Your search keyword '"POWER DISTRIBUTION"' showing total 12 results

1. Local power flow control

Author

L. M. Chetochnikova, N. I. Smolentsev, N. V. Tomskich, D. A. Gimgina, and D. A. Lavrentieva

Subjects

local electrical network, distributed generation, energy flow control, power distribution, Production of electric energy or power. Powerplants. Central stations, TK1001-1841

Abstract

Show the prospects for the development of local electric networks with distributed generation. Recent changes in the electric power industry are forcing the revision of the requirements for both infrastructure and power facilities. Show that the connection of distributed generators and consumers of electrical energy to the network is fraught with certain difficulties. Solving the problem of high-quality and uninterrupted power supply to consumers requires a new approach associated with the use of modern Smart Grid technologies, equally related to energy and information technology. It is noted that for the implementation of such a large-scale task, the "road map" "Energynet" of the National Technology Initiative was developed, among the main directions of which are the digitalization of the infrastructure of distribution networks and the deep decentralization of electricity production. Consider, in accordance with the identified areas, the segments of the smart energy market, which include: reliable and flexible distribution grids, smart distributed energy and consumer services. Propose a solution to the problem using the example of a local low voltage microgrid with distributed generation. METHODS. The solution to the problem is proposed on the basis of creating a simulation model, with the help of which it is possible to perform a number of tests and obtain the optimal network mode within a given error area. implement various options for the structure of the microgrid, the number and type of generators, the load level. The structural diagram of the local network is proposed. RESULTS. The article describes the process of managing power flows between producers (local distributed sources) and consumers of electricity. This process is carried out through a single control center, which receives information about the state of the micro-grid objects - the level of electricity generation by generators and the level of the current load of consumers. Based on the results of information processing in the control center, a decision is made on the redistribution of power between objects. A scheme describing the dynamic process of power transfer for efficient resource management in the power distribution network is proposed. CONCLUSION. The considered power management algorithm is a simple implementation of classical load balancing, and at the same time allows for optimal energy distribution within a given error. Optimal, in this case, will be the state of the system, in which all distributed renewable energy sources are used in full to meet the needs of the local micro-network, while reducing to a minimum the consumption from the network. At the same time, it is also necessary to introduce corrections for the unevenness and instability of electricity generation by renewable energy sources.

Published

2024

2. VVER-1000 reactor model using the Serpent 2 code for core power distribution calculation

Author

V. V. Ilkovych

Subjects

vver-1000, monte carlo method, power distribution, serpent 2, x2 benchmark., Atomic physics. Constitution and properties of matter, QC170-197

Abstract

A VVER-1000 reactor model using the Monte Carlo Serpent 2 code for core power distribution calculation is presented. The core and zones located near to the core were modeled in detail, without simplification. The assembly power distribution and axial power profiles were calculated for fresh core of the X2 VVER-1000 benchmark, namely the core of the KhNPP2 first loading for the hot zero power. The results were compared with the data obtained by specialists from Helmholtz-Zentrum Dresden-Rossendorf.

Published

2023

3. ABOUT PRODUCTION-TRANSPORT PROBLEM REDUCTION TO THE TWO-LEVEL PROBLEM OF DISCRETE OPTIMIZATION AND ITS APPLICATION

Author

E. Ivokhin, V. Navrodskiy, and D. Apanasenko

Subjects

power distribution, production and transport task, discrete-continuous programming, two-level model, optimization., Economics as a science, HB71-74

Abstract

In this study, the application of the production and transport task is considered to solve the problem of the distribution of the limited capacities of data transmission channels between different nodes of the computer network. A scheme is proposed for reducing the problem to a two-level continuous-discrete optimization problem. The model is formulated and numerical results are obtained to solve the problem of power distribution in the network of the information and computing center.

Published

2018

4. Constant support of physical calculations subsystem of in-core monitoring system 'Voyage'

Author

V. V. Galchenko, A. A. Mishin, and I. I. Shlapak

Subjects

in-core monitoring system, HELIOS, VVER-1000, cross-section, power distribution, computer codes., Atomic physics. Constitution and properties of matter, QC170-197

Abstract

In this study a brief description of the polynomial interpolation of few-group constants on sparse grids for VVER-1000 reactor is adduced. The calculations about various burnup instances were made for the method. Besides, comparative analysis of the irregularity factor of kv и kq calculation was made with the help of the preparation of constants by using this method while arranging by different software products.

