ВЫБРОСЫ ПАРНИКОВЫХ ГАЗОВ В ТЕЧЕНИЕ ЖИЗНЕННОГО ЦИКЛА НАЗЕМНЫХ ВЭС
- Authors: Y.1
-
Affiliations:
- Санкт-Петербургский политехнический университет Петра Великого
- Issue: No 5 (2022)
- Pages: 57-67
- Section: Articles
- URL: https://journals.eco-vector.com/0233-3619/article/view/628251
- DOI: https://doi.org/10.7868/S023336192205007X
- ID: 628251
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References
- Сидоренко Г.И., Михеев П.Ю. Оценка экологической эффективности жизненных циклов энергетических объектов на основе ВИЭ // Экология и промышленность России. 2017. № 5.
- International Organization for Standardization. Environmental management – Life cycle assessment – Requirements and guidelines. – Switzerland: International Standard Organization. 2006. ISO 14044:2006.
- International Organization for Standardization. Environmental management – Life cycle assessment – Principles and framework – Switzerland: International Standard Organization. 2006. ISO 14040:2006.
- International Organization for Standardization. ISO 14067 Greenhouse gases – Carbon footprint of products – Requirements and guidelines for quantification. Switzerland: International Standard Organization. 2018. ISO 14067:2018.
- Mikheev P.Yu, Sidorenko G., Okorokov R.V., Timoveeva A. Determination of Energy Costs of Wind Farms at All Life Cycle Stages // Advances in Intelligent Systems and Computing. 2020. Т. 982.
- Garrett P., Ronde K. Life cycle assessment of electricity production from an onshore // Vestas Wind Systems A/S. 2017–2019.
- Carrascal S. Life cycle assessment of 1 Kwh energy generated by Gamesa G114–2.0 MW onshore wind farm // Gamesa Corporación Tecnológica. 2014.
- Muro Pereg J., Fernandez de la Hoz J. Life cycle assessment of 1 kWh generated by a wind farm Gamesa G90–2.0 MW onshore // Gamesa Corporación Tecnológica. 2015.
- Сидоренко Г.И., Михеев П.Ю. К вопросу об эффективности энергообъектов на основе ВИЭ // Энергия: экономика, техника, экология. 2018. № 2.
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