Энергетический потенциал органических отходов

Татьяна [Tatyana] Ивановна [I.] Андреенко [Andreenko]; Софья [Sofiya] Валентиновна [V.] Киселева [Kiseleva]; Юлия [Yuliya] Юрьевна [Yu.] Рафикова [Rafikova]; Айнур [Ainur] Арастынбековна [A.] Тулегенова [Tulegenova]

doi:10.24160/1993-6982-2022-4-59-67

Татьяна [Tatyana] Ивановна [I.] Андреенко [Andreenko]
Софья [Sofiya] Валентиновна [V.] Киселева [Kiseleva]
Юлия [Yuliya] Юрьевна [Yu.] Рафикова [Rafikova]
Айнур [Ainur] Арастынбековна [A.] Тулегенова [Tulegenova]

DOI: https://doi.org/10.24160/1993-6982-2022-4-59-67

Keywords: organic waste, agriculture, mapping, bioenergy

Abstract

Bioenergy is the renewable energy main branch for production of heat and electricity. The possibility of its development is determined by technologies and resources; the latter should be locally available, since transportation of organic waste (primary resources) over long distances results in that the produced energy becomes non-competitive. This factor determines the relevance of assessing bioenergy resources at various scales - from individual states (for making general strategic decisions) to regions and municipalities (for substantiating energy supply schemes for particular territories or facilities). The article presents methodological approaches to assessing the resources for the development of bioenergy in the regions of Russia and resource assessment results with detailing them to the level of municipalities.

Information about authors

Татьяна [Tatyana] Ивановна [I.] Андреенко [Andreenko]

Ph.D. (Biolog.), Senior Researcher at Research Laboratory of Renewable Energy Sources of Geographical Faculty, Lomonosov Moscow State University, e-mail: tanyandr00@mail.ru

Софья [Sofiya] Валентиновна [V.] Киселева [Kiseleva]

Ph.D. (Phys.-Math.), Leading Researcher, Head of Research Laboratory of Renewable Energy Sources of Geographical Faculty, Lomonosov Moscow State University, e-mail: k_sophia_v@mail.ru

Юлия [Yuliya] Юрьевна [Yu.] Рафикова [Rafikova]

Ph.D. (Geograph.), Senior Researcher at Research Laboratory of Renewable Energy Sources of Geographical Faculty, Lomonosov Moscow State University, e-mail: ju.rafikova@gmail.com

Айнур [Ainur] Арастынбековна [A.] Тулегенова [Tulegenova]

Ph.D.-student of Research Laboratory of Renewable Energy Sources of Geographical Faculty, Lomonosov Moscow State University, e-mail: ainur18.93@list.ru

