دانشگاه سمنان

 آمار

تعداد نشریات21
تعداد شماره‌ها624
تعداد مقالات9,162
تعداد مشاهده مقاله67,496,093
تعداد دریافت فایل اصل مقاله8,025,433
Amin, Zeinab, Kamil Salihoglu, Nezih, Amin, Zahra. (1400). Disinfection Process with Solar Drying System. نشریه هنرهای کاربردی, 8(1), 23-28. doi: 10.22075/jhmtr.2020.20607.1286
Zeinab Amin; Nezih Kamil Salihoglu; Zahra Amin. "Disinfection Process with Solar Drying System". نشریه هنرهای کاربردی, 8, 1, 1400, 23-28. doi: 10.22075/jhmtr.2020.20607.1286
Amin, Zeinab, Kamil Salihoglu, Nezih, Amin, Zahra. (1400). 'Disinfection Process with Solar Drying System', نشریه هنرهای کاربردی, 8(1), pp. 23-28. doi: 10.22075/jhmtr.2020.20607.1286
Amin, Zeinab, Kamil Salihoglu, Nezih, Amin, Zahra. Disinfection Process with Solar Drying System. نشریه هنرهای کاربردی, 1400; 8(1): 23-28. doi: 10.22075/jhmtr.2020.20607.1286

