The article discusses the experience of using the methodology the hydroecological
monitoring technique to obtain the results of the analysis of the ecological conditions of
hydraulic structures in Uzbekistan.
- The examples of the methodology for creating digital maps for information support, for the
study of the technical parameters of hydropower and irrigation facilities at the level of the
Amudarya and Syrdarya river basins;
- Improved trash-holding devices necessary to protect the pumps of hydraulic structures from
getting litter and floating objects into them (plastic requires special attention) that can interfere
with the normal operation of the units, eliminated during preliminary water treatment;
- The results of hydroecological monitoring using geographic information systems, digital maps
are shown, which allow for the design, repair and repair of hydraulic structures to take into
account terrain, hydrography and other factors.
The obtained methodology allows a more realistic assessment of the hydroecological
situation, taking into account their influence on hydraulic structures. The methodology of
hydroecological monitoring will provide people with information in search of actions to develop
Civil and environmental engineering
133
environmentally acceptable modes of operation of hydraulic structures in Uzbekistan. Water
management organizations can use this system to plan work and predict the environmental
situation at all water objects in the Aral Sea basin. This system can be considered as a scientific
tool for a decision support system for decision makers.
Key words: geoinformation technologies and ecology, hydraulic structures, waste disposal
devices, pumps, hydroecological and hydraulic monitoring.
Maqolada O'zbekiston gidravlik tuzilmalarining ekologik jihatlarini tahlil qilish uchun
gidro-ekologik monitoring metodologiyasidan foydalanish tajribasi bayon etilgan.
- Amudaryo va Sirdaryo havzalari darajasida gidroenergetika va sug’orish inshootlarining
tehnik parametrlarini o'rganish uchun ahborot bilan ta'minlash uchun raqamli haritalarni
yaratish metodologiyasining namunalari;
- Gidrotehnik inshootlarning nasoslarini ahlat va suzuvchi buyumlarning ichiga kirishidan
(plastik alohida e'tibor talab qiladi) himoya qilish uchun zarur bo'lgan takomillashtirilgan ahlat
tashuvchi qurilmalar, suvni dastlabki tozalash jarayonida yo'q qilingan, jihozlarning normal
ishlashiga xalaqit beradigan;
- Gidro- ekologik monitoring uchun geografik ahborot tizimlari, raqamli xaritalar qo'llanilib,
ular gidrotehnik inshoatlarni loyihalash va tamirlash uchun topografiya, gidrografiya va boshqa
omillarni hisobga oladi.
Ushbu metodologiyaning natijalari gidroekologik vaziyatni ularning gidrotehnik inshootlarga
ta'sirini hisobga olgan holda yanada aniqroq baholashga imkon beradi. Gidroekologik
monitoring metodologiyasi odamlarga O'zbekistonda gidrotehnik inshootlarni ishlashning
ekologik maqbul usullarini ishlab chiqish bo'yicha harakatlarni qidirishda ma'lumot beradi. Suv
ho'jaligi tashkilotlari ushbu tizimdan Orol dengizi havzasidagi barcha suv havzalarida ish
rejasini tuzish va ekologik vaziyatni aniqlash uchun foydalanishi mumkin. Ushbu tizim qaror
qabul qiluvchilar uchun qarorlarni qo'llab-quvvatlash tizimining ilmiy vositasi sifatida ko'rib
chiqilishi mumkin.
The article discusses the experience of using the methodology the hydroecological
monitoring technique to obtain the results of the analysis of the ecological conditions of
hydraulic structures in Uzbekistan.
- The examples of the methodology for creating digital maps for information support, for the
study of the technical parameters of hydropower and irrigation facilities at the level of the
Amudarya and Syrdarya river basins;
- Improved trash-holding devices necessary to protect the pumps of hydraulic structures from
getting litter and floating objects into them (plastic requires special attention) that can interfere
with the normal operation of the units, eliminated during preliminary water treatment;
- The results of hydroecological monitoring using geographic information systems, digital maps
are shown, which allow for the design, repair and repair of hydraulic structures to take into
account terrain, hydrography and other factors.
The obtained methodology allows a more realistic assessment of the hydroecological
situation, taking into account their influence on hydraulic structures. The methodology of
hydroecological monitoring will provide people with information in search of actions to develop
Civil and environmental engineering
133
environmentally acceptable modes of operation of hydraulic structures in Uzbekistan. Water
management organizations can use this system to plan work and predict the environmental
situation at all water objects in the Aral Sea basin. This system can be considered as a scientific
tool for a decision support system for decision makers.
Key words: geoinformation technologies and ecology, hydraulic structures, waste disposal
devices, pumps, hydroecological and hydraulic monitoring.
