ЭКСПЕРИМЕНТАЛЬНЫЕ ИССЛЕДОВАНИЯ ТЕМПЕРАТУРНОГО И ВЛАЖНОСТНОГО РЕЖИМА ВНУТРИ СОЛНЕЧНОГО УСТРОЙСТВА ДЛЯ ЗАМАРИВАНИЯ КОКОНОВ ТУТОВОГО ШЕЛКОПРЯДА

Umarov Sardor Fotixovich

В данной работе отмечается актуальность использования солнечной энергии, в частности для замаривания коконов тутового шелкопряда. Приведены результаты экспериментов по исследованию температурного и влажностного режима внутри солнечного устройства парникового типа. Изменения температуры и влажности внутри солнечного устройства в процессе замаривания коконов измеряли по общеизвестной методике с использованием приборов, апробированных на практике. Разработана и предложена математическая формула для вычисления количества испарившейся из коконов влаги в процессе их замаривания в солнечном устройстве, приведены результаты вычисления. Как следует из полученных результатов, в связи с незначительным количеством расходуемой тепловой энергии при испарении влаги из коконов в процессе их тепловой обработки её влиянием на общий тепловой баланс устройства можно пренебречь. Приведены показатели изменения влажности коконов, заморенных в солнечном устройстве и коконосушильном агрегате, которые применяются в производстве для обработки коконов. Благодаря исследованию выявлено, что, несмотря на незначительные потери влажности коконов, заморенных в солнечном устройстве, время достижения влажности коконов до воздушно-сухого состояния одинаково с коконами, заморенными горячим воздухом на коконосушильном агрегате. По истечении этого времени коконы можно затаривать в мешки для длительного хранения до момента размотки на шелкомотальных фабриках.

Name of journalИЛМ-ФАН ВА ИННОВАЦИОН РИВОЖЛАНИШ
Number of editionИлм-фан ва инновацион ривожланиш илмий журнали 2024 йил 5-сон
View count 19

Web Address

DOI

Date of creation in the UzSCI system 28-11-2024

Read count 19

Date of publication 31-10-2024

Main LanguageRus

Pages41-53

Tags

тутовый шелкопряд

относительная влажность воздуха

живой кокон

теневая коконосушилка

коконосушильный агрегат

солнечное устройство

влажность кокона

замаривание кокона

воздушно-сухой кокон

испарение влаги из коконов

Русский

В данной работе отмечается актуальность использования солнечной энергии, в частности для замаривания коконов тутового шелкопряда. Приведены результаты экспериментов по исследованию температурного и влажностного режима внутри солнечного устройства парникового типа. Изменения температуры и влажности внутри солнечного устройства в процессе замаривания коконов измеряли по общеизвестной методике с использованием приборов, апробированных на практике. Разработана и предложена математическая формула для вычисления количества испарившейся из коконов влаги в процессе их замаривания в солнечном устройстве, приведены результаты вычисления. Как следует из полученных результатов, в связи с незначительным количеством расходуемой тепловой энергии при испарении влаги из коконов в процессе их тепловой обработки её влиянием на общий тепловой баланс устройства можно пренебречь. Приведены показатели изменения влажности коконов, заморенных в солнечном устройстве и коконосушильном агрегате, которые применяются в производстве для обработки коконов. Благодаря исследованию выявлено, что, несмотря на незначительные потери влажности коконов, заморенных в солнечном устройстве, время достижения влажности коконов до воздушно-сухого состояния одинаково с коконами, заморенными горячим воздухом на коконосушильном агрегате. По истечении этого времени коконы можно затаривать в мешки для длительного хранения до момента размотки на шелкомотальных фабриках.