Disinfection Process with Solar Drying System

Journal of Heat and Mass Transfer Research
دوره 8، شماره 1 - شماره پیاپی 15، مرداد 2021، صفحه 23-28    اصل مقاله (1023.66 K)
نوع مقاله: Full Length Research Article
شناسه دیجیتال (DOI): 10.22075/jhmtr.2020.20607.1286
نویسندگان
Zeinab Amin* 1؛ Nezih Kamil Salihoglu2؛ Zahra Amin3
1Department of Environmental Engineering, Faculty of Engineering, Uludag University,Bursa, 16059, Turkey
2Department of Environmental Engineering, Faculty of Engineering, Uludag University, 16059, Bursa, TURKEY,
3Department of Biosystem Engineering, Faculty of Engineering, Uludag University, 16059, Bursa, TURKEY,
تاریخ دریافت: 23 خرداد 1399،  تاریخ بازنگری: 13 آذر 1399،  تاریخ پذیرش: 13 آذر 1399 
چکیده
COVID-19 has become a health threat around the world. Mask deficiency can be expected during a pandemic infection. The stability of viruses at different temperatures and relative humidity was assessed according to the type of contaminated surface material. With increasing temperature, the permanence of viruses decreases, and in proportion to the increase in temperature should not be damage to the quality of objects. Solar disinfection is one of the new methods of using renewable resources. By designing an integrated solar drying system with the phase change material, the internal temperature of the system reaches 54℃ in April and the masks are disinfected with 3036 Wh/m2 internal cumulative solar radiation. By using the appropriate equipment in the system, the temperature difference inside and outside the system was reached 30℃. A correlation coefficient of 95% in the MATLAB confirmed that the curve fit was good. The main purpose of this research is to identify appropriate solutions for disinfection and consultation with scientific literature. The results showed that the most appropriate hygienic and economical disinfection method was the use of solar energy.
کلیدواژه‌ها
mask؛ pandemic infection؛ renewable resources؛ integrated solar drying system
عنوان مقاله [English]
فرآیند ضد عفونی با سیستم خشک کن خورشیدی
چکیده [English]
کووید 19در سراسر جهان به تهدیدی برای سلامتی تبدیل شده است. در طول عفونت همه گیر می توان کمبود ماسک را مشاهده نمود. پایداری ویروس ها در دماهای مختلف و رطوبت نسبی با توجه به نوع سطح آلوده ارزیابی میشود. با افزایش دما ، ماندگاری ویروس ها در سطوح کاهش می یابد که متناسب با افزایش درجه حرارت نباید به کیفیت اجسام آسیب برسد. ضد عفونی خورشیدی یکی از روشهای جدید استفاده از منابع تجدیدپذیر می باشد. با طراحی سیستم خشک کن خورشیدی یکپارچه با مواد تغییر فاز ، دمای داخلی سیستم در ماه آوریل به 54درجه سانتیگراد می رسد و ماسک ها با در یافت 3036 وات ساعت بر متر مربع تابش خورشیدی تجمعی داخلی ضد عفونی می شوند. با به کارگیری تجهیزات مناسب در سیستم ، اختلاف دما در داخل و خارج سیستم به سی درجه سانتیگراد می رسد. ضریب همبستگی 95٪ در متلب مناسب بودن انطباق منحنی را تایید می نماید. هدف اصلی این تحقیق شناسایی راه حل های مناسب برای گندزدایی و مشاوره با ادبیات علمی است. نتایج نشان داد که مناسب ترین روش ضد عفونی بهداشتی و اقتصادی استفاده از انرژی خورشیدی می باشد.
کلیدواژه‌ها [English]
ماسک, عفونت همه گیر, منابع تجدیدپذیر, سیستم خشک کن خورشیدی یکپارچه
مراجع
[1] Prakash, O., Kumar, A. 2013. Historical review and recent trends in solar drying systems. International Journal of Green Energy, 10(7):690-738.
[2] Chan, K. H., Peiris, J. S. M., Lam, S. Y., Poon, L. L. M., Yuen, K. Y., Seto, W. H. 2011. The effects of temperature and relative humidity on the viability of the SARS coronavirus. Advances in Virology. 2011: 1-8.
[3] Chua, M. H., Cheng, W., Goh, S. S., Kong, J., Li, B., Lim, J. Y. C., Mao, L., Wang, S., Xue, K., Yang, L., Ye, E., Zhang, K., Cheong, W. C. D., Tan, B. H., Li, Z., Tan, B. H., Loh, X. J. 2020. Face Masks in the New COVID-19 Normal: Materials, Testing, and Perspectives, pp. 1-40.
[4] Lundgren, E. 2014. A method for water disinfection with solar pasteurisation for rural areas of Bangladesh En metod för vattenrening med hjälp av solenergi för landsbygdsområden i Bangladesh, pp. 1-66.
[5] Wazoodle Fabrics, Posted in PPE Fabrics Fabric Finders by Wazoodle Fabrics Quality Team. 2020. Fabrics that can be used to make a face mask. Available: https://www.wazoodle.com/blog/face-mask-fabrics/. [4 August 2020].
[6] BMAS/BMG. 2020. Template for the Federal Government's Crisis Team. Available: https://www.bmas.de/SharedDocs/Downloads/DE/Thema-Arbeitsschutz/einsatz-chutzmasken-einrichtungen- gesundheitswesen-englisch-2. pdf? _blob=publicationFile&v=2. [31 March 2020].
