Régions: Inuvialuit Settlement Region
étiquettes: wind energy, wind monitoring, solar energy, solar radiation
chercheur principal: | Schwarz, David (8) |
Nᵒ de permis: | 17390 |
Organisation: | Aurora Research Institute |
Année(s) de permis: |
2023
2022
|
Délivré: | nov. 09, 2023 |
Équipe de projet: | Patrick Gall |
Objectif(s): To conduct a wind and solar resource assessment monitoring campaign in the community of Paulatuk, NT.
Description du projet: This licence has been issued for the scientific research application No. 5725. To conduct a wind and solar resource assessment monitoring campaign in the community of Paulatuk, NT. Lidar has emerged as a powerful tool to remotely sense wind characteristics via measurement of the Doppler shift of light emitted by the lidar and scattered back from particles in the atmosphere such as dust, moisture and pollen. This ability to remotely measure wind characteristics allows lidars to be used where it is practically difficult or financially impractical to install metrological towers. ARI has purchased three ZX 300 Wind Lidars from NRG Systems. The ZX 300 Wind Lidar is accredited to be deployed alone for use in bankable/finance-grade wind resource assessments with no on-site metrological tower comparisons. The ZX 300 Wind Lidar collects precise data at a range of heights ideal for wind resource assessment and can used in a variety of climates and terrains. NRG Systems also designs solar resource assessment systems that suit a variety of climates, terrains, and applications. ARI is currently in the process of purchasing three NRG Systems’ SRA (Solar Resource Assessment) Systems. The SRA System is a complete and integrated measurement solution for the formal resource assessment of solar projects. The Paulatuk Wind and Solar Resource Assessment Monitoring Campaign will be broken into multiple sections as follows: 1) One of the NRG Systems’ SRA Systems will be deployed to the roof of ARI’s Western Artic Research Centre where the research team will train and become familiar with the system. Note that the team has already trained on and become familiar with the ZX 300 Wind Lidars in previous wind resource assessment monitoring campaigns. 2) One SRA System and one ZX 300 Wind Lidar will be transported to Paulatuk and installed at a pre-determined site which has access to power. 3) Measurements of a variety of meteorological parameters for wind and solar resource assessment will be taken over the course of at least one year. Once installed, regular maintenance of the systems is critical to produce meaningful resource assessment results. The data gathered by the SRA System and ZX 300 Wind Lidar will be regularly collected and analyzed for maintenance issues. 4) Once the data collection for this monitoring campaign is complete, the SRA System and ZX 300 Wind Lidar will be will be completely removed and transported back to Inuvik. Site cleanup will be thorough and in accordance with GNWT Department of Lands requirements. 5) The wind measurements will be used to estimate the future power output of a variety of wind turbines and to design potential layouts for the wind turbines. The solar measurements will be used to characterize the solar resource, estimate PV panel efficiency and inform solar PV panel design decisions, with the end goal being an accurate estimate of the site’s potential annual energy production. The communication plan is comprised of three parts: 1) Informational pamphlets and tours of the SRA System and ZX 300 Wind Lidar installation in Paulatuk will be arranged to inform the community of the monitoring campaign. These materials will be aimed at raising public awareness surrounding wind and solar monitoring equipment and their importance in the development of wind and solar energy projects. 2) The primary output will be the data collected during the campaign, which will be made available to the community and it’s partners to make vital decisions regarding future wind and solar developments. A report will also be produced which analyzes the data and characterizes the resource, and estimates the future power output of a variety of wind turbine and solar PV panel designs, with the end goal being an accurate estimate of the site’s potential annual energy production. The report will also be aimed at organizations and funding partners looking to expand wind and solar resource assessment and their application to future energy programs in the north. 3) As part of a broader initiative, the research team is working to increase the amount of video content that is being produced about its projects. As a result, the team plans to produce informational videos surrounding the work for this project. The videos will not only concentrate on the results, but also describe the process for setting up the project, managing the installations, and operating the equipment. The fieldwork for this study will be conducted from: January 01 - December 31, 2024