В статье рассматривается опыт использования методики проведения
гидроэкологического мониторинга для получения результатов анализа экологических
состояний гидротехнических сооружений Узбекистана.
- Приведены примеры методики по созданию цифровых карт для информационной
поддержки, для исследования технических параметров гидроэнергетических и
ирригационных сооружений на уровне бассейна рек Амударья и Сырдарья;
- Приведены усовершенствованные сороудерживающие устройства, необходимые для
предохранения насосов гидротехнических сооружений от попадания в них сора и
плавающих предметов(особого внимания требует пластик), способных нарушить
нормальную эксплуатацию агрегатов, устраняемых при предварительной очистке воды;
- Показаны результаты гидроэкологического мониторинга с использованием
геоинформационных систем, цифровых карт, позволяющие при проектировании и
ремонте гидротехнических сооружений учесть рельеф, гидрографию и другие факторы.
Полученная методика позволяют более реально оценить гидроэкологическую ситуацию
с учетом их влияния на гидротехнические сооружения. Методика гидроэкологического
мониторинга будет предоставлять людям информацию в поисках действий по
разработке экологически приемлемых режимов эксплуатации гидротехнических
сооружений Узбекистана. Водохозяйственные организации могут использовать эту
систему для планирования работ и прогнозирования экологической ситуации на всех
водных объектах в бассейне Аральского моря. Эта система может рассматриваться
как научный инструмент для системы поддержки принятия решений ответственными
для этого направления экономики лицами.
№ | Muallifning F.I.Sh. | Lavozimi | Tashkilot nomi |
---|---|---|---|
1 | Di D.E. | student | TDTU |
2 | Nasrulin A.B. | dotsent | TDTU |
№ | Havola nomi |
---|---|
1 | Mavlonov A.A., Abdullaev B.D. Water resources of Uzbekistan and their use: current status and prospects // Water resources of Central Asia and their use materials International Scientific-Practical Conference devoted to the summing-up of the "Water for Life" decade declared by the United Nations Almaty, Kazakhtan, September 22–24, 2016 Volume 1. pp. 348-351 2. Environmental review: Textbook for students. higher textbook. institutions // under the editorship of Pitulko V.M. - M.: Publishing Center "Academia", 2006 3. Shmandiy V. M., Klimenko N. A., Golik Yu. S. Еnvironmental safety: textbook. – Xerson.: Oldі-plyusz 2013. p.364 4. Environmental Assessment and Environmental Expertise // Cherp O.M., Vinnichenko V.N., Xotuleva M.V., Molchanova Ya.P., Dayman S.Yu. – M.: Socio-Ecological Union, 2001. p. 312 5. Maksimenko Yu.L. Environmental Impact Assessment: Manuals for Practitioners aktikov// Yu.L. Maksimenko, I.D. Gorkina. – M.: REFIA, 1996. 6. Guidelines for the preparation of environmental support for investment projects. - M .: Center for the preparation and implementation of international technical assistance projects, 2001 7. Vasilev S.A. Ecological Expertise and Environmental Impact Assessment: A Training Manual // S.A. Vasilev, S.A. Fomin. – M.: Izd-vo MNEPU, 2003 Civil and environmental engineering 140 8. Chub V.Ye. Climate change and its impact on the hydrometeorological process, agroclimatic and water resources of the Republic of Uzbekistan // Center of Hydrometeorological Service under the Cabinet of Ministers of the Republic of Uzbekistan (Uzgidromet), Tashkent: «Voris- Nashriyot», 2007, p. 134 9. Chembarisov E.I., Lesnik T.Yu., Nasrulin A.B., Shodiev S.R. Water quality of some transboundary rivers of Uzbekistan: control, monitoring, current status // Water resources of Central Asia and their use materials International Scientific-Practical Conference devoted to the summing-up of the "Water for Life" decade declared by the United Nations Almaty, Kazakhtan, September 22–24, 2016 Volume 1. pp. 145-150 10. Chembarisov E.I., Nasrulin A.B., Lesnik T.Yu., Xojamuratova R.T. Genesis, formation and regime of surface waters of Uzbekistan and their influence on salinization and pollution of agrolandscapes (on the example of the Amu Darya river basin) // Nukus: ed. «QARAQALPAQSTAN», 2016. p.188. 11. Pcholkin V.I. Safety of buildings and constructions in a zone of hydrodynamical failures on hydraulic engineering constructions J. Techn. of Civ. safety VNII GOCHS 2, 4 pp.66-69. (2004) 12. Shangareev S Engineering protection of hydraulic engineering constructions J. Civ. Prot. 5 pp. 25-26. (2003) 13. Imanaliev T.K., Karlxanov O.K., Tajieva T.Ch. Complex modernization of hydrotechnical structures // Collection of articles of the international scientific-practical conference "Improving the efficiency, reliability and safety of hydrotechnical structures" TOM I. Tashkent. 