Влияние некоторых фармакологических препаратов на активность ферментов обмена нейропептидов при стрессе

Qurvonboyev Botirjon Isroiljon o’g’li

Chop etilgan sana:

PDF

Qurvonboyev Botirjon Isroiljon o’g’li
Namangan Muhandislik Texnologiyalari Instituti

Abstract

Suv taminoti tizimida elektr energiya menejmentini optimal reja asosida shakllantirish va ishlashini tizimlashtirish muhim masaladir. Ushbu maqolada suv taminoti tizimlarining elektr energiya istemolini kamaytirish muammosi choralari tahlil etilgan. Bu quyidagi muhim jihatlarni nazarda tutadi: Suv taminoti tizimlarining energiya samaradorligini oshirish va energiya tejamkor tizimlar algaritmini shakllantirish. Ushbu loyihalar orqali suv taqsimotidagi elektr energiya istemolini oldindan hisoblashga qaratilgan bo’lib, bundagi natijalar suv taminoti tizimida energiya samaradorligini oshirishda faol ishlatilishi uchun tizimlarni qo’llashni va energetik samarador usullar algaritmlarini qo’llashga misollar keltirilgan.

Foydalangan adabiyotlar

1. G.Grigoras. Electrical Energy Consumption Forecasting to Improve Energy Efficiency of Water Distribution Systems. chapter 20. Springer International Publishing AG 2017 N. Bizon et al. (eds.), Energy Harvesting and Energy Efficiency, Lecture Notes in Energy 37, DOI 10.1007/978-3-319-49875-1_2

2. Cartina G (2000) Artificial intelligence modelling techniques in power system control. Model Optim Mach Build Field 254–257

3. Martin Delgad A (2012) Water footprint of electric power generation: modeling its use and analyzing options for a water-scarce future. Master of Science in Technology and Policy Thesis, Massachusetts Institute of Technology

4. Farley J, Gaddis E (2007) An ecological economic assessent. In: Restoring natural capital: science, business and practice. Island Press, Washington D.C.

5. Адаптивный энергосберегающий алгоритм управления для прибора зователей частоты привода насосов системы водоснабженияюТаранов Дмитрий Михайлович. Научный журнал КубГАУ, №96(02), 2014 года УДК 621.873.01

6. Optimization of the operation of pumping systems and reservoirs of water distribution systems with emphasis in energy efficiency. Tuane Batista http://dx.doi.org/10.22201/iingen.0718378xe.2022.15.3.81282 Vol. 15, No.3, 1337-1353

7. F.Shoazizov. Accounting for the energy efficiency of the operation of pumping equipment in the monitoring system of large pumping stations of the Republic of Uzbekistan

8. G. Abidov. Characteristics and Parameters of Pumping Stations Determining Energy-Saving Modes. Tashkent State Technical University.2023

9. S.Jasvant. Enhancement of Performance Parameters of Three Phase Induction Motor by Vector Control Methods. Department of Electrical Engineering, Kamla Nehru Institute of Technology, Sultanpur, U.P., India

10. G.Palkin. Simulation Modeling of First Rise Section of Water Supply System with Installed Complex of Automatic Pump Performance Control Transbaikal State University, 672039 Chita

11. Cartina G, Grigoras G, Bobric EC (2005) Clustering techniques in fuzzy modelling, Application in power systems. Venus Publishing House, Iasi

12. X.Zhang. An Optimal Regulation Method for Parallel Water-Intake Pump Group of Drinking Water Treatment Process. College of Environment, Hohai University, Nanjing 210098, China.

13. Qiang Gao. Optimal operation models and comparison of their energy-saving effects for large pumping station system”. Nongye Gongcheng Xuebao/Transactions of the Chinese Society of Agricultural Engineering

SUV TAMINOT TIZIMIDA ELEKTR YURITMANING ENERGIYA SAMARADORLIGINI OSHIRUVCHI USULLARI

Qurvonboyev Botirjon Isroiljon o’g’li
Namangan Muhandislik Texnologiyalari Instituti

Abstract

Foydalangan adabiyotlar

1. G.Grigoras. Electrical Energy Consumption Forecasting to Improve Energy Efficiency of Water Distribution Systems. chapter 20. Springer International Publishing AG 2017 N. Bizon et al. (eds.), Energy Harvesting and Energy Efficiency, Lecture Notes in Energy 37, DOI 10.1007/978-3-319-49875-1_2

2. Cartina G (2000) Artificial intelligence modelling techniques in power system control. Model Optim Mach Build Field 254–257

3. Martin Delgad A (2012) Water footprint of electric power generation: modeling its use and analyzing options for a water-scarce future. Master of Science in Technology and Policy Thesis, Massachusetts Institute of Technology

4. Farley J, Gaddis E (2007) An ecological economic assessent. In: Restoring natural capital: science, business and practice. Island Press, Washington D.C.

