An operational approach for the designing of an energy integrated oxy-fuel CFB power plant

Espatolero, Sergio; Romeo, Luis M.; Escudero, Ana; Kuivalainen, Reijo

doi:10.1016/j.ijggc.2017.07.018

Cited by 26 publications

(7 citation statements)

References 33 publications

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“…Main challenges for the development of oxy-fuel combustion plants are related to the reduction of the large energy penalties caused by ASU and CPU stages (air separation unit and compression and processing unit, respectively), with a target of 7-9 % [7]. Besides energy integration and optimization, other solutions can also contribute to increase the efficiency and operating manageability of these plants.…”

mentioning

confidence: 99%

From O2/CO2 to O2/H2O combustion: The effect of large steam addition on anthracite ignition, burnout and NOx formation

Escudero

Aznar

Díez

et al. 2020

Fuel Processing Technology

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Steam-moderated combustion has been proposed to supress flue gas recycling in oxy-fired units, but the influence of replacing CO2 by H2O has to be deeply studied. In this paper, oxy-fuel combustion of anthracite with large steam addition has been experimentally characterized, and main results are discussed as concerns the influence upon the ignition temperature, the burnout and the NOx formation. The tests have been carried out in an electrically-heated entrained flow reactor for a set of O2/CO2 and O2/H2O/CO2 atmospheres, with steam addition up to 40 % vol. The results show that ignition temperature diminishes when steam is added in low rates (maximum decrease of 16 ºC), but the trend is reversed for the higher steam concentrations (maximum increase of 18 ºC). The effect of steam addition on coal burnout rates is more significant for the 21 % vol. O2 atmosphere, with a decrease of 2.2-5.3 percentage points, and almost negligible for the 35 % vol. O2. An outstanding reduction of NO specific emissions is detected when adding H2O, with decrements ranging 28-45 % compared to the dry conditions. The transition from O2/CO2 combustion to O2/H2O combustion barely affects the anthracite conversion but significantly diminishes NOx formation rates.

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mentioning

confidence: 99%

From O2/CO2 to O2/H2O combustion: The effect of large steam addition on anthracite ignition, burnout and NOx formation

Escudero

Aznar

Díez

et al. 2020

Fuel Processing Technology

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“…In most literature, the typical CO 2 pressure and temperature ranges are 8–20 MPa and 0–50 °C, respectively, ,, and the compression ratio is usually in the range of 1.6–2.4. ,, In this work, CO 2 is compressed to 15 MPa and is ready for delivery and storage. The compression process includes six stages, as shown in Figure .…”

Section: Process Model Developmentmentioning

confidence: 99%

“…Kotowicz et al showed that the efficiency penalty was reduced to 7.3% after heat recovery from an ASU and the exhaust flue gas. Espatolero et al recovered the heat from an ASU and a flue gas compression and purification unit (CPU), and the net electric efficiency was increased by approximately 3% without operational restrictions.…”

Section: Introductionmentioning

confidence: 99%

Thermodynamic Analysis and Optimization of an Oxyfuel Fluidized Bed Combustion Power Plant for CO₂ Capture

Chen

Xiang

2018

Ind. Eng. Chem. Res.

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In this paper, a 600 MW supercritical oxyfuel fluidized bed combustion power plant is integrated with an air separation unit (ASU) and a flue gas compression and purification unit (CPU). The plant performance is investigated, and two flue gas recirculation modes (i.e., wet and dry modes) are compared under different operating conditions. In the initial analysis, the dry-mode plant has a net power efficiency of 31.6%, while the wet-mode plant has a net power efficiency of 31.5%. In the sensitivity analysis, the air ingress has the most significant influence on the net power efficiency of the plant. The furnace combustion temperature also affects the net power efficiency. The plant is optimized by recovering heat from the ASU, CPU, and acid condenser and utilizing the heat to preheat the feedwater. Although the dry-mode plant has a higher efficiency before optimization, the wet-mode plant has a higher efficiency after optimization; that is, the net power efficiency increases by 2.7% for the wet mode compared with 2.3% for the dry mode.

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“…Рассмотрены проблемы развития систем теплоснабжения [10], где одним из вариантов для создания автономных систем отопления является использование электрического тока. Имеются также ряд зарубежных публикаций, направленных на создание новых источников тепла и повышение эффективности работы систем отопления [11][12][13]. Исследования основаны на использовании известных методов и законов теории теплообмена [14,15].…”

Section: Introductionunclassified

"Паровой Электрообогреватель Низкого Давления"

Мехтиев¹,

Бузяков²,

Шапенова³

2022

BTOUEn

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"В статье приведены результаты исследования вакуумного электронагревательного элемента парового электрообогревателя низкого давления. Данный вид электрообогревателей имеет принципиально новую конструкцию, которая обеспечивает достаточно высокую эффективность преобразования электрической энергии в тепловую. Паровой электрообогреватель низкого давления имеет высокие показатели надежности и пожаробезопасности и имеет высокую эффективность при создании автономных беструбных систем отопления, так как в нем сочетаются эффективность электрической спирали и комфортное тепло традиционного радиатора отопления. Проведен анализ исследований, посвященных проблемам теплоснабжения, создания новых систем отопления и повышения их эффективности. Описаны преимущества использования электрообогревателя по сравнению с традиционными системами отопления. В статье рассмотрены конструкция парового электрообогревателя низкого давления и конструкция тепловой трубки. Проведены экспериментальные исследования вакуумных электронагревателей при изменении геометрических параметров трубок по диаметру, длине и объему теплоносителя. Установлено, что наилучшим вариантом теплоносителя является дистиллированная вода, прошедшая аэрацию. Глубина разряжения напрямую влияет на эффективность и температуру нагрева теплоносителя и, соответственно, на коэффициент полезного действия. Важными моментами являются глубина вакуума, а также образование кавитации теплоносителя, что дает дополнительную энергию. Ключевые слова: радиатор, электрообогреватель, энергосбережение, вакуум, тепловой прибор, система отопления. "

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An operational approach for the designing of an energy integrated oxy-fuel CFB power plant

Cited by 26 publications

References 33 publications

From O2/CO2 to O2/H2O combustion: The effect of large steam addition on anthracite ignition, burnout and NOx formation

From O2/CO2 to O2/H2O combustion: The effect of large steam addition on anthracite ignition, burnout and NOx formation

Thermodynamic Analysis and Optimization of an Oxyfuel Fluidized Bed Combustion Power Plant for CO₂ Capture

"Паровой Электрообогреватель Низкого Давления"

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An operational approach for the designing of an energy integrated oxy-fuel CFB power plant

Cited by 26 publications

References 33 publications

From O2/CO2 to O2/H2O combustion: The effect of large steam addition on anthracite ignition, burnout and NOx formation

From O2/CO2 to O2/H2O combustion: The effect of large steam addition on anthracite ignition, burnout and NOx formation

Thermodynamic Analysis and Optimization of an Oxyfuel Fluidized Bed Combustion Power Plant for CO2 Capture

"Паровой Электрообогреватель Низкого Давления"

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Thermodynamic Analysis and Optimization of an Oxyfuel Fluidized Bed Combustion Power Plant for CO₂ Capture