Published

2018

5. КОНСТАНТНОЕ ОБЕСПЕЧЕНИЕ ПОДСИСТЕМЫ ФИЗИЧЕСКИХ РАСЧЕТОВ СВРК-М «ВОЯЖ»

Author

Гальченко, В. В., Мишин, А. А., and Шлапак, И. И.

Abstract

In this study a brief description of the polynomial interpolation of few-group constants on sparse grids for VVER- 1000 reactor is adduced. The calculations about various burnup instances were made for the method. Besides, comparative analysis of the irregularity factor of kv и kq calculation was made with the help of the preparation of constants by using this method while arranging by different software products. [ABSTRACT FROM AUTHOR]

Published

2018

6. ЧИСЛЕННО-ПОЛЕВОЙ АНАЛИЗ СИЛОВЫХ И ЭНЕРГЕТИЧЕСКИХ ПРОЦЕССОВ В ТУРБОГЕНЕРАТОРЕ ПРИ НЕСИММЕТРИИ НАГРУЗКИ

Author

Милых, В. И. and Потоцкий, Д. В.

Abstract

Copyright of Technical Electrodynamics / Tekhnichna Elektrodynamika is the property of National Academy of Sciences of Ukraine, Institute of Electrodynamics and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2017

7. Power distribution during parallel operation of the DGA

Subjects

Программирования языки, parallel operation, Питон (Python), Дизель-генераторы, power distribution, распределение мощности, параллельная работа

Abstract

Данная работа посвящена разработке уникального алгоритма распределения мощности в системе, состоящей из агрегатов, Ð²ÐºÐ»ÑŽÑ‡ÐµÐ½Ð½Ñ‹Ñ Ð½Ð° параллельную работу. Задачи, которые решались в Ñ Ð¾Ð´Ðµ исследования: 1. Выявление недостатков в работе ÑÑƒÑ‰ÐµÑÑ‚Ð²ÑƒÑŽÑ‰Ð¸Ñ ÑÐ¸ÑÑ‚ÐµÐ¼. 2. Разработка критериев распределения мощности для создания алгоритма. 3. Разработка уникального алгоритма распределения мощности, оптимизирующего работу систем ДГА. 4. Тестирование программы на Ñ€Ð°Ð·Ð»Ð¸Ñ‡Ð½Ñ‹Ñ ÑÐ¸ÑÑ‚ÐµÐ¼Ð°Ñ . Работа была проведена с использованием ÑÐ¾Ð²Ñ€ÐµÐ¼ÐµÐ½Ð½Ñ‹Ñ Ñ‚ÐµÑ Ð½Ð¾Ð»Ð¾Ð³Ð¸Ñ‡ÐµÑÐºÐ¸Ñ Ð¸Ð½ÑÑ‚Ñ€ÑƒÐ¼ÐµÐ½Ñ‚Ð¾Ð², а именно – языка программирования Python. Был проведен анализ ÑÑƒÑ‰ÐµÑÑ‚Ð²ÑƒÑŽÑ‰Ð¸Ñ ÑÐ¸ÑÑ‚ÐµÐ¼ параллельной работы ДГА, выявлены критерии улучшения показателей Ð¸Ñ Ñ€Ð°Ð±Ð¾Ñ‚Ñ‹, на основе ÐºÐ¾Ñ‚Ð¾Ñ€Ñ‹Ñ Ð±Ñ‹Ð» разработан алгоритм распределения мощности. Результат проведенной работы (разработанный алгоритм) может быть успешно применен в Ñ€Ð°Ð·Ð»Ð¸Ñ‡Ð½Ñ‹Ñ Ð¿Ñ€Ð¾Ð¼Ñ‹ÑˆÐ»ÐµÐ½Ð½Ñ‹Ñ ÑÐ¸ÑÑ‚ÐµÐ¼Ð°Ñ Ð¸ запущен практически на Ð»ÑŽÐ±Ñ‹Ñ ÑƒÑÑ‚Ñ€Ð¾Ð¹ÑÑ‚Ð²Ð°Ñ , Ð¿Ð¾Ð´Ð´ÐµÑ€Ð¶Ð¸Ð²Ð°ÑŽÑ‰Ð¸Ñ Python. Программа в значительной степени повышает КПД системы, в которой она работает, снижает удельный Ñ€Ð°ÑÑ Ð¾Ð´ топлива, оптимизирует вывод оборудования в ремонт и следит за суммарной наработкой каждого отдельного агрегата в системе., This work is devoted to the development of a unique algorithm for power distribution in a system consisting of units connected in parallel. The tasks that were solved in the course of the study: 1. Identification of deficiencies in the work of existing systems. 2. Development of criteria for power distribution to create an algorithm. 3. Development of a unique power distribution algorithm that optimizes the operation of DGA systems. 4. Testing the program on various systems. The work was carried out using modern technological tools, namely the Python programming language. An analysis of the existing systems of parallel operation of DGA was carried out, criteria for improving their performance were identified, on the basis of which an algorithm for power distribution was developed. The result of this work (the developed algorithm) can be successfully applied in various industrial systems and run on almost any device that supports Python. The program significantly increases the efficiency of the system in which it operates, reduces the specific fuel consumption, optimizes the removal of equipment for repair and monitors the total operating time of each individual unit in the system.