6. Optimization of the operation of pumping systems and reservoirs of water distribution systems with emphasis in energy efficiency. Tuane Batista http://dx.doi.org/10.22201/iingen.0718378xe.2022.15.3.81282 Vol. 15, No.3, 1337-1353

7. F.Shoazizov. Accounting for the energy efficiency of the operation of pumping equipment in the monitoring system of large pumping stations of the Republic of Uzbekistan

8. G. Abidov. Characteristics and Parameters of Pumping Stations Determining Energy-Saving Modes. Tashkent State Technical University.2023

9. S.Jasvant. Enhancement of Performance Parameters of Three Phase Induction Motor by Vector Control Methods. Department of Electrical Engineering, Kamla Nehru Institute of Technology, Sultanpur, U.P., India

10. G.Palkin. Simulation Modeling of First Rise Section of Water Supply System with Installed Complex of Automatic Pump Performance Control Transbaikal State University, 672039 Chita

11. Cartina G, Grigoras G, Bobric EC (2005) Clustering techniques in fuzzy modelling, Application in power systems. Venus Publishing House, Iasi

12. X.Zhang. An Optimal Regulation Method for Parallel Water-Intake Pump Group of Drinking Water Treatment Process. College of Environment, Hohai University, Nanjing 210098, China.

13. Qiang Gao. Optimal operation models and comparison of their energy-saving effects for large pumping station system”. Nongye Gongcheng Xuebao/Transactions of the Chinese Society of Agricultural Engineering

14. Energy Efficiency in Motor Systems. P.Bertoldi. Proceedings of the 11th international Conference EEMODS’19

15. Energy Management and Energy Efficiency in Industry. Durmuş Kaya Fatma Çanka Kılıç Hasan Hüseyin Öztürk. Green Energy and Technology.AG 2021

16. M.Milasevich.Diagnostics and Control of Pumping Stations in Water Supply Systems: Hybrid Model for Fault Operating Modes. July 2022

Izlang

Issue

Research Focus International Scientific Journal 3 (8)

Bo'lim

05.00.00 – Technical sciences

So'ngi nashrlar

SUV TAMINOT TIZIMIDA ELEKTR YURITMANING ENERGIYA SAMARADORLIGINI OSHIRUVCHI USULLARI

Qurvonboyev Botirjon Isroiljon o’g’liNamangan Muhandislik Texnologiyalari Instituti

Abstract

Foydalangan adabiyotlar

1. G.Grigoras. Electrical Energy Consumption Forecasting to Improve Energy Efficiency of Water Distribution Systems. chapter 20. Springer International Publishing AG 2017 N. Bizon et al. (eds.), Energy Harvesting and Energy Efficiency, Lecture Notes in Energy 37, DOI 10.1007/978-3-319-49875-1_2

2. Cartina G (2000) Artificial intelligence modelling techniques in power system control. Model Optim Mach Build Field 254–257

3. Martin Delgad A (2012) Water footprint of electric power generation: modeling its use and analyzing options for a water-scarce future. Master of Science in Technology and Policy Thesis, Massachusetts Institute of Technology

4. Farley J, Gaddis E (2007) An ecological economic assessent. In: Restoring natural capital: science, business and practice. Island Press, Washington D.C.

6. Optimization of the operation of pumping systems and reservoirs of water distribution systems with emphasis in energy efficiency. Tuane Batista http://dx.doi.org/10.22201/iingen.0718378xe.2022.15.3.81282 Vol. 15, No.3, 1337-1353

7. F.Shoazizov. Accounting for the energy efficiency of the operation of pumping equipment in the monitoring system of large pumping stations of the Republic of Uzbekistan

8. G. Abidov. Characteristics and Parameters of Pumping Stations Determining Energy-Saving Modes. Tashkent State Technical University.2023

9. S.Jasvant. Enhancement of Performance Parameters of Three Phase Induction Motor by Vector Control Methods. Department of Electrical Engineering, Kamla Nehru Institute of Technology, Sultanpur, U.P., India

10. G.Palkin. Simulation Modeling of First Rise Section of Water Supply System with Installed Complex of Automatic Pump Performance Control Transbaikal State University, 672039 Chita

11. Cartina G, Grigoras G, Bobric EC (2005) Clustering techniques in fuzzy modelling, Application in power systems. Venus Publishing House, Iasi

12. X.Zhang. An Optimal Regulation Method for Parallel Water-Intake Pump Group of Drinking Water Treatment Process. College of Environment, Hohai University, Nanjing 210098, China.

13. Qiang Gao. Optimal operation models and comparison of their energy-saving effects for large pumping station system”. Nongye Gongcheng Xuebao/Transactions of the Chinese Society of Agricultural Engineering

14. Energy Efficiency in Motor Systems. P.Bertoldi. Proceedings of the 11th international Conference EEMODS’19

15. Energy Management and Energy Efficiency in Industry. Durmuş Kaya Fatma Çanka Kılıç Hasan Hüseyin Öztürk. Green Energy and Technology.AG 2021

16. M.Milasevich.Diagnostics and Control of Pumping Stations in Water Supply Systems: Hybrid Model for Fault Operating Modes. July 2022

Izlang

Issue

Research Focus International Scientific Journal 3 (8)

Bo'lim

05.00.00 – Technical sciences

So'ngi nashrlar

Qurvonboyev Botirjon Isroiljon o’g’li
Namangan Muhandislik Texnologiyalari Instituti