CHIQINDILARDAN VODOROD OLISH USULLARINI TADQIQOT QILISH

Toshmamatov Bobir Mansurovich; Valiyev Sunnatullo

Maqolada qattiq maishiy chiqindilarni (QMCh) atrof-muhitga ta’siri va uni qayta

ishlash darajasi tahlil qilingan. QMChlarni piroliz usulida qayta ishlash imkoniyatlari ko‘rib

chiqilgan. Olingan muqobil yoqilg‘i namunalarining tarkibi aniqlangan. Mualliflar tomonidan

shaxta shnek barabanli “piroliz+vodorod” qurilmasining issiqlik sxemasi ishlab chiqilgan va

ratsional ish rejimi asoslangan. Qattiq maishiy chiqindilarni qayta ishlash natijasida olingan

pirogazni termik qizdirish natijasida vodorod olish usulining samaradorligi 70÷80% ga baholangan

va ishlab chiqarilgan vodorodning narxi 1500÷2000 so‘m/kg ni tashkil qilishi aniqlangan.

Журнал номиMUQOBIL ENERGETIKA
Нашр номи04 (11) 2023
Кўришлар сони 3

Internet ҳавола

DOI

UzSCI тизимида яратилган сана 16-09-2024

Ўқишлар сони 3

Нашр санаси 28-12-2023

Мақола тилиO'zbek

Саҳифалар сони64-70

Калит сўзлар

harorat rejimi

qattiq maishiy chiqindi

termik qayta ishlash

piroliz usuli

vodorod yoqilg‘isi

yashil texnologiya

Ўзбек

Maqolada qattiq maishiy chiqindilarni (QMCh) atrof-muhitga ta’siri va uni qayta

ishlash darajasi tahlil qilingan. QMChlarni piroliz usulida qayta ishlash imkoniyatlari ko‘rib

chiqilgan. Olingan muqobil yoqilg‘i namunalarining tarkibi aniqlangan. Mualliflar tomonidan

shaxta shnek barabanli “piroliz+vodorod” qurilmasining issiqlik sxemasi ishlab chiqilgan va

ratsional ish rejimi asoslangan. Qattiq maishiy chiqindilarni qayta ishlash natijasida olingan

pirogazni termik qizdirish natijasida vodorod olish usulining samaradorligi 70÷80% ga baholangan

va ishlab chiqarilgan vodorodning narxi 1500÷2000 so‘m/kg ni tashkil qilishi aniqlangan.

Калит сўзлар

harorat rejimi

qattiq maishiy chiqindi

termik qayta ishlash

piroliz usuli

vodorod yoqilg‘isi

yashil texnologiya

№ Муаллифнинг исми Лавозими Ташкилот номи

1 Toshmamatov B.M. katta o'qituvchi QarMII

2 Valiyev S.. talaba QarMII

№ Ҳавола номи

1 Узаков Г. Н., Базаров О. Ш., Давланов Х. А., Тошмаматов Б. М. Научно-инновационные разработки Каршинского инженерно-экономического института по использованию возобновляемых источников энергии. Беларусь-Узбекистан: Формирование рынка инновационной продукции. Сборник материалов научно-практической конференции (Минск, 14–15 марта 2023 г., стр. 353-356.

2 Toshmamatov, B. (2022). Solar energy application in municipal solid waste: experience, results and efficiency. Muqobil Energetika, 1 (04), 84–96. Retrieved from

3 Muradov, I., Toshmamatov, B.M., Kurbanova, N.M., Baratova, S.R., Temirova, L. (2019). Development of A Scheme For The Thermal Processing of Solid Household. International Journal of Advanced Research in Science, Engineering and Technology Vol. 6, Issue 9, September 2019, India, 10784-10787 pp

4 Uzakov, G.N., Toshmamatov, B.M., Shomuratova, S.M., Temirova, L.Z. (2019). Calculation of energy efficiency of the solar installation for the processing of municipal solid waste. International Journal of Advanced Research in Science, Engineering and Technology Vol. 6, Issue 12, December 2019.

