๐ŸญCDM AMS-I.A.: Electricity Generation by the User

Table of Contents

Introduction to AMS-I.A.

Need and Use for AMS-I.A.

Objective and Scope of AMS-I.A.

Methodology Overview

Typical Projects

Available Roles

Key Documents and Schemas

Tools Referenced

Token (Carbon Emission Reduction)

Workflow

Step-by-Step

Introduction to AMS-I.A.

AMS-I.A., under the Clean Development Mechanism (CDM) of the United Nations Framework Convention on Climate Change (UNFCCC), is a small-scale methodology titled "Electricity generation by the user." It is designed to facilitate renewable electricity generation by individual households/users or groups of households/users, focusing primarily on sectoral scope 01.

This methodology is crucial for projects that aim to displace more GHG-intensive, non-renewable electricity applications by introducing renewable energy technologies such as solar photovoltaic, hydro, wind, and renewable biomass that supply electricity to individual households/users or groups of households/users.

Need and Use for AMS-I.A.

The need for AMS-I.A. arises from the imperative to mitigate the environmental impacts of electricity generation using non-renewable, GHG-intensive electricity applications. The methodology is crucial for projects aiming to produce electricity using renewable energy technologies, thereby mitigating GHG emissions and contributing to environmental sustainability.

AMS-I.A. is essential for projects that involve renewable electricity generation by individual households/users or groups of households/users, promoting the utilization of clean and sustainable energy sources and reducing reliance on non-renewable, GHG-intensive electricity applications. The methodology enables projects to displace more GHG-intensive, non-renewable electricity applications, contributing to the reduction of greenhouse gas emissions and the mitigation of climate change impacts. By promoting renewable electricity generation by the user, AMS-I.A. contributes to enhancing energy security and reducing dependence on non-renewable electricity applications, fostering resilience and sustainability in energy systems.

Objective and Scope of AMS-I.A.

The primary objective of AMS-I.A. is to provide a structured and standardized approach for small-scale renewable electricity generation projects by the user. It aims to facilitate the displacement of GHG-intensive, non-renewable electricity applications by enabling the production of electricity using various renewable energy technologies.

The scope of this methodology includes renewable electricity generation units like solar photovoltaic, hydro, wind, and renewable biomass that supply electricity to individual households/users or groups of households/users. It is applicable to various situations, including new installations (greenfield) or replacements of existing onsite fossil-fuel-fired generation, ensuring versatility and adaptability to different project needs and conditions.

Methodology Overview

AMS-I.A. is comprehensive and versatile, covering various renewable energy technologies and applicable to different types of project activities. It mandates stringent criteria to ensure genuine emissions reductions and the displacement of GHG-intensive, non-renewable electricity applications. The methodology provides clear guidelines and conditions for the applicability based on project types, ensuring clarity and precision in its implementation.

Typical Projects

Typical projects under AMS-I.A. involve renewable electricity generation by individual households/users or groups of households/users. These projects are pivotal in displacing more GHG-intensive, non-renewable electricity applications, contributing significantly to the reduction of greenhouse gas emissions and the promotion of environmental sustainability. They can range from new installations of renewable electricity generation units to replacements of existing onsite fossil-fuel-fired generation, allowing for a broad spectrum of applications in different contexts and conditions.

Available Roles

Project Participant - The project participant is responsible for executing the emission reduction project. The project participant must adhere to the requirements outlined by the CDM and provide evidence of the emission reductions achieved. Upon successful verification, the project participant receives certified emission reduction (CER) tokens as an incentive for their emission reductions.

Verification and Validation Body (VVB) - The VVB plays a critical role in independently verifying and validating the project data submitted by the project participant. They thoroughly assess the project's emission reduction potential, methodologies, and adherence to the policy guidelines. Based on their evaluation, the VVB either approves or rejects the project for registration.

Registry (UNFCCC) - The United Nations Framework Convention on Climate Change (UNFCCC) serves as the registry for the CDM. They oversee the multiple workflow steps involved in the project's approval, including the verification and validation process by the VVB and the endorsement by the DNA. The UNFCCC's approval is necessary for the project's successful registration and issuance of CER tokens.

