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Model for calculating the optimal mode of heat recovery at power generating equipment of the processing and food industry

НазваModel for calculating the optimal mode of heat recovery at power generating equipment of the processing and food industry
Назва англійськоюModel for calculating the optimal mode of heat recovery at power generating equipment of the processing and food industry
АвториStepan Balanban, Volodymyr Kaspruk
ПринадлежністьTernopil Ivan Puluj National Technical University,Ternopil, Ukraine
Бібліографічний описModel for calculating the optimal mode of heat recovery at power generating equipment of the processing and food industry / Stepan Balanban, Volodymyr Kaspruk // Scientific Journal of TNTU. — Tern.: TNTU, 2023. — Vol 111. — No 3. — P. 15–22.
Bibliographic description:Balanban S., Kaspruk V. (2023) Model for calculating the optimal mode of heat recovery at power generating equipment of the processing and food industry. Scientific Journal of TNTU (Tern.), vol 111, no 3, pp. 15–22.
УДК

621.646:621.783,2

Ключові слова

Recuperation, energy-generating equipment, heat exchanger, heat pump, primary fuel-energy. resource.

The article deals with the influence of heat recovery measures of exhaust process gases on reducing the negative impact of production on the environment and increasing the competitive ability of products. The analysis of heat reuse schemes for periodically operating power generating equipment in the processing and food industry is carried out. A model for calculating the amount of cold heat transfer agent for reuse in the technological process is suggested.

 

ISSN:2522-4433
Перелік літератури
  1. Balaban S. M., Duda M. I. Osoblyvosti vykorystannia utylizatsii tepla na enerhozatratnomu obladnanni pidpryiemstv pervynnoi pererobky silskohospodarskoi produktsii: zbirnyk tez dopovidei Mizhnarodnoi naukovo-tekhnichnoi konferentsii prysviachenoi pamiati profesora Hevka B. M. “Problemy teorii proektuvannia ta vyhotovlennia transportno-tekhnolohichnykh mashyn”, 23–24 veresnia 2021 r. Ternopil: 2021. P. 45.[In Ukrainian]
  2. Stadnyk I., Balaban S., Kaspruk V. and Derkach A. (2022). Assessment of economic expediency of heat utilization technology use at food industry enterprises. Galician economic journal. Vol. 77. No. 4. P. 7–12. [In Ukrainian]/
  3. Stadnyk I. Ya., Balaban S. M., Kaspruk V. B., Derkach A. V. Obhruntuvannia vyboru skhemy rekuperatsii tepla vidpratsovanykh tekhnolohichnykh haziv na pidpryiemstvakh. Ekolohichna bezpeka derzhavy: tezy dopovidei  Druhoho vseukrainskoho kruhloho stolu, m. Kyiv, 15 hrudnia 2021 roku/ redkol. O. S. Voloshkina ta in. K.: ITTA, 2021. P. 120–123. [In Ukrainian].
  4. Balaban S. M., Kaspruk V. B. Pro deiaki osoblyvosti vprovadzhennia enerhozberihaiuchykh tekhnolohii na pidpryiemstvakh pererobnoi ta kharchovoi promyslovosti: zbirnyk tez dopovidei Mizhnarodnoi naukovo-praktychnoi konferentsii, prysviachenoi 90 – richchiu vid dnia narodzhennia profesora Rybaka Tymofiia Ivanovycha ta 60 – richchiu kafedry tekhnichnoi mekhaniky ta silskohospodarskykh mashyn “Protsesy, mashyny ta obladnannia ahropromyslovoho vyrobnytstva: problemy teorii ta praktyky”,
    29–30 veresnia 2022 r. Ternopil, 2022. P. 81–82. [In Ukrainian].
  5. Sniezhkin Yu. F., Paziuk V. M.  Enerhozberihaiuchi tekhnolohii sushinnia zerna. Tekhniko-ekonomichni kharakterystyky isnuiuchykh zernosusharok: Zbirnyk materialiv 1 Mizhnarodnoho konhresu “Zakhyst navkolyshnoho seredovyshcha. Enerhooshchadnist. Zbalansovane pryrodokorystuvannia”, 28–29 travnia 2009 r. Lviv: NU “LP” 2009. P. 92. [In Ukrainian].
  6. Bezrodnyi M. N., Vovk V. V. Analiz efektyvnosti retsyrkuliatsiinoi susharky zerna z teplovym nasosom. Naukovi visti NU “KPI”. 2014. No. 2. P. 7–13. [In Ukrainian].
  7. Stolyarenko G. S., Vyazovy`k V. M., Vodyany`k O. V., Gonchar S. M., Velikanov V. V. Rozrobka procesiv intensy`fikaciyi gorinnya dlya pidpry`yemstv teploenergety`ky` mista Cherkasy`: zbirny`k naukovy`x pracz` VI mizhnarodnoyi naukovo-texnichnoyi konferenciyi “Novitni energo- ta resursozberigayuchi ximichni texnologiyi bez ekologichny`x problem”. Odesa. Tom 2. 2013. P. 183–186.
  8. Viazovik V., Lisenko V., Stolyarenko G. The alternative burning of hard fuel. Modern scientificresearchand their practical application. Research Bulletin SWorld Volume. May 2013. J11307J11307-180. Р. 103–108.
  9. Zabarny`j G. M., Kudrya S. O., Novy`cz`ka Ye. G. Vy`kory`stannya energiyi biomasy` dlya energozabezpechennya ob'yektiv na tery`toriyax z special`ny`m rezhy`mom pry`rodokory`stuvannya. Insty`tut vidnovlyuvanoyi energety`ky` NAN Ukrayiny`. K., 2007. 236 р.
  10. Zabarny`j G. M., Shurchkov A. V. Energety`chny`j potencial netrady`cijny`x dzherel energiyi Ukrayiny` // Insty`tutu texnichnoyi teplofizy`ky` NAN Ukrayiny`. K, 2002. 211 р.
  11. Kosy`nchuk O. V., Kondratyuk G. G., Kozlova N. M., Novy`cz`ka Ye. G. Vy`znachennya zmenshennya vy`ky`div parny`kovy`x gaziv za raxunok vy`kory`stannya vidnovlyuvany`x dzherel energiyi. Zhurnal “Naukoyemni texnologiyi”. Tom 5. No. 1. 2010. P. 98–102.
  12. Xany`k Ya. M., Mil`kovy`ch O. I. Ekologichni aspekty` sushinnya poliamidu – 6: Zbirny`k materialiv 1 Mizhnarodnogo kongresu “Zaxy`st navkoly`shn`ogo seredovy`shha Energooshhadnist`. Zbalansovane pry`rodokory`stuvannya”, 28–29 travnya 2009 r. L`viv: 2009. Р. 102.
  13. William D. Cotter – NYSERDA, Handbook of Heat Exchangers for Industrial Heat Recovery, New York State Energy Research and Development Office, New York, 1984 .
  14. Bruckner S., Liu S., Laya M., Radspieler M., Cabeza L. F., Eberhard L. Industrial waste heat utilization technologies: economic analysis of heat conversion technologies. App. Energy, 151 (1). 2015. P. 157–167.
  15. Simeone A., Luo Y., Woolley E., Rahimifard S., Boor K. Decision support system for the utilization of waste heat in production CIRP Ann. 65. 2016. P. 21–24.
References:
  1. Balaban S. M., Duda M. I. Osoblyvosti vykorystannia utylizatsii tepla na enerhozatratnomu obladnanni pidpryiemstv pervynnoi pererobky silskohospodarskoi produktsii: zbirnyk tez dopovidei Mizhnarodnoi naukovo-tekhnichnoi konferentsii prysviachenoi pamiati profesora Hevka B. M. “Problemy teorii proektuvannia ta vyhotovlennia transportno-tekhnolohichnykh mashyn”, 23–24 veresnia 2021 r. Ternopil: 2021. P. 45.[In Ukrainian]
  2. Stadnyk I., Balaban S., Kaspruk V. and Derkach A. (2022). Assessment of economic expediency of heat utilization technology use at food industry enterprises. Galician economic journal. Vol. 77. No. 4. P. 7–12. [In Ukrainian]/
  3. Stadnyk I. Ya., Balaban S. M., Kaspruk V. B., Derkach A. V. Obhruntuvannia vyboru skhemy rekuperatsii tepla vidpratsovanykh tekhnolohichnykh haziv na pidpryiemstvakh. Ekolohichna bezpeka derzhavy: tezy dopovidei  Druhoho vseukrainskoho kruhloho stolu, m. Kyiv, 15 hrudnia 2021 roku/ redkol. O. S. Voloshkina ta in. K.: ITTA, 2021. P. 120–123. [In Ukrainian].
  4. Balaban S. M., Kaspruk V. B. Pro deiaki osoblyvosti vprovadzhennia enerhozberihaiuchykh tekhnolohii na pidpryiemstvakh pererobnoi ta kharchovoi promyslovosti: zbirnyk tez dopovidei Mizhnarodnoi naukovo-praktychnoi konferentsii, prysviachenoi 90 – richchiu vid dnia narodzhennia profesora Rybaka Tymofiia Ivanovycha ta 60 – richchiu kafedry tekhnichnoi mekhaniky ta silskohospodarskykh mashyn “Protsesy, mashyny ta obladnannia ahropromyslovoho vyrobnytstva: problemy teorii ta praktyky”,
    29–30 veresnia 2022 r. Ternopil, 2022. P. 81–82. [In Ukrainian].
  5. Sniezhkin Yu. F., Paziuk V. M.  Enerhozberihaiuchi tekhnolohii sushinnia zerna. Tekhniko-ekonomichni kharakterystyky isnuiuchykh zernosusharok: Zbirnyk materialiv 1 Mizhnarodnoho konhresu “Zakhyst navkolyshnoho seredovyshcha. Enerhooshchadnist. Zbalansovane pryrodokorystuvannia”, 28–29 travnia 2009 r. Lviv: NU “LP” 2009. P. 92. [In Ukrainian].
  6. Bezrodnyi M. N., Vovk V. V. Analiz efektyvnosti retsyrkuliatsiinoi susharky zerna z teplovym nasosom. Naukovi visti NU “KPI”. 2014. No. 2. P. 7–13. [In Ukrainian].
  7. Stolyarenko G. S., Vyazovy`k V. M., Vodyany`k O. V., Gonchar S. M., Velikanov V. V. Rozrobka procesiv intensy`fikaciyi gorinnya dlya pidpry`yemstv teploenergety`ky` mista Cherkasy`: zbirny`k naukovy`x pracz` VI mizhnarodnoyi naukovo-texnichnoyi konferenciyi “Novitni energo- ta resursozberigayuchi ximichni texnologiyi bez ekologichny`x problem”. Odesa. Tom 2. 2013. P. 183–186.
  8. Viazovik V., Lisenko V., Stolyarenko G. The alternative burning of hard fuel. Modern scientificresearchand their practical application. Research Bulletin SWorld Volume. May 2013. J11307J11307-180. Р. 103–108.
  9. Zabarny`j G. M., Kudrya S. O., Novy`cz`ka Ye. G. Vy`kory`stannya energiyi biomasy` dlya energozabezpechennya ob'yektiv na tery`toriyax z special`ny`m rezhy`mom pry`rodokory`stuvannya. Insty`tut vidnovlyuvanoyi energety`ky` NAN Ukrayiny`. K., 2007. 236 р.
  10. Zabarny`j G. M., Shurchkov A. V. Energety`chny`j potencial netrady`cijny`x dzherel energiyi Ukrayiny` // Insty`tutu texnichnoyi teplofizy`ky` NAN Ukrayiny`. K, 2002. 211 р.
  11. Kosy`nchuk O. V., Kondratyuk G. G., Kozlova N. M., Novy`cz`ka Ye. G. Vy`znachennya zmenshennya vy`ky`div parny`kovy`x gaziv za raxunok vy`kory`stannya vidnovlyuvany`x dzherel energiyi. Zhurnal “Naukoyemni texnologiyi”. Tom 5. No. 1. 2010. P. 98–102.
  12. Xany`k Ya. M., Mil`kovy`ch O. I. Ekologichni aspekty` sushinnya poliamidu – 6: Zbirny`k materialiv 1 Mizhnarodnogo kongresu “Zaxy`st navkoly`shn`ogo seredovy`shha Energooshhadnist`. Zbalansovane pry`rodokory`stuvannya”, 28–29 travnya 2009 r. L`viv: 2009. Р. 102.
  13. William D. Cotter – NYSERDA, Handbook of Heat Exchangers for Industrial Heat Recovery, New York State Energy Research and Development Office, New York, 1984 .
  14. Bruckner S., Liu S., Laya M., Radspieler M., Cabeza L. F., Eberhard L. Industrial waste heat utilization technologies: economic analysis of heat conversion technologies. App. Energy, 151 (1). 2015. P. 157–167.
  15. Simeone A., Luo Y., Woolley E., Rahimifard S., Boor K. Decision support system for the utilization of waste heat in production CIRP Ann. 65. 2016. P. 21–24.
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