5 Toshmamatov, B. M, Uzakov, G. N, Kodirov, I. N & Khatamov, I. A. (2020). Calculation of the heat balance of the solar installation for the thermal processing of municipal solid waste. International Journal of Applied Engineering Research and Development (IJAERD) ISSN (P): 2250–1584; ISSN (E): 2278–9383 Vol. 10, Issue 1, Jun 2020, 21–30.

6 Uzakov, G.N., Davlonov, H.A., Holikov, K.N. (2018). Study of the Influence of the Source Biomass Moisture Content on Pyrolysis Parameters. Applied Solar Energy (English translation of Geliotekhnika), 2018, 54(6), стр. 481–484.

7 Toshmamatov, B., Davlonov, Kh., Rakhmatov, O., Toshboev, A. (2021). Recycling of municipal solid waste using solar energy. IOP Conf. Series: Materials Science and Engineering. 1030 (2021) 012165. doi:10.1088/1757-899X/1030/1/012165.

8 Aliyarova, L.A., Uzakov, G.N., Toshmamatov, B.M. (2021). The efficiency of using a combined solar plant for the heat and humidity treatment of air. IOP Conf. Series: Earth and Environmental Science. 723 (2021) 052002. doi:10.1088/1755-1315/723/5/052002.

9 Uzakov, G.N., Shomuratova, S.M. and Toshmamatov, B.M. (2021). Study of a solar air heater with a heat exchanger – accumulator. IOP Conf. Series: Earth and Environmental Science. 723 (2021) 052013. doi:10.1088/1755-1315/723/5/052013.

10 Toshmamatov B.M., Shomuratova S.M., Mamedova D.N., Samatova S.H.Y., Chorieva S. 2022 Improving the energy efficiency of a solar air heater with a heat exchanger – Accumulator. 1045(1), 012081.

11 Kodirov I.N., Toshmamatov B.M., Aliyarova L.A., Shomuratova S.M., Chorieva S. 2022 Experimental study of heliothermal processing of municipal solid waste based on solar energy. IOP Conference Series: Earth and Environmental Science. 1070(1), 012033.

12 Uzakov G.N, Shomuratova S.M. and Toshmamatov B.M. 2021 Study of a solar air heater with a heat exchanger – accumulator IOP Conf. Series: Earth and Environmental Science. 723 (2021) 052013. doi:10.1088/1755-1315/723/5/052013.

13 Faiziev T.A. and Toshmamatov B.M. 2021 Mathematical model of heat accumulation in the substrate and ground of a heliogreenhouse IOP Conf. Series: Earth and Environmental Science. 723 032006. doi:10.1088/1755-1315/723/3/032006.

14 Faiziev T.A. and Toshmamatov B.M. 2021 Mathematical model of heat accumulation in the substrate and ground of a heliogreenhouse IOP Conf. Series: Earth and Environmental Science. 723 032006. doi:10.1088/1755-1315/723/3/032006.

15 Узаков Г.Н., Темирова Д.У. Преимущества использования водоугольного топлива в системах альтернативного топливоснабжения. Альтернативная энергетика. Научно – технический журнал. №8 31.03.2023 г. Стр. 109-114.

16 Узаков Г.Н., Давланов Х.А., Тошмаматов Б.М., Камалов Б.И. Анализ гибридных систем отопления жилых зданий, использующих ВИЭ. Альтернативная энергетика. Научно – технический журнал. №8 31.03.2023 г. Стр. 7-13.

17 Toshmamatov B, Davlonov Kh, Rakhmatov O, Toshboev A, Rakhmatov A 2023 Modeling of thermal processes in a solar installation for thermal processing of municipal solid waste. AIP Conference Proceedings 2612 050027

18 . Sattorov B., Davlonov Kh., Toshmamatov B. and Arziev B. Increasing energy efficiency combined device solar dryer-water heater with heat accumulator. BIO Web of Conferences , 71 024 71 024 (2023)

19 Toshmamatov B., Kodirov I. and Davlonov Kh.. 2023 Determination of the energy efficiency of a flat reflector solar air heating collector with a heat accumulator. E3S Web of Conferences 402, 05010.