Published

2021

8. ЭКСПЕРИМЕНТАЛЬНЫЕ ИССЛЕДОВАНИЯ ХАРАКТЕРА РАСПРЕДЕЛЕНИЯ ЭНЕРГИИ ВЗРЫВА ПРИ ШПУРОВОЙ ОТБОЙКЕ РУДЫ ЖИЛ

Subjects

жильные месторождения, распределение энергии, vein deposits, разубоживание, power distribution, контроль величины, methodology, quality indicators, управление, ore blasting, dilution, decline, отбойка руды, losses, laboratory and field experiment, лабораторный и натурный эксперимент, потери, закономерности, снижение, качественные показатели, действие взрыва, patterns, explosions, методика, control

Abstract

В работе рассмотрены технологические возможности контроля законтурного и бризантного действия взрыва при отбойке руды на жильных месторождениях. Выполнен анализ особенностей выделения и распределения энергии взрыва в условиях зажима и установлено, что основные перспективы управления качественными показателями отбойки связанны с параметрами импульса взрыва. Каждым конкретным условиям отбойки соответствует некий оптимальный энергетический импульс, который характеризуется тем, что напряжения, возникающие в массиве, не только превосходят по своей величине разрушающие, но и поддерживается на этом уровне в течение времени, достаточного для завершения процесса трещинообразования. Реальный импульс напряжения считается достаточным для обеспечения необходимых показателей дробления, если теоретически оптимальный импульс вписывается в него полностью. Это означает, что контроль за величиной нежелательных эффектов взрыва в виде переизмельчения рудной массы и интенсивного законтурного разрушения массива вмещающих пород может осуществляться путём управления величиной головной части импульса взрыва и его продолжительностью. Выполненные экспериментальные исследования полностью подтвердили теоретические выводы и позволили создать систему эмпирических зависимостей, которая составила основу методики расчета параметров буровзрывных работ, обеспечивающих возможность технологического контроля величины законтурного действия взрыва и выхода не сортируемой рудной мелочи, как основных источников сверхнормативных потерь и разубоживания товарной руды., The paper discusses the technological capabilities of the control edge and blasting impact of the explosion at the breaking of ore vein deposits. The analysis of the specifics of allocation and distribution of explosion energy in a clamp and found that the main prospects for the control of quality indicators for blasting-related parameters of blast impulse. Each specific conditions of the rebound corresponds to an optimal energy pulse, which is characterized by the fact that the stresses arising in the array not only exceed the destructive ones, but also maintain at this level the time sufficient to complete the process of cracking. The actual voltage pulse is considered sufficient to provide the required crushing performance, if theoretically the optimal pulse fits into it completely. This means that control over the value of undesirable effects of explosion in the form of over-grinding of ore mass and intensive destruction of the host rock mass can be carried out by controlling the magnitude of the head of the explosion impulse and its duration. The performed experimental studies have fully confi rmed the theoretical conclusions and made it possible to create a system of empirical dependencies, which formed the basis for the calculation of parameters of drilling and blasting operations, providing the possibility of technological control of the magnitude of the effect of the explosion and the output of non-sortable ore fines, as the main sources of excess losses and dilution of commercial ore., №9 (2018)

Published

2018

9. Исследование распределения мощности в ванне печи

Subjects

РАСТВОР ХЛОРИДА АММОНИЯ, CONDUCTIVITY MELT, CURRENT STRENGTH, ПРОВОДИМОСТЬ РАСПЛАВА, СИЛА ТОКА, РАСПРЕДЕЛЕНИЕ МОЩНОСТИ, VOLTAGE, ORE-THERMAL FURNACE, POWER DISTRIBUTION, РУДНОТЕРМИЧЕСКАЯ ПЕЧЬ, НАПРЯЖЕНИЕ, SOLUTION AMMONIUM CHLORIDE

Abstract

В настоящей работе приведены результаты исследования распределения мощности в ванне модели прямоугольной руднотермической печи выплавки ферросилиция из техногенного отхода металлургической промышленности — клинкера вельцевания цинковых руд. Исследования проводили методом планирования эксперимента с использованием рототабельного плана второго порядка. В процессе исследования были изучены закономерности выделения мощности в различных зонах ванны руднотермической печи, которая в свою очередь зависит от геометрических параметров печи, электрического режима и свойств компонентов шихты. По результатам исследований распределения мощности в ванне модели прямоугольной печи были получены адекватные уравнения регрессии в кодированном и натуральном виде. С помощью полученных уравнений было установлено, что выделение мощности в ванне рудно-термической печи происходит не равномерно. По мере отдаления от электрода и подины к периферии печи выделяемая мощность в ванне печи снижалась, а максимальная мощность не превышала 77 %, при этом наименьшая потеря мощности в ванне руднотермической печи происходит при более низкой посадке электродов. In the present work the results of research of distribution of power in the bath water model rectangular ore-thermal furnace smelting ferrosilicon from technogenic waste of metallurgical clinker valcavasia zinc ores. Research carried out by the planning of the experiment using rotatable plan of the second order. During the research of regularities of the allocation of power in the various areas of baths ore-thermal furnace, which in turn depends on the geometrical parameters of the furnace, electric mode and properties of the mixture components. By results of researches of distribution of power in the tub model rectangular furnace were received adequate regression equation in coded and kind. Using the obtained equations was found that the allocation of power in the tub ore-thermal furnace does not occur evenly. As one moves away from the electrode and the bottom to the periphery of the furnace allocated power in the bath furnace decreased and the maximum power does not exceed 77 %, while the smallest loss of power in the tub ore-thermal furnace going for a low rise electrodes.

Published

2014

10. Метод математического программирования для принятия решения при модернизации электросетей

Subjects

распределение мощностей, electricity network, пропускная способность, power distribution, reduced waste, оптимизация, моделирование, simulation, сеть электроснабжения, optimization, минимизация потерь, throughput

Abstract

В статье рассматривается задача оптимального распределения потоков мощности в сетях электроснабжения. Цель - принятие решения о рациональном использовании возможностей существующих электросетей. Обосновано оценку максимально-допустимой общей передаваемой мощности при обеспечении заданных ограничений по мощности и напряжениям на распределительных пунктах и у потребителей In article consider the problem of optimal distribution of power flows in electricity networks. The purpose - to decide on the rational use of existing power grids. Assess the validity of maximum allowable total transmit power while ensuring the specified constraints on power and voltage on the points and the consumers

Published

2013

11. Показатели надёжности и безопасности: возможности нелинейного перехода

Subjects

НАДЁЖНОСТЬ,БЕЗОПАСНОСТЬ,МЕРА,ШКАЛА,ОТКАЗ,УЩЕРБ,РИСК,СТЕПЕННОЙ ЗАКОН,НЕЛИНЕЙНОЕ ПРЕОБРАЗОВАНИЕ, reliability, security, measure, scale, refusal, damage, risk, power distribution, nonlinear transformation

Abstract

Рассматривается оппозиция и соотношение понятий надёжности и безопасности. Представлена методика нелинейного преобразования номинальных физических шкал, в частности, темпоральной шкалы в шкалу меры риска на основе степенных функций распределения, что позволяет связать показатели надёжности и безопасности, а также выработать новый подход к оценке затрат на обеспечение безопасности., Reliability and security concepts are considered as opposed to one another as well as correlated ones. Methods are presented for nonlinear transformation of nominal physical scales, in particular, temporal one, into risk measure scale on the basis of power distribution functions, the above methods enabling to interrelate reliability and security indices and to develop a new approach to the assessment of security assurance costs.

Published

2011

12. Investigation of reactor physical characteristics during start-up of Unit I of the Bilibin Atomic Power Station

Author

Goryunov, V

Published

1975