Tags

тутовый шелкопряд

относительная влажность воздуха

живой кокон

теневая коконосушилка

коконосушильный агрегат

солнечное устройство

влажность кокона

замаривание кокона

воздушно-сухой кокон

испарение влаги из коконов

Ўзбек

Ushbu maqolada tut ipak qurti pillasi g‘umbagini jonsizlantirish jarayonida quyosh energiyasidan foydalanish masalasi ko‘rib chiqilgan. Maqolada issiqxona turidagi quyosh qurilmasi ichidagi harorat va namlik rejimlarini tadqiq etish bo‘yicha tajriba natijalari keltirilgan. Pilla g‘umbagini jonsizlantirish jarayonida quyosh qurilmasi ichidagi harorat va namlik o‘zgarishi aprobatsiyalangan asboblar yordamida, umumiy uslubga asoslanib amalga oshirildi. Tajriba natijalari asosida quyosh qurilmasi ichida pilla g‘umbagini jonsizlantirish jarayonida ulardan bug‘lanib chiqqan namlik miqdorini hisoblovchi matematik formula ishlab chiqildi va taklif etildi. Shuningdek, hisoblash natijalari taqdim qilindi. Hisob-kitob natijalaridan ko‘rinib turibdiki, quyosh qurilmasida issiqlik ishlovi berish jarayonida pilla namligining bug‘lanib chiqishiga juda oz miqdorda issiqlik energiyasi sarflanishi sababli uning qurilma umumiy issiqlik balansiga ta’sirini inobatga olmaslik ham mumkin. Bu holat pilla g‘umbagini jonsizlantirish jarayoni samaradorligini yanada oshirish imkonini beradi. Maqolada quyosh qurilmasi va ishlab chiqarishda pilla g‘umbagini jonsizlantirishda foydalanilayotgan pilla quritish agregatida ishlov berilgan pilla namligining o‘zgarishi natijalari bayon qilindi. Natijalardan ko‘rish mumkinki, quyosh qurilmasida g‘umbagi jonsizlantirilgan pillalar namlikni oz miqdorda yo‘qotishiga qaramasdan, ularning soyali pilla quritgichlarda havo namligidagi quruq pilla holatiga kelguniga qadar qurish davomiyligi pilla quritish agregatida ishlov berilgan pillalarning qurish davomiyligi bilan bir xil. Vaqt o‘tishi bilan pillalarni pillani qayta ishlash fabrikalarida chuvashga qadar uzoq muddatga saqlash uchun qoplarga joylash mumkin.

Tags

tirik pilla

tut ipak qurti

quyosh qurilmasi

pilla quritish agregati

pilla namligi

pilla g‘umbagini jonsizlantirish

havo namligidagi quruq pilla

havoning nisbiy namligi

pilladan namlikning bug‘lanishi

soyali pilla quritgich

English

This work reveals relevance of using solar energy, in particular, for exterminating silkworm cocoons. Findings from experiments made to study the temperature- and humidity conditions inside a greenhouse-type solar device have been presented. Changes in temperature and humidity inside the solar device during extermination of silkworm cocoons were measured using known methods and verified tools. The retrieved findings enabled developing a mathematical formula and calculating the amount of moisture evaporated from cocoons during the process of extermination of silkworm cocoons in the solar device, and the results of the calculation are being presented, too. The findings showed that the effect of insignificant amount of thermal energy consumed for evaporation of moisture from the cocoons during their heat treatment, on the overall thermal balance of the device can be neglected. Changes in humidity of cocoons with pupas exterminated in the solar device and in a cocoon drying unit used in manufacture for processing of cocoons, are being presented. The results showed that despite little loss of moisture in cocoons pupas of which were exterminated in the solar device, the time to reach the humidity of cocoons to an air-dry state is the same as for cocoons pupas of which were exterminated with hot air in a cocoon drying unit. Further the cocoons can be packed into bags for long-term storage until unwinding at silk-reeling factories.

Tags

silkworm

relative air humidity

solar device

shadow cocoon dryer

living cocoon

cocoon drying unit

cocoon humidity

killing pupa of silkworm cocoon

air-dry cocoon

evaporation of moisture from cocoons

№ Author name position Name of organisation

1 Umarov S.F. texnika fanlari nomzodi, “Pillaga dastlabki ishlov berish, standartlashtirish va sertifikatlashtirish” laboratoriyasi mudiri Ipakchilik ilmiy-tadqiqot instituti

№ Name of reference

1 Aerov, M. E., Todes, O. M., & Narynskiy D.A. (1979). Apparaty so statsionarnym zernistym sloyem. Gidravlicheskiye i teplovyye osnovy raboty [Devices with a stationary granular layer. Hydraulic and thermal fundamentals of work]. (In Russian). Lvov: Himiya Publ.

2 Afanasev, V. N., Afonin, A. A., & Isayev, S. I. (1988). Laboratornyj praktikum po termodinamike i teploperedache [Laboratory workshop on thermodynamics and heat transfer]. (In Russian). Moscow: Vysshaya shkola Publ.