20 Toshmamatov B., Shomuratova S., Safarova S.. 2023 Improving the energy efficiency of a solar air heater with heat accumulator using flat reflectors. E3S Web of Conferences 411, 01026.

21 Nosov V, Tindova M, Zhichkin K and Mirgorodskaya M 2019 Application development for accidental pollution assessment on chemical manufacturers (pollution from chemical waste). IOP Conference Series: Earth and Environmental Science 337(1) 012014

22 Flaksman A S, Mozgovoy A I, Lopatkin D S, Dikikh V A, Shamsov I S, Romanova J A, Morkovkin D E and Bovtrikova E V 2021 Prospects for the development of alternative energy sources in the world energy. IOP Conference Series: Earth and Environmental Science 723(5) 052040

23 Sidorov A, Abdullozoda R, Sadullozoda S, Saifiddinzoda O and Abdullozoda I 2021 Method for determining the state of an grounding device. IOP Conference Series: Earth and Environmental Science 808 012005

24 Filippova I A, Ermakova A M, Gabdrakhmanova L N, Bogdanova J Z , Cherepanova V N, Abramova S V 2019 Innovative approach to assessing natural resources. International Journal of Recent Technologi and Engineering 6 998-1004

Кутилмоқда

№	Муаллифнинг исми	Лавозими	Ташкилот номи
1	Toshmamatov B.M.	katta o'qituvchi	QarMII
2	Valiyev S..	talaba	QarMII