Key Documents and Schemas

  1. Project Descriptionโ€ฏ- Project Participant information, standard project information, methodology information like baseline emissions, project emissions, etc.

  2. Emissions Reductionโ€ฏโ€“ Schema included within the project information form; this is filled out by the project participant to calculate annual emission reductions.

  3. Monitoring Reportโ€ฏโ€“ The monitoring report is to be filled out based on the monitoring plan mentioned within the methodology.

Tools Referenced

  • Methodological Tool 05โ€ฏโ€“ Baseline, project and/or leakage emissions from electricity consumption and monitoring of electricity generation.

  • Methodological Tool 16 โ€“ Project emissions from cultivation of biomass.

  • Methodological Tool 33 โ€“ Default values for common parameters.

Token (Carbon Emission Reduction)

Certified Emission Reduction (CER) credits, each equivalent to one tonne of CO2.

Workflow

Step-by-Step

  1. Log in as the Standard Registry and import the policy either by file or through IPFS timestamp by selecting the third button at the top right.

  1. Once the policy has successfully imported, you will be redirected to the policy configurator. The policy configurator can be used to edit the policy using the workflow blocks. There will also be a tab for the โ€œToolsโ€ used within this policy as illustrated in the image below. To start using the policy you must first change the status of the policy from โ€œDraftโ€ to โ€œDry Runโ€ or โ€œPublishโ€, then select the โ€œRegisterโ€ or โ€œGoโ€ button. This can be done through the policy configurator page or though the โ€œPoliciesโ€ page.

  1. Create a new user by clicking the โ€œCreate Userโ€ button and assign their role as โ€œProject Participantโ€.

  1. The Project Participant can now provide their name or the name they would like to see reflected when registering for this project (i.e. their organizationโ€™s name).

  1. ะกreate a new user again and assign their role as โ€œVVBโ€.

  2. The VVB can now provide their name or the name they would like users to see when reviewing projects (i.e. their organizationโ€™s name).

  1. Log in as the SR and select the โ€œProject Participantsโ€ or the โ€œVVBsโ€ tab to view the documents submitted by the Project Participant and by the VVB. The SR can approve their requests by clicking on the โ€œApprove" button.

  1. Log in as the Project Participant and create a new project by clicking on the "New Project" button. This form is used to collect information about the project, organization, and all the data needed to run the emission reduction calculations. Once all the required fields have been filled the โ€œCreateโ€ button will turn dark blue. By selecting the โ€œCreateโ€ button all the data will be sent to the SR for review/approval.

  1. Log back in as the SR and after reviewing the document located in the โ€œProjectsโ€ tab, the SR can validate the project submitted by the Project Participant by clicking the โ€œValidateโ€ button. If the data does not satisfy the rules set by the SR, then the โ€œRejectโ€ button can be used.

  1. Log in as the Project Participant and create a monitoring report by clicking on the โ€œAdd Reportโ€ button then fill out the monitoring report form.

  1. After creating the monitoring report, the project participant assigns the VVB to verify it by navigating to the โ€œMonitoring Reportsโ€ tab and selecting the dropdown under โ€œAssignโ€.

  1. Log in as the VVB and click the โ€œMonitoring Reportsโ€ tab to review the document submitted by the Project Participant. After reviewing the monitoring report by selecting โ€œView Documentโ€, the VVB can select โ€œVerifyโ€.

  1. Log in as the SR to review the monitoring report by selecting the โ€œView Documentโ€ button in the โ€œMonitoring Reportsโ€ tab. The SR can approve the monitoring report by selecting โ€œApproveโ€. This will also trigger the minting process. You can see the minting status under โ€œStatusโ€ change from โ€œMintingโ€ to โ€œMintedโ€.

  1. Once the minting process is completed, you can view the token amount by navigating to the โ€œVPsโ€ tab.

  1. The TrustChain can also be viewed by clicking on the โ€œView TrustChainโ€ button. Please note that the token transfer may show โ€œ5960/19905โ€ when the tokens are still transferring like the example provided below.

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