3 Avezov, R. R., & Umarov, S. F. (2005). Sledyascheye solnechnoye ustroystvo dlya zamarivaniya shelkovichnykh kokonov [Solar tracking device for killing pupa of mulberry cocoons]. (In Russian). Proccedings of the IV Republican Conference on Physical Electronics (p. 175). Tashkent.

4 Baltabayev, S. D., & Parpiyev A. P. (1980). Suschka hlopka syrtsa [Drying raw cotton]. (In Russian). Tashkent: Ukituvchi Publ.

5 Kirillin, V. A., Sychyov, V. V., & Sheyndlin A. E. (1983). Tehnicheskaya termodinamika [Technical thermodynamics]. (In Russian). Moscow: Energoatomizdat Publ..

6 Rubinov, E. B. (1981). Tekhnologiya shyolka [Silk technology]. (In Russian). Moscow: Legkaya i pischevaya promyshlennost Publ.

7 Rubinov, E. B., Mukhamedov, M. M., Osipova, L. Kh., & Burnashev, I. Z. (1986). Shelkosyr’yo i kokonomotaniye [Silk raw materials and cocoon reeling]. (In Russian). (2nd., revised and expanded ed.). Mosсow: Legprombitizdat Publ.

8 Umarov, F. F., & Umarov, S. F. (2012). Solnechnyy teplovoy kollektor [Solar thermal collector]. (In Russian). Technologies of the XXI century, (2), 10–11.

9 Umarov, S. F. (2004a). Issledovaniye izmeneniya vlazhnosti kokonov v protsesse zamarivaniya ikh v solnechnom ustroystve [Study of changes in the humidity of cocoons during the process of killing pupa of cocoons in a solar device]. (In Russian). Texnika yulduzlari – Tech Stars, (2), 85–89.

10 Umarov, S. F. (2004b). Opredeleniya rezhima zamarivaniya kokonov na solnechnom ustrojstve [Determination of the mode of killing pupa of cocoons on a solar device]. Bulletin of Tashkent State Technical University, (2), 233–237.

11 Umarov, S. F. (2005). Sposob zamarivaniya zhivyлh kokonov energiyey solnechnogo izlucheniya [Method of killing of pupa in the living cocoons with solar radiation energy]. (In Russian). Textile Problems, (2), 27–29.

12 Umarov, S. F. (2007). Razrabotka i ispol’zovaniye solnechnogo teplovogo kollektora dlya zamarivaniya shelkovichnykh kokonov [Development and use of a solar thermal collector for killing pupa of mulberry cocoons]. (In Russian). [Abstract of PhD thesis, p. 26]. Tashkent.

13 Umarov, S. F. (2023a). Quyosh energiyasi yordamida pilla g‘umbagini zhonsizlantiruvchi qurilmaning takomillashtirilgan tazhriba namunasini tehnik ko‘rsatkichlarini aniqlash [Determination of technical parameters of a modernized prototype of a solar device for killing cocoons]. (In Uzbek). O‘zbekiston qishloq va suv ho‘zhaligi – Agriculture and Water Management Uzbekistan, 55–57.

14 Umarov, S. F. (2023b). Matematicheskaya model’ tempa izmeneniya temperatury vnutri solnechnoy teplovoy ustanovki dlya zamarivaniya kokonov tutovogo shelkopryada [Mathematical model of the rate of temperature change inside a solar thermal device for killing silkworm cocoons]. (In Russian). Science and Innovative Development, (6), 47–55.

15 Umarov, S., & Yuldoshev, Sh. (2000). Quyosh qurilmasi yordamida pilla g‘umbagini zhonsizlantirish zharayonlarini o‘rganish [Studying the processes of killing silkworm cocoons using a solar device]. (In Uzbek). Silk, (2), 16–19.

16 Umarov, S., Yuldashev, Sh., Oripov, S., & Zhabborov, H. (2000). Pillaga dastlabki ishlov berishda quyosh nuridan fojdalanish istiqbollari [Prospects for the use of solar radiation during primary cocoon processing]. (In Uzbek). Silk, (1), 10–12.

17 Yuldashev, Sh. & Umarov, S. (2002a). Model’ raschyota massy vlagi, isparyonnoy iz kokonov shelkopryada pri zamarivanii ikh v solnechnykh ustanovkakh [Model for calculating the mass of moisture evaporated from silkworm cocoons when they are marinated in solar units]. (In Russian). Bulletin of Tashkent State Technical University, (1), 55–58.