References

1. Renewables 2021. Global Status Report [Электрон. ресурс] www.ren21.net/wp-content/uploads/2019/05/GSR2021_Full_Report.pdf (дата обращения 10.02.2022).
2. Dyjakon A., García-Galindo D. Implementing Agricultural Pruning to Energy in Europe: Technical, Economic and Implementation Potentials // Energies. 2019. V. 12(8). P. 1513.
3. Панцхава Е.С. Электростанции на биотопливе (биомассе). М.: Русайнс, 2016.
4. Gundekari S., Mitra J. Classification, Characterization, and Properties of Edible and Non-edible Biomass Feedstocks // Advanced Functional Solid Catalysts for Biomass Valorization. N.-Y.: Elseiver, 2020. Pp. 89—120.
5. S2BIOM «Biomass Properties for Public» [Офиц. сайт] www.s2biom.eu/ (дата обращения 10.02.2022).
6. BioSFerA [Офиц. сайт] www.biosfera-project.eu/ (дата обращения 10.02.2022).
7. Справочник по ресурсам возобновляемых источников энергии России и местным видам топлива (показатели по территориям) / Под ред. Безруких П.П. М.: Энергия, 2007.
8. Атлас ресурсов возобновляемой энергии на территории России. М.: Изд-во РХТУ им. Д.И. Менделеева, 2015.
9. Геоинформационная система «Возобновляемые источники энергии России» [Офиц. сайт] www.gisre.ru/ (дата обращения 10.02.2022).
10. Андреенко Т.И., Киселева С.В., Рафикова Ю.Ю. Комплексный анализ распределения ресурсов биоэнергетики для территории Волгоградской области // Альтернативная энергетика и экология. 2017. № 7—9 (219—221). С. 49—59.
11. Андреенко Т.И., Киселева С.В., Рафикова Ю.Ю. Оценка энергетического потенциала отходов растениеводства Крымского федерального округа // Вестник ВИЭСХ. 2016. № 2(23). С. 85—90.
12. Andreenko T.I., Rafikova Yu.Yu., Tulegenova A. Technical Potential of Crop Production Wastes as Energy Resource for Agricultural Regions of Russia // IOP Conf. Series: Materials Sci. and Eng. 2019. No. 564. Pp. 012136–1–012135–6.
13. Europruning, Development and Implementation of a New, and Non Existent, Logistics Chain for Biomass From Pruning [Электрон. ресурс] www.cordis.europa.eu/project/id/312078/reporting/it (дата обращения 10.02.2022).
14. Up_Running, Take-off for Sustainable Supply of Woody Biomass from Agrarian Pruning and Plantation Removal [Электрон. ресурс] www.up-running.eu/ (дата обращения 10.02.2022).
15. Picchi G. e. a. Physical and Chemical Characteristics of Renewable Fuel Obtained from Pruning Residues // J. Cleaner Production. 2018. V. 171. Pp. 457—463.
16. Шомахов А.Р. Использование древесины срезанных ветвей яблони для мульчирования почвы в садах: автореф. канд. дисс. … канд. сельскохоз. наук. Нальчик: Изд-во Северо-Кавказского науч.-исслед. ин-та горного и предгорного садоводства, 2000.
17. García-Galindo D. e. a. Agricultural Pruning as Biomass Resource: Generation, Potentials and Current Fates. An Approach to Its State in Europe // Proc. 24th European Biomass Conf. and Exhibition. Amsterdam, 2016. Pp. 1579—1595.
18. Алексашкин И.В., Яшенков В.О., Поляков Е.П. Перспективы использования биотоплива в Крыму на примере виноградной лозы // Культура народов Причерноморья. 2009. № 156. С. 7—9.
19. Тулегенова А.А., Киселева С.В. Использование методов пространственного анализа для оценки потенциала производства энергии при помощи биогазовых станций // Проблемы региональной экологии. 2018. № 6. С. 73—77.
20. Sliz-Szkliniarz B., Vogt J. A GIS-based Approach for Evaluating the Potential of Biogas Production from Livestock Manure and Crops at a Regional Scale: a Case Study for the Kujawsko-Pomorskie Voivodeship // Renewable and Sustainable Energy Rev. 2012. V. 16. Pp. 752—763.
---
Для цитирования: Андреенко Т.И., Киселева С.В., Рафикова Ю.Ю., Тулегенова А.А. Энергетический потенциал органических отходов // Вестник МЭИ. 2022. № 4. С. 59—67. DOI: 10.24160/1993-6982-2022-4-59-67