[7] The Government of grand duchy 777of Luxembourg. 2020. Available: https://mteess.gouvernement.lu/en.html. [5 May 2020].
[8] Arnstein, T. 2020. How to Reuse and Dispose of Your Masks Safely, The beijinger. 2020. Available:https://www.thebeijinger.com/blog/2020/02/18/how-reuse-and-dispose-your-masks-safely. [18 Feb. 2020].
28 Z. Amin/ JHMTR 8(2021) 23- 28
[9] Daud, L. E. I., Simate, I. N. 2017. Drying Kinetics of Sliced Pineapples in a Solar Conduction Dryer. Energy and Environment Research. 7(2):14-26.
[10] Visavale, G. L. 2012. Principles, Classification and Selection of Solar Dryers. Solar Drying: Fundamentals, Applications and Innovations. Singapore, pp.1-50.
[11] Worldometers. 2020. Available: info/coronavirus/. [30 May 2020].
[12] The Newyork Times. 2020. Available: https://www.nytimes.com/2020/03/22/health/warm-weather-coronavirus.html. [22 March 2020].
[13] Salihoglu, N.K., Pinarli, V., Salihoglu, G. 2007. Solar drying in sludge management in Turkey. Renewable Energy. 32(10): 1661-1675.
[14] Çerçi, K.N., Daş, M. 2019. Modeling of heat transfer coefficient in solar greenhouse type drying systems. Sustainability. 11(18): 1-16.
[15] Rokade, S.S., Wagh, M.M., Bagi, J.S. 2018. A review of solar air dryers based on phase change materials as thermal storage. Energy Safety and Energy Economy. 5: 42-44.
[16] Boda, M., Papade, C., 2017. Analysis of Solar Dryer using Tono Therm M-65 Phase Change Material. Atlantis Press. 137: 35-40.
[17] El Khadraoui, A., Bouadila, S., Kooli, S., Farhat, A., Guizani, A. 2017. Thermal behavior of indirect solar dryer: nocturnal usage of solar air collector with PCM. Journal of Cleaner Production. 148: 37-48.
[18] Shalaby, S.M., Bek, M.A. 2014. Experimental investigation of a novel indirect solar dryer implementing PCM as energy storage medium. Energy Conversion and Management. 83: 1-8.
[19] Whole Sale Surgical mask. 2020. Available: https://wholesalesurgicalmask.net/. [5 April 2020].
[20] Van Doremalen, N., Bushmaker, T., Munster, V. J. 2013. Stability of middle east respiratory syndrome coronavirus (MERS-CoV) under different environmental conditions. Eurosurveillance, 18(38):1-4.
[21] Duan, S.M., Zhao, X.S., Wen, R.F., Huang, J.J., Pi, G.H., Zhang, S.X. 2003. Stability of SARS coronavirus in human specimens and environment and its sensitivity to heating and UV irradiation. Biomedical and Environmental Sciences, 16(3): 246-255
[22] Sizun, J., Yu, M.W., Talbot, P.J. 2000. Survival
of human coronaviruses 229E and OC43 in
suspension and after drying on surfaces: a possible source of hospital-acquired infections. Journal of Hospital Infection. 46: 55-60.
[23] Warnes, S.L., Little, Z.R., Keevil, C.W. 2015. Human Coronavirus 229E Remains Infectious on Common Touch Surface Materials. MBio. 6(6):1-10.
[24] European Centre for Disease Prevention and Control. Infection prevention and control for COVID-19 in healthcare settings. 2020. Elsevier’s Novel Coronavirus Information Center.
[25] Rowan, N. J., Laffey, J. G. 2020. Challenges and solutions for addressing critical shortage of supply chain for personal and protective equipment (PPE) arising from Coronavirus disease (COVID19) pandemic – Case study from the Republic of Ireland. Science of the Total Environment. 725: 1-9.
[26] Yan, R., Cillrud, S., Magadini, D., Yan, B. 2020. A Study Looks at How to Disinfect Your Mask at Home. Available: https://blogs.ei.columbia.edu/2020/04/21/coronavirus-disinfect-mask-home/. [21 April 2020].
[27] Binder, German government recommends use of drying chambers to combat shortage of face masks. 2020. Available: https://www.binder-world.com/en/news-press/news-updates/drying-chambers-to-lend-a-helping-hand. [April 2020].
[28] Carlos Rubio-Romero, J., del Carmen Pardo-Ferreira, M., Antonio Torrecilla García, J., Calero-Castro, S. 2020. Disposable masks: Disinfection and sterilization for reuse, and non-certified manufacturing, in the face of shortages during the COVID-19 pandemic. Safety Science, pp.1-38.
[29] Engineering ToolBox. 2020. Available: https://www.engineeringtoolbox.com/thermal-conductivity-d_429.html. [26 May 2020].
[30] Zilles, J.U. 2017. Thermally Conductive Additives. Fillers for Polymer Applications. pp. 355-374.
[31] Patterson, J.E., Miers, R.J. 2010. The Thermal Conductivity of Common Tubing Materials Applied in a Solar Water Heater Collector. In: 46th ASC Annual International Conference. Wenthworth Institute of technology, ed.T. Sulbaran (Boston, MA). pp. 1-7.

آمار
تعداد مشاهده مقاله: 766
تعداد دریافت فایل اصل مقاله: 366


سامانه مدیریت نشریات علمی. قدرت گرفته از سیناوب