18 Yuldashev, Sh., & Umarov, S. (2001). Calculating moisture loss in silkworm cocoons upon death in hotbed solar units. Geliotekhnika, (4), 19–21.

19 Yuldashev, Sh., & Umarov, S. (2002b). Raschyot poteri vlagi shelkovichnyh kokonov v processe zamarivaniya v solnechnyh ustanovkah [Calculation of moisture loss of mulberry cocoons during pickling in solar units]. (In Russian). Youth in the Development of Science and Technology: Proceedings of the Scientific and Practical Conference of Gifted Students (vol. 2, p. 29). Tashkent.

20 Yuldashev, Sh., Umarov, F., & Umarov, S. (2003). Model’ raschyota poteri vlagi shelkovichnykh kokonov v protsesse zamarivaniya v solnechnyh ustanovkakh [Model for calculating moisture loss of silkworm cocoons during pickling in solar units]. (In Russian). Development of Technical Sciences in a Market Economy: Proceedings of the Republican Scientific and Practical Conference (vol. 2, pp. 42–43). Tashkent.

21 Yuldashev, Sh., Umarov, S., & Aripova, A. (2002). Ustroystvo dlya zamarivaniya kokonov shelkopryada i sushki fruktov solnechnymi luchami [Device for killing of pupa in the silkworm cocoons and drying fruits by solar rays]. (In Russian). Bulletin of Tashkent State Technical University, (4), 57.

22 Zaripov, N. O., & Umarov, S. F. (2005). Ispol’zovaniye energii solnechnogo izlucheniya v protsesse zamarivaniya shelkovichnykh kokonov [Using the energy of solar radiation in the process of killing pupa of mulberry cocoons]. (In Russian). Youth in the Development of Science and Technology: Proceedings of the V Scientific and Practical Conference of Gifted Students (pp. 93–94). Tashkent.

