Erneuerbare Energie für Indien
Die Windkraftanlage steht in Chitradurga im indischen Bundesstaat Karnataka. Die Ausgangslage für die Realisierung des AENOR Projektes „4.2 MW Wind Power Project by Ghodawat Industries India at VaniVilaSagar, Chitradurga District, Karnataka, India“ war die Folgende: Im indischen Bundesstaat Karnataka herrschte ein dauerhaftes Defizit an elektrischer Energie. Zudem basiert die Elektrizitätsversorgung auf den fossilen Energieträgern Kohle und Gas, die in hohem Maße CO2 verursachen. Wäre das Defizit in der Stromversorgung beispielsweise durch den Bau eines Kohlekraftwerks geschlossen, so wären erhebliche Mengen an CO2 emittiert worden. Durch den Bau des Windparks werden diese Emissionen vermieden, da es sich bei Windenergie um einen erneuerbaren Energieträger handelt.
Außerdem wird damit die Nachfrage nach fossilen Energieträgern reduziert und die Angebotslücke in der nationalen Stromversorgung geschlossen, denn die erzeugte Energie wird in das nationale Stromnetz eingespeist.
As the name suggests, wind turbines use the power of the wind to generate energy. During this process, a generator located inside the wind turbine converts kinetic energy into electrical energy. As energy is still mainly generated from fossil fuels in many areas around the world, clean wind energy can replace some of this fossil, high-emission energy and verifiably save CO2 emissions.
In most cases, the sustainably generated electricity from the wind power projects is fed into a regional power grid, which diversifies the power supply and improves energy security in regions that are frequently affected by power shortages and outages. A project often creates increased job opportunities for the local population and the area can be used for additional activities, such as agriculture. Wind power projects make an important contribution to a clean energy supply worldwide and contribute to sustainable development with respect to the UN Sustainable Development Goals (SDGs). Wind energy projects in the ClimatePartner portfolio are registered with international standards.
TypeReduction
LocationIndia, Vani Vilas Sagar
StandardVCS
TechnologyWind energy
Registry ID1069
Verified byApplus+ LGAI Technological Center, S.A
Estimated annual emission reductions11,692 t CO₂
Four criteria for projects to meet quality thresholds
The life cycle of a climate project
A climate project has a set life cycle consisting of various phases, from the feasibility assessment to the retirement of Verified Emission Reductions (VERs).The project developer reviews the general feasibility of the project, the project design, and the financing. Then, the Project Design Document (PDD) is prepared, which contains all the basic information about the project, such as the objective, location, timeline, and duration.
In this phase, independent auditors examine the PDD and the information it contains. This phase often also involves field visits with on-side interviews and analyses. Auditors are accredited, impartial assessors who have to be approved by the relevant standard as a validation and verification body (VVB). TÜV Nord/Süd, S&A Carbon LLC., and SCS Global Services are examples of VVBs."
Once validated, the project can be registered with a standard such as the Verified Carbon Standard or the Gold Standard. All high-quality climate projects are based on international standards. They provide the framework for project design, construction, carbon accounting, and monitoring. Recognised standards make the climate project system and the projects themselves resilient, traceable, and credible.
After the climate project has been registered, the monitoring begins. Here, the project developers monitor and document the data of the project activities and progress. The duration of the monitoring phase varies from project to project: it can cover two years, but documentation over five or seven years is also possible.
At the end of each monitoring phase, a VVB checks and assesses whether the values and project activities stated in the monitoring report are correct. As with validation, visits to the project site are often part of the verification process.
Once verified, the emission reductions that were confirmed in the verification phase can be issued as VERs. The steps of monitoring, verification, and issuance of VERs are repeated regularly and are therefore considered as a cycle.
Once a VER has been used, it must be retired. This process is also reflected in the registry. If the financing of a climate project is done through ClimatePartner, the VERs are bundled in a system certified by TÜV Austria and then retired on a regular basis. This ensures that each VER can no longer be sold and is only used once, preventing double counting.
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