№	Ҳавола номи
1	Узаков Г. Н., Базаров О. Ш., Давланов Х. А., Тошмаматов Б. М. Научно-инновационные разработки Каршинского инженерно-экономического института по использованию возобновляемых источников энергии. Беларусь-Узбекистан: Формирование рынка инновационной продукции. Сборник материалов научно-практической конференции (Минск, 14–15 марта 2023 г., стр. 353-356.
2	Toshmamatov, B. (2022). Solar energy application in municipal solid waste: experience, results and efficiency. Muqobil Energetika, 1 (04), 84–96. Retrieved from
3	Muradov, I., Toshmamatov, B.M., Kurbanova, N.M., Baratova, S.R., Temirova, L. (2019). Development of A Scheme For The Thermal Processing of Solid Household. International Journal of Advanced Research in Science, Engineering and Technology Vol. 6, Issue 9, September 2019, India, 10784-10787 pp
4	Uzakov, G.N., Toshmamatov, B.M., Shomuratova, S.M., Temirova, L.Z. (2019). Calculation of energy efficiency of the solar installation for the processing of municipal solid waste. International Journal of Advanced Research in Science, Engineering and Technology Vol. 6, Issue 12, December 2019.
5	Toshmamatov, B. M, Uzakov, G. N, Kodirov, I. N & Khatamov, I. A. (2020). Calculation of the heat balance of the solar installation for the thermal processing of municipal solid waste. International Journal of Applied Engineering Research and Development (IJAERD) ISSN (P): 2250–1584; ISSN (E): 2278–9383 Vol. 10, Issue 1, Jun 2020, 21–30.
6	Uzakov, G.N., Davlonov, H.A., Holikov, K.N. (2018). Study of the Influence of the Source Biomass Moisture Content on Pyrolysis Parameters. Applied Solar Energy (English translation of Geliotekhnika), 2018, 54(6), стр. 481–484.
7	Toshmamatov, B., Davlonov, Kh., Rakhmatov, O., Toshboev, A. (2021). Recycling of municipal solid waste using solar energy. IOP Conf. Series: Materials Science and Engineering. 1030 (2021) 012165. doi:10.1088/1757-899X/1030/1/012165.
8	Aliyarova, L.A., Uzakov, G.N., Toshmamatov, B.M. (2021). The efficiency of using a combined solar plant for the heat and humidity treatment of air. IOP Conf. Series: Earth and Environmental Science. 723 (2021) 052002. doi:10.1088/1755-1315/723/5/052002.
9	Uzakov, G.N., Shomuratova, S.M. and Toshmamatov, B.M. (2021). Study of a solar air heater with a heat exchanger – accumulator. IOP Conf. Series: Earth and Environmental Science. 723 (2021) 052013. doi:10.1088/1755-1315/723/5/052013.
10	Toshmamatov B.M., Shomuratova S.M., Mamedova D.N., Samatova S.H.Y., Chorieva S. 2022 Improving the energy efficiency of a solar air heater with a heat exchanger – Accumulator. 1045(1), 012081.
11	Kodirov I.N., Toshmamatov B.M., Aliyarova L.A., Shomuratova S.M., Chorieva S. 2022 Experimental study of heliothermal processing of municipal solid waste based on solar energy. IOP Conference Series: Earth and Environmental Science. 1070(1), 012033.
12	Uzakov G.N, Shomuratova S.M. and Toshmamatov B.M. 2021 Study of a solar air heater with a heat exchanger – accumulator IOP Conf. Series: Earth and Environmental Science. 723 (2021) 052013. doi:10.1088/1755-1315/723/5/052013.
13	Faiziev T.A. and Toshmamatov B.M. 2021 Mathematical model of heat accumulation in the substrate and ground of a heliogreenhouse IOP Conf. Series: Earth and Environmental Science. 723 032006. doi:10.1088/1755-1315/723/3/032006.
14	Faiziev T.A. and Toshmamatov B.M. 2021 Mathematical model of heat accumulation in the substrate and ground of a heliogreenhouse IOP Conf. Series: Earth and Environmental Science. 723 032006. doi:10.1088/1755-1315/723/3/032006.
15	Узаков Г.Н., Темирова Д.У. Преимущества использования водоугольного топлива в системах альтернативного топливоснабжения. Альтернативная энергетика. Научно – технический журнал. №8 31.03.2023 г. Стр. 109-114.
16	Узаков Г.Н., Давланов Х.А., Тошмаматов Б.М., Камалов Б.И. Анализ гибридных систем отопления жилых зданий, использующих ВИЭ. Альтернативная энергетика. Научно – технический журнал. №8 31.03.2023 г. Стр. 7-13.
17	Toshmamatov B, Davlonov Kh, Rakhmatov O, Toshboev A, Rakhmatov A 2023 Modeling of thermal processes in a solar installation for thermal processing of municipal solid waste. AIP Conference Proceedings 2612 050027
18	. Sattorov B., Davlonov Kh., Toshmamatov B. and Arziev B. Increasing energy efficiency combined device solar dryer-water heater with heat accumulator. BIO Web of Conferences , 71 024 71 024 (2023)
19	Toshmamatov B., Kodirov I. and Davlonov Kh.. 2023 Determination of the energy efficiency of a flat reflector solar air heating collector with a heat accumulator. E3S Web of Conferences 402, 05010.
20	Toshmamatov B., Shomuratova S., Safarova S.. 2023 Improving the energy efficiency of a solar air heater with heat accumulator using flat reflectors. E3S Web of Conferences 411, 01026.
21	Nosov V, Tindova M, Zhichkin K and Mirgorodskaya M 2019 Application development for accidental pollution assessment on chemical manufacturers (pollution from chemical waste). IOP Conference Series: Earth and Environmental Science 337(1) 012014
22	Flaksman A S, Mozgovoy A I, Lopatkin D S, Dikikh V A, Shamsov I S, Romanova J A, Morkovkin D E and Bovtrikova E V 2021 Prospects for the development of alternative energy sources in the world energy. IOP Conference Series: Earth and Environmental Science 723(5) 052040
23	Sidorov A, Abdullozoda R, Sadullozoda S, Saifiddinzoda O and Abdullozoda I 2021 Method for determining the state of an grounding device. IOP Conference Series: Earth and Environmental Science 808 012005
24	Filippova I A, Ermakova A M, Gabdrakhmanova L N, Bogdanova J Z , Cherepanova V N, Abramova S V 2019 Innovative approach to assessing natural resources. International Journal of Recent Technologi and Engineering 6 998-1004