#
1. Renewables 2021. Global Status Report [Elektron. Resurs] www.ren21.net/wp-content/uploads/2019/05/GSR2021_Full_Report.pdf (Data Obrashcheniya 10.02.2022).
2. Dyjakon A., García-Galindo D. Implementing Agricultural Pruning to Energy in Europe: Technical, Economic and Implementation Potentials. Energies. 2019;12(8):1513.
3. Pantskhava E.S. Elektrostantsii na Biotoplive (Biomasse). M.: Rusayns, 2016. (in Russian).
4. Gundekari S., Mitra J. Classification, Characterization, and Properties of Edible and Non-edible Biomass Feedstocks. Advanced Functional Solid Catalysts for Biomass Valorization. N.-Y.: Elseiver, 2020:89—120.
5. S2BIOM «Biomass Properties for Public» [Ofits. Sayt] www.s2biom.eu/ (Data Obrashcheniya 10.02.2022).
6. BioSFerA [Ofits. Sayt] www.biosfera-project.eu/ (Data Obrashcheniya 10.02.2022).
7. Spravochnik po Resursam Vozobnovlyaemykh Istochnikov Energii Rossii i Mestnym Vidam Topliva (Pokazateli po Territoriyam). Pod Red. Bezrukikh P.P. M.: Energiya, 2007. (in Russian).
8. Atlas Resursov Vozobnovlyaemoy Energii na Territorii Rossii. M.: Izd-vo RKHTU im. D.I. Mendeleeva, 2015. (in Russian).
9. Geoinformatsionnaya Sistema «Vozobnovlyaemye Istochniki Energii Rossii» [Ofits. Sayt] www.gisre.ru/ (Data Obrashcheniya 10.02.2022). (in Russian).
10. Andreenko T.I., Kiseleva S.V., Rafikova Yu.Yu. Kompleksnyy Analiz Raspredeleniya Resursov Bioenergetiki dlya Territorii Volgogradskoy Oblasti. Al'ternativnaya Energetika i Ekologiya. 2017;7—9 (219—221):49—59. (in Russian).
11. Andreenko T.I., Kiseleva S.V., Rafikova Yu.Yu. Otsenka Energeticheskogo Potentsiala Otkhodov Rastenievodstva Krymskogo Federal'nogo Okruga. Vestnik VIESKH. 2016;2(23):85—90. (in Russian).
12. Andreenko T.I., Rafikova Yu.Yu., Tulegenova A. Technical Potential of Crop Production Wastes as Energy Resource for Agricultural Regions of Russia. IOP Conf. Series: Materials Sci. and Eng. 2019;564:012136–1–012135–6.
13. Europruning, Development and Implementation of a New, and Non Existent, Logistics Chain for Biomass From Pruning [Elektron. Resurs] www.cordis.europa.eu/project/id/312078/reporting/it (Data Obrashcheniya 10.02.2022).
14. Up_Running, Take-off for Sustainable Supply of Woody Biomass from Agrarian Pruning and Plantation Removal [Elektron. Resurs] www.up-running.eu/ (Data Obrashcheniya 10.02.2022).
15. Picchi G. e. a. Physical and Chemical Characteristics of Renewable Fuel Obtained from Pruning Residues. J. Cleaner Production. 2018;171:457—463.
16. Shomakhov A.R. Ispol'zovanie Drevesiny Srezannykh Vetvey Yabloni dlya Mul'chirovaniya Pochvy v Sadakh: Avtoref. Kand. Diss. … Kand. Sel'skokhoz. Nauk. Nal'chik: Izd-vo Severo-Kavkazskogo Nauch.-issled. In-ta Gornogo i Predgornogo Sadovodstva, 2000. (in Russian).
17. García-Galindo D. e. a. Agricultural Pruning as Biomass Resource: Generation, Potentials and Current Fates. An Approach to Its State in Europe. Proc. 24th European Biomass Conf. and Exhibition. Amsterdam, 2016:1579—1595.
18. Aleksashkin I.V., Yashenkov V.O., Polyakov E.P. Perspektivy Ispol'zovaniya Biotopliva v Krymu na Primere Vinogradnoy Lozy. Kul'tura Narodov Prichernomor'ya. 2009;156:7—9. (in Russian).
19. Tulegenova A.A., Kiseleva S.V. Ispol'zovanie Metodov Prostranstvennogo Analiza dlya Otsenki Potentsiala Proizvodstva Energii pri Pomoshchi Biogazovykh Stantsiy. Problemy Regional'noy Ekologii. 2018;6:73—77. (in Russian).
20. Sliz-Szkliniarz B., Vogt J. A GIS-based Approach for Evaluating the Potential of Biogas Production from Livestock Manure and Crops at a Regional Scale: a Case Study for the Kujawsko-Pomorskie Voivodeship. Renewable and Sustainable Energy Rev. 2012;16:752—763.
---
For citation: Andreenko T.I., Kiseleva S.V., Rafikova Yu.Yu., Tulegenova A.A. Organic Waste Energy Potential. Bulletin of MPEI. 2022;4:59—67. (in Russian). DOI: 10.24160/1993-6982-2022-4-59-67