2018 pp. 108-113 14. Nikiforovskaya V.S. Numerical modeling of the formation of water and thermal regimes in river and lake-river systems under the influence of water management measures // Water resources of Central Asia and their use materials International Scientific-Practical Conference devoted to the summing-up of the "Water for Life" decade declared by the United Nations Almaty, Kazakhtan, September 22–24, 2016 Volume 1 pp. 133-140 15. Doronkina L.N. A comprehensive approach to the design, construction and safe operation of hydrotechnical structures // Collection of articles of the international scientificpractical conference "Improving the efficiency, reliability and safety of hydrotechnical structures" TOM II Tashkent 2018 pp. 588-89 16. Internet source of satellite images, terrain and terrain maps https://www.google.com/earth/ 17. Abdullaev Z.S., Mirzaev S.S Information technologies in land management // Collection of articles of the international scientific-practical conference “Improving the efficiency, reliability and safety of hydrotechnical structures“ TOM II Tashkent 2018 pp. 188-190 18. Strukov D.R. The project of medical-ecological environmental monitoring systems based on www.gisa.ru 19. Shenberger I.V. Fundamentals of creating geospatial information systems for extreme hydrological phenomena // Water resources of Central Asia and their use materials International Scientific-Practical Conference devoted to the summing-up of the "Water for Life" decade declared by the United Nations Almaty, Kazakhtan, September 22–24, 2016 Volume 1. pp. 194-199 20. ArcGIS Resources, http://www.resources.arcgis.com 21. Dyachenko N.V. Ispolzovanie GIS-texnologiy URL: http://homepage.buryatia.ru/rmeic/gis.htm 22. Nefedova L.V. The structure of databases on small hydropower in the framework of the development of GIS // "Renewable Energy Sources of Russia" Proceedings of the 6th Int. n / t conf. "Energy Supply and Energy Saving in Agriculture." Part 4. M.: GNU VIESX, 2008. Civil and environmental engineering 141 23. Spivak L.F., Muratova N.R., Vitkovskaya I.S., Batrbaeva M.J., Alibaev K.U., Moldajanov S.G. The result of space monitoring of reservoir systems on the tributaries of the River Ile in China // Water resources of Central Asia and their use materials International Scientific-Practical Conference devoted to the summing-up of the "Water for Life" decade declared by the United Nations Almaty, Kazakhtan, September 22–24, 2016 Volume 1 pp. 424-432 24. Pendjiev A.M. Geoinformation technology for the use of return waters of the Altn Asr Lake in Turkmenistan // Alternative Energy and Ecology – ISJAEE. 2014. № 13. pp. 129-150. 25. Pendzhiev A. M., Gurbanov Je. H. The basics of the geographic information system in the development of small hydropower Turkmenistan / A. M. Pendzhiev, Je. H. Gurbanov // Nauka. Mysl'. - № 3. 2015 26. Muxammadiev M.M, Nasrulin A.B., Raximov S. M., Djuraev K.S. “GIS-technologies for improving the operating modes of hydrotechnical facilities” // International scientificpractical conference “Innovation-2017” Collection of scientific articles, Tashkent State Technical University, Tashkent: ed. Navruz 2017. pp. 142-143. 27. Muxammadiev M.M., Nasrulin A.B. The use of hydro-ecological methods of monitoring for the analysis of hydropower and irrigation structures of Uzbekistan // «Ekologiya i stroitelstvo» Rossiya: 2017. № 3. pp. 10-16. 28. Nasrulin A.B., Muxammadiev M.M. Theoretical foundations of hydroecological monitoring of hydrotechnical facilities for the introduction of new innovative approaches: GIS technologies, remote sensing, water and energy saving technologies // International Scientific and Practical Conference “Water for Sustainable Development of Central Asia”, March 23-24, 2018, Dushanbe. Republic of Tajikistan: Publ. «PROMEKSPO», 2018. pp. 388-393 29. Muxammadiev M.M. Nasrulin A.B. On the study of the negative impact of the Environmental aspects of water reservoirs on hydrotechnical structures // Republican Scientific and Practical Conference "Actual Problems of Physics and Ecology" September 21-22, 2018 - Termez, 2018. pp. 196-197. 30. Muhammadiev M. Nasrulin A. Environmental issues expertise of small hydropower plants using information technologies / “Uzbekhydroenergy” Uzbekistan: 2019 № 3 (3) pp. 37-38. 31. Hydroelectric power stations. Tutorial. Brzgalov V.I., Gordon L.A. 2002 541 P. |