Determination of Rotor Surfacing Time for the Vertical Microturbine with Axial Gas-Dynamic Bearings

Efimov, Nikolay N.; Papin, Vladimir; Bezuglov, Roman

doi:10.1016/j.proeng.2016.07.006

Cited by 10 publications

(5 citation statements)

References 1 publication

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“…Thermodynamic and hydraulic calculations of the cascade of the cascade heat pump system were carried out to determine the energy efficiency of the multifunctional heat point, after which the energy balance of the heat supply system-power supply object was compiled, on the basis of which the energy efficiency was obtained [13][14][15][16][17]. For example in the Fig.…”

Section: Thermodynamic Calculation Of the Cascade Heat Pump Cyclementioning

confidence: 99%

Energy Efficiency of the Heat and Power Complex for Highly Efficient Use of the Secondary and Renewable Energy Resources

Papin

Bezuglov

Baltyan

2018

MSF

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The article describes a heat and power complex utilizing internal sources of consumer heat, as well as using renewable energy sources. The power complex also includes heat accumulators, cold accumulators and a cascade heat pump plant. This heat pump plant has a high conversion factor of electrical energy due to optimization of heat flows. In this article, a method for determining the energy efficiency of the heat-energy complex under consideration is disclosed.

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Section: Thermodynamic Calculation Of the Cascade Heat Pump Cyclementioning

confidence: 99%

Energy Efficiency of the Heat and Power Complex for Highly Efficient Use of the Secondary and Renewable Energy Resources

Papin

Bezuglov

Baltyan

2018

MSF

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“…The papers [3][4][5] describe the operation of control systems of various power plants. However, the problem of inconvenient adjustment of parameters, as well as problems of a complex, hardly adaptable control system are revealed in these works.…”

Section: Literature Review and Problem Statementmentioning

confidence: 99%

“…There are no solutions in the works reviewed that can effectively implement the process of regulating the micro-energy complex operating on the Renken cycle, which should probably be based on the P and PI controllers of their own control system. The technical solutions considered in [3][4][5] are unable to solve the problem of parameter stabilization under any perturbations, despite the mutual influence of deviations of parameters.…”

Section: Literature Review and Problem Statementmentioning

confidence: 99%

Development of the simulation model of the interaction of automatic controllers in the control system of the energy complex

Parshukov

Gorbachev²,

Kihtev³

et al. 2018

EEJET

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Представлена розроблена імітаційна мо дель системи керування енергетичною уста новкою, що працює за різних режимах. Була проведена робота по розробці системи керуван ня енергетичною установкою, фізичне управ ління якою буде здійснюватися за допомогою автоматичних регуляторів, які компенсують вплив зовнішніх факторів і, таким чином, при водять величини параметрів до заданих зна чень. Зокрема, були вибрані оптимальні регу лятори для управління основними складовими частинами енергетичної установки. Моделювання режимів роботи було зроб лено для мінімізації похибки керування, а та кож для відповідності усталеним величинам витрати, температури пари та інших пара метрів заданим (номінальним) значенням. В результаті проведеного моделювання було встановлено, що регулятори (П і ПІтипу) досить добре справляються з завданнями стабілізації параметрів при будьяких збу реннях, незважаючи на взаємний вплив від хилень одних параметрів на інші. Динамічні відхилення від усталених значень таких вели чин, як витрати: димових газів, пари на тур біну і на перетіканні в конденсатор, а також тиску пари на виході з парогенератора, не перевищують ±0,1. Час заспокоєння коливань витрати пари на турбіну не перевищує 5 хв. Коливання інших витрат практично повто рюють коливання витрати пари на турбіну. Проведені дослідження будуть корисні для ефективного і якісного (точного) керу вання різними енергетичними комплексами, призначеними для вироблення електричної енергії і тепла. Управління такими складни ми енергокомплексами, як правило, здійсню ється автоматичними системами, для яких потрібні правильні інструменти та опти мальні регулятори. Дана стаття присвяче на імітаційного моделювання взаємо дії даних регуляторів Ключові слова: мікроенергетичний комп лекс, турбоустановка, енергетична установ ка, імітаційна модель системи керування, оптимальний регулятор

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“…As for vapour microturbines, their rotors are powered by the vapour of the working medium, which circulates in a closed cycle and is heated using an external heat source [12]. In such a system, the following types of heat sources can be applied: gas or biomass boiler, geothermal source, solar collectors and waste heat from various production processes [7,18]. The highest efficiency and profitability of installations with gas or vapour microturbines can be reached when the cogeneration is running (that is when there is a demand for both electric energy and thermal energy).…”

Section: Introductionmentioning

confidence: 99%

“…Shafts that rotate at high rotational speeds (which may exceed 100,000 rpm [13]) need to be supported by advanced and unconventional bearings such as magnetic [15], foil [28] and gas [19] bearings or even bearings lubricated with low-boiling mediums [14]. In addition to a good dynamic performance of the rotor over a wide rotational speed range, the bearing systems must be of great durability and reliability [7], allowing microturbines to operate without constant technical supervision. With the compact dimensions and low power output of microturbines, no strict procedures have to be followed every time they are set in motion as opposed to big power-station turbines [5].…”

Section: Introductionmentioning

confidence: 99%

Experimental evaluation of the dynamic properties of an energy microturbine with defects in the rotating system

Żywica¹,

Kaczmarczyk²

2019

Eksploatacja i Niezawodność – Maintenance and Reliability

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Article citation info: (*) Tekst artykułu w polskiej wersji językowej dostępny w elektronicznym wydaniu kwartalnika na stronie www.ein.org.pl Grzegorz ŻywicA Tomasz z. KAczmArczyK ExpErimEntal Evaluation of thE dynamic propErtiEs of an EnErgy microturbinE with dEfEcts in thE rotating systEm EkspErymEntalna ocEna właściwości dynamicznych mikroturbiny EnErgEtycznEj w obEcności dEfEktów układu wirującEgo*Today's energy systems increasingly use various types of microturbines to produce electricity. A specific feature of such machines is a high-speed rotor, whose rotational speed can be higher than 100,000 rpm. Failure-free operation of highspeed microturbine rotors requires both special design and high precision during the manufacturing process. What is more, proper procedures must be followed during run-up and coast-down phases; and also, dedicated diagnostic systems have to be used. This article discusses the experimental research conducted on a 2.5 kW vapour microturbine that operated in a prototypical combined heat and power plant. A series of measurements was carried out to evaluate the dynamic performance of the machine during normal operation. After the appearance of certain defects in the rotating system, it was necessary to perform a new series of measurements in order to assess the dynamic properties of the machine. The measurements results obtained in the form of vibration velocity spectrums made it possible to define diagnostic symptoms corresponding to particular defects. Similar diagnostic symptoms can occur during the operation of this class of turbomachines.

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Determination of Rotor Surfacing Time for the Vertical Microturbine with Axial Gas-Dynamic Bearings

Cited by 10 publications

References 1 publication

Energy Efficiency of the Heat and Power Complex for Highly Efficient Use of the Secondary and Renewable Energy Resources

Energy Efficiency of the Heat and Power Complex for Highly Efficient Use of the Secondary and Renewable Energy Resources

Development of the simulation model of the interaction of automatic controllers in the control system of the energy complex

Experimental evaluation of the dynamic properties of an energy microturbine with defects in the rotating system

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