White M. T., Read M. G., Sayma A. I. Comparison between single and cascaded organic Rankine cycle systems accounting for the effects of expansion volume ratio on expander performance / trans. from Engl. M. A. Fedorova
Compared to single-stage organic Rankine cycle (ORC) systems, cascaded ORC systems, in which a high-temperature topping cycle and low-temperature bottoming cycle are coupled together, could have advantages in terms of removing the potential for sub-atmospheric condensation conditions and improvin...
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doaj-21f6815a66f4421e9839a8753fa0a9b52021-01-25T03:56:42ZengOmsk State Technical University, Federal State Budgetary Educational Institution of Higher EducationОмский научный вестник: Серия "Авиационно-ракетное и энергетическое машиностроение"2588-03732587-764X2020-10-01439010010.25206/2588-0373-2020-4-3-90-100White M. T., Read M. G., Sayma A. I. Comparison between single and cascaded organic Rankine cycle systems accounting for the effects of expansion volume ratio on expander performance / trans. from Engl. M. A. FedorovaM. A. Fedorova0https://orcid.org/0000-0002-0899-6303Omsk State Technical UniversityCompared to single-stage organic Rankine cycle (ORC) systems, cascaded ORC systems, in which a high-temperature topping cycle and low-temperature bottoming cycle are coupled together, could have advantages in terms of removing the potential for sub-atmospheric condensation conditions and improving expander performance as the expansion process is effectively divided across two stages. Moreover, reducing the expansion volume ratio could facilitate the use of volumetric expanders, such as twin-screw expanders, which, in turn, could facilitate two-phase expansion to be utilised in one, or both, of the cycles. The aim of this paper is to compare single-stage and cascaded ORC systems, accounting for the effect of the expander volume ratio on expander performance. To investigate this, thermodynamic models for single-stage and cascaded ORC systems are developed, which include variable efficiency expander models for both radial turbines and twin-screw expanders that can estimate the effect of the expansion volume ratio on the expander isentropic efficiency. Using this model, three different scenarios are compared for different temperature heat-source temperatures, namely: (i) single-stage ORC systems with vapour-phase expansion obtained using a turboexpander; (ii) single-stage ORC systems operating with a twin-screw expander, with the possibility for two-phase expansion; and (iii) cascaded cycles with either vapour- or two-phase expansion. The results from this comparison are used to identify applications where cascaded ORC systems could offer performance benefitshttps://www.omgtu.ru/general_information/media_omgtu/journal_of_omsk_research_journal/files/arhiv/2020/%D0%A2.%204,%20%E2%84%96%203%20(%D0%90%D0%A0%D0%B8%D0%AD%D0%9C)/90-100%20%D0%A3%D0%B0%D0%B9%D1%82%20%D0%9C.%20%D0%A2.,%20%D0%A0%D0%B8%D0%B4%20%D0%9C.%20%D0%94%D0%B6.,%20%D0%A1%D0%B0%D0%B9%D0%BC%D0%B0%20A.%20%D0%98..pdfsingle-stage rankine cyclecascaded rankine cycleturboexpanderscrew expanderisentropic efficiency |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
M. A. Fedorova |
| spellingShingle |
M. A. Fedorova White M. T., Read M. G., Sayma A. I. Comparison between single and cascaded organic Rankine cycle systems accounting for the effects of expansion volume ratio on expander performance / trans. from Engl. M. A. Fedorova Омский научный вестник: Серия "Авиационно-ракетное и энергетическое машиностроение" single-stage rankine cycle cascaded rankine cycle turboexpander screw expander isentropic efficiency |
| author_facet |
M. A. Fedorova |
| author_sort |
M. A. Fedorova |
| title |
White M. T., Read M. G., Sayma A. I. Comparison between single and cascaded organic Rankine cycle systems accounting for the effects of expansion volume ratio on expander performance / trans. from Engl. M. A. Fedorova |
| title_short |
White M. T., Read M. G., Sayma A. I. Comparison between single and cascaded organic Rankine cycle systems accounting for the effects of expansion volume ratio on expander performance / trans. from Engl. M. A. Fedorova |
| title_full |
White M. T., Read M. G., Sayma A. I. Comparison between single and cascaded organic Rankine cycle systems accounting for the effects of expansion volume ratio on expander performance / trans. from Engl. M. A. Fedorova |
| title_fullStr |
White M. T., Read M. G., Sayma A. I. Comparison between single and cascaded organic Rankine cycle systems accounting for the effects of expansion volume ratio on expander performance / trans. from Engl. M. A. Fedorova |
| title_full_unstemmed |
White M. T., Read M. G., Sayma A. I. Comparison between single and cascaded organic Rankine cycle systems accounting for the effects of expansion volume ratio on expander performance / trans. from Engl. M. A. Fedorova |
| title_sort |
white m. t., read m. g., sayma a. i. comparison between single and cascaded organic rankine cycle systems accounting for the effects of expansion volume ratio on expander performance / trans. from engl. m. a. fedorova |
| publisher |
Omsk State Technical University, Federal State Budgetary Educational Institution of Higher Education |
| series |
Омский научный вестник: Серия "Авиационно-ракетное и энергетическое машиностроение" |
| issn |
2588-0373 2587-764X |
| publishDate |
2020-10-01 |
| description |
Compared to single-stage organic Rankine cycle (ORC) systems, cascaded ORC systems, in which
a high-temperature topping cycle and low-temperature bottoming cycle are coupled together, could
have advantages in terms of removing the potential for sub-atmospheric condensation conditions and
improving expander performance as the expansion process is effectively divided across two stages.
Moreover, reducing the expansion volume ratio could facilitate the use of volumetric expanders, such as
twin-screw expanders, which, in turn, could facilitate two-phase expansion to be utilised in one, or both,
of the cycles. The aim of this paper is to compare single-stage and cascaded ORC systems, accounting
for the effect of the
expander volume ratio on expander performance. To investigate this, thermodynamic models for single-stage and cascaded ORC systems are developed, which include variable efficiency expander models
for both radial turbines and twin-screw expanders that can estimate the effect of the expansion volume
ratio on the expander isentropic efficiency. Using this model, three different scenarios are compared
for different temperature heat-source temperatures, namely: (i) single-stage ORC systems with vapour-phase expansion obtained using a turboexpander; (ii) single-stage ORC systems operating with a twin-screw expander, with the possibility for two-phase expansion; and (iii) cascaded cycles with either
vapour- or two-phase expansion. The
results from this comparison are used to identify applications where cascaded ORC systems could offer
performance benefits |
| topic |
single-stage rankine cycle cascaded rankine cycle turboexpander screw expander isentropic efficiency |
| url |
https://www.omgtu.ru/general_information/media_omgtu/journal_of_omsk_research_journal/files/arhiv/2020/%D0%A2.%204,%20%E2%84%96%203%20(%D0%90%D0%A0%D0%B8%D0%AD%D0%9C)/90-100%20%D0%A3%D0%B0%D0%B9%D1%82%20%D0%9C.%20%D0%A2.,%20%D0%A0%D0%B8%D0%B4%20%D0%9C.%20%D0%94%D0%B6.,%20%D0%A1%D0%B0%D0%B9%D0%BC%D0%B0%20A.%20%D0%98..pdf |
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