Waiting

№	Name of reference
1	Aerov, M. E., Todes, O. M., & Narynskiy D.A. (1979). Apparaty so statsionarnym zernistym sloyem. Gidravlicheskiye i teplovyye osnovy raboty [Devices with a stationary granular layer. Hydraulic and thermal fundamentals of work]. (In Russian). Lvov: Himiya Publ.
2	Afanasev, V. N., Afonin, A. A., & Isayev, S. I. (1988). Laboratornyj praktikum po termodinamike i teploperedache [Laboratory workshop on thermodynamics and heat transfer]. (In Russian). Moscow: Vysshaya shkola Publ.
3	Avezov, R. R., & Umarov, S. F. (2005). Sledyascheye solnechnoye ustroystvo dlya zamarivaniya shelkovichnykh kokonov [Solar tracking device for killing pupa of mulberry cocoons]. (In Russian). Proccedings of the IV Republican Conference on Physical Electronics (p. 175). Tashkent.
4	Baltabayev, S. D., & Parpiyev A. P. (1980). Suschka hlopka syrtsa [Drying raw cotton]. (In Russian). Tashkent: Ukituvchi Publ.
5	Kirillin, V. A., Sychyov, V. V., & Sheyndlin A. E. (1983). Tehnicheskaya termodinamika [Technical thermodynamics]. (In Russian). Moscow: Energoatomizdat Publ..
6	Rubinov, E. B. (1981). Tekhnologiya shyolka [Silk technology]. (In Russian). Moscow: Legkaya i pischevaya promyshlennost Publ.
7	Rubinov, E. B., Mukhamedov, M. M., Osipova, L. Kh., & Burnashev, I. Z. (1986). Shelkosyr’yo i kokonomotaniye [Silk raw materials and cocoon reeling]. (In Russian). (2nd., revised and expanded ed.). Mosсow: Legprombitizdat Publ.
8	Umarov, F. F., & Umarov, S. F. (2012). Solnechnyy teplovoy kollektor [Solar thermal collector]. (In Russian). Technologies of the XXI century, (2), 10–11.
9	Umarov, S. F. (2004a). Issledovaniye izmeneniya vlazhnosti kokonov v protsesse zamarivaniya ikh v solnechnom ustroystve [Study of changes in the humidity of cocoons during the process of killing pupa of cocoons in a solar device]. (In Russian). Texnika yulduzlari – Tech Stars, (2), 85–89.
10	Umarov, S. F. (2004b). Opredeleniya rezhima zamarivaniya kokonov na solnechnom ustrojstve [Determination of the mode of killing pupa of cocoons on a solar device]. Bulletin of Tashkent State Technical University, (2), 233–237.
11	Umarov, S. F. (2005). Sposob zamarivaniya zhivyлh kokonov energiyey solnechnogo izlucheniya [Method of killing of pupa in the living cocoons with solar radiation energy]. (In Russian). Textile Problems, (2), 27–29.
12	Umarov, S. F. (2007). Razrabotka i ispol’zovaniye solnechnogo teplovogo kollektora dlya zamarivaniya shelkovichnykh kokonov [Development and use of a solar thermal collector for killing pupa of mulberry cocoons]. (In Russian). [Abstract of PhD thesis, p. 26]. Tashkent.
13	Umarov, S. F. (2023a). Quyosh energiyasi yordamida pilla g‘umbagini zhonsizlantiruvchi qurilmaning takomillashtirilgan tazhriba namunasini tehnik ko‘rsatkichlarini aniqlash [Determination of technical parameters of a modernized prototype of a solar device for killing cocoons]. (In Uzbek). O‘zbekiston qishloq va suv ho‘zhaligi – Agriculture and Water Management Uzbekistan, 55–57.
14	Umarov, S. F. (2023b). Matematicheskaya model’ tempa izmeneniya temperatury vnutri solnechnoy teplovoy ustanovki dlya zamarivaniya kokonov tutovogo shelkopryada [Mathematical model of the rate of temperature change inside a solar thermal device for killing silkworm cocoons]. (In Russian). Science and Innovative Development, (6), 47–55.
15	Umarov, S., & Yuldoshev, Sh. (2000). Quyosh qurilmasi yordamida pilla g‘umbagini zhonsizlantirish zharayonlarini o‘rganish [Studying the processes of killing silkworm cocoons using a solar device]. (In Uzbek). Silk, (2), 16–19.
16	Umarov, S., Yuldashev, Sh., Oripov, S., & Zhabborov, H. (2000). Pillaga dastlabki ishlov berishda quyosh nuridan fojdalanish istiqbollari [Prospects for the use of solar radiation during primary cocoon processing]. (In Uzbek). Silk, (1), 10–12.
17	Yuldashev, Sh. & Umarov, S. (2002a). Model’ raschyota massy vlagi, isparyonnoy iz kokonov shelkopryada pri zamarivanii ikh v solnechnykh ustanovkakh [Model for calculating the mass of moisture evaporated from silkworm cocoons when they are marinated in solar units]. (In Russian). Bulletin of Tashkent State Technical University, (1), 55–58.
18	Yuldashev, Sh., & Umarov, S. (2001). Calculating moisture loss in silkworm cocoons upon death in hotbed solar units. Geliotekhnika, (4), 19–21.
19	Yuldashev, Sh., & Umarov, S. (2002b). Raschyot poteri vlagi shelkovichnyh kokonov v processe zamarivaniya v solnechnyh ustanovkah [Calculation of moisture loss of mulberry cocoons during pickling in solar units]. (In Russian). Youth in the Development of Science and Technology: Proceedings of the Scientific and Practical Conference of Gifted Students (vol. 2, p. 29). Tashkent.
20	Yuldashev, Sh., Umarov, F., & Umarov, S. (2003). Model’ raschyota poteri vlagi shelkovichnykh kokonov v protsesse zamarivaniya v solnechnyh ustanovkakh [Model for calculating moisture loss of silkworm cocoons during pickling in solar units]. (In Russian). Development of Technical Sciences in a Market Economy: Proceedings of the Republican Scientific and Practical Conference (vol. 2, pp. 42–43). Tashkent.
21	Yuldashev, Sh., Umarov, S., & Aripova, A. (2002). Ustroystvo dlya zamarivaniya kokonov shelkopryada i sushki fruktov solnechnymi luchami [Device for killing of pupa in the silkworm cocoons and drying fruits by solar rays]. (In Russian). Bulletin of Tashkent State Technical University, (4), 57.
22	Zaripov, N. O., & Umarov, S. F. (2005). Ispol’zovaniye energii solnechnogo izlucheniya v protsesse zamarivaniya shelkovichnykh kokonov [Using the energy of solar radiation in the process of killing pupa of mulberry cocoons]. (In Russian). Youth in the Development of Science and Technology: Proceedings of the V Scientific and Practical Conference of Gifted Students (pp. 93–94). Tashkent.