Ứng dụng công nghệ chiếu xạ diệt khuẩn bằng tia cực tím trong lĩnh vực robot diệt khuẩn: Đánh giá tổng quan
Tóm tắt: 141
| 
PDF: 91 
##plugins.themes.academic_pro.article.main##
Author
Từ khóa:
Chiếu xạ diệt khuẩn bằng tia cực tím (UVGI)
UV-C
Robot diệt khuẩn
Tóm tắt
Chiếu xạ diệt khuẩn bằng tia cực tím (UVGI) đã có những phát triển đáng kể như là một giải pháp thay thế đầy lạc quan cho phương pháp diệt khuẩn bằng hóa chất để khử trùng bề mặt và không khí trong lĩnh vực chăm sóc sức khỏe. Việc ứng dụng UVGI trong công nghệ robot đã mở ra những cơ hội mới trong việc phát triển robot diệt khuẩn, cho phép ngăn chặn sự lây truyền mầm bệnh, giảm sự can thiệp của con người và lây nhiễm chéo, do đó đạt được hiệu quả diệt khuẩn nhanh chóng và thân thiện với môi trường. Mục tiêu của bài báo này là đánh giá những thành tựu nổi bật trong lĩnh vực robot diệt khuẩn UV-C. Đánh giá này dựa trên các báo cáo về 35 loại robot diệt khuẩn UV-C cả trong lĩnh vực nghiên cứu hàn lâm và thương mại. Các xu hướng hiện nay và tương lai trong công nghệ đèn UV-C và các tính năng kỹ thuật của robot cũng được thảo luận.
Tài liệu tham khảo
-
[1] Schwalm, Reinhold. UV Coatings: Basics, Recent Developments and New Applications. Elsevier, 2006.
[2] Bolton, James R., and Christine Anne Cotton. The Ultraviolet Disinfection Handbook. American Water Works Association, 2011.
[3] Schahawi, Diab-El, et al. “Ultraviolet Disinfection Robots to Improve Hospital Cleaning: Real Promise or Just a Gimmick?” Antimicrobial Resistance & Infection Control, vol. 10, no. 1, 2021, pp. 1–3.
[4] Oguma, Kumiko, et al. “Photoreactivation of Escherichia Coli after Low-or Medium-Pressure UV Disinfection Determined by an Endonuclease Sensitive Site Assay”. Applied and Environmental Microbiology, vol. 68, no. 12, 2002, pp