Boundaries in GHG Accounting
2.2 Identify Key Components of Project Boundaries as per ISO 14064-2
2.3 Analyze Methods for Defining Project Boundaries in GHG Projects
2.4 Evaluate Different Types of Project Boundaries: Organizational vs. Operational
2.5 Apply the Project Boundary Framework to Real-World Scenarios
2.6 Review and Validate Project Boundaries for Compliance with ISO Standards
Data Collection and Management for GHG Quantification
6 classes
3.1 Identify Key Data Sources for GHG Quantification
3.2 Collect Reliable Baseline Data for Projects
3.3 Implement Data Management Systems for GHG Tracking
3.4 Develop Data Quality Assurance Procedures
3.5 Analyze Data to Calculate GHG Emissions
3.6 Report Findings and Ensure Compliance with ISO 14064-2
Selecting GHG Quantification Methods and Tools
6 classes
4.1 Identify Key GHG Quantification Principles
4.2 Assess Different GHG Quantification Methods
4.3 Compare Tools for GHG Data Collection
4.4 Evaluate Accuracy and Completeness of GHG Estimates
4.5 Select Appropriate GHG Quantification Tools for Projects
4.6 Integrate GHG Quantification into Project Implementation
Verification and Reporting of GHG Emissions in Projects
6 classes
5.1 Understand the Importance of GHG Verification in Project Accountability
5.2 Identify Key Components of ISO 14064-2 Verification Principles
5.3 Analyze Methods for Quantifying GHG Emissions in Projects
5.4 Explore Reporting Requirements for GHG Emissions under ISO 14064-2
5.5 Develop a GHG Emissions Verification Plan for Project Implementation
5.6 Assess the Impact of Verification Findings on Project Sustainability Goals
6
GHG Quantification Fundamentals
Understanding Greenhouse Gases and Their Impact
6 classes
1.1 Define Greenhouse Gases and Their Types
1.2 Explore the Sources of Greenhouse Gas Emissions
1.3 Analyze the Greenhouse Effect and Its Environmental Impacts
1.4 Discuss the Role of GHGs in Climate Change
1.5 Investigate Global Efforts to Mitigate GHG Emissions
1.6 Apply GHG Quantification Concepts to Real-World Scenarios
Fundamentals of GHG Quantification Methodologies
6 classes
2.1 Define and Describe GHG Quantification Principles
2.2 Identify Key GHG Sources and Sinks in Projects
2.3 Explore Various GHG Quantification Methodologies
2.4 Analyze the Benefits of Accurate GHG Measurement
2.5 Implement GHG Data Collection Techniques
2.6 Evaluate GHG Reduction Strategies Through Quantification
Project-Based Approaches to GHG Accounting
6 classes
3.1 Define Project-Based Approaches for GHG Accounting
3.2 Identify Key Principles of GHG Quantification in Projects
3.3 Analyze Different Types of GHG Emission Sources in Projects
3.4 Evaluate Project Boundaries for Accurate GHG Reporting
3.5 Apply GHG Quantification Techniques to Sample Projects
3.6 Develop a GHG Accounting Framework for Project Implementation
Data Collection and Management for GHG Quantification
6 classes
4.1 Identify Key Data Requirements for GHG Projects
4.2 Assess Sources of Emission Data for Accuracy
4.3 Design Effective Data Collection Methods for GHG Quantification
4.4 Implement Data Management Practices for GHG Reporting
4.5 Analyze Data Integrity and Address Potential Gaps
4.6 Apply Data Collection Standards to Real-World GHG Projects
Verification and Reporting of GHG Emissions
6 classes
5.1 Understand the Importance of GHG Verification
5.2 Identify Key Elements of GHG Reporting Standards
5.3 Explore Common GHG Verification Processes
5.4 Analyze the Role of Third-Party Verifiers in GHG Reporting
5.5 Examine Case Studies of Successful GHG Verification
5.6 Develop a GHG Reporting Framework for Projects
Assessment Breakdown
50%
Theory
35%
Practical
15%
Project
Passing Mark: 325 / 500 (65%)
Methods: Written Examination, Practical Assignment, Portfolio Assessment
How to Enrol
Website: lapt.org
Email: info@lapt.org
Phone: +44 7513 283044
Address: 85 Great Portland Street, W1W 7LT, United Kingdom
Hours: Monday – Friday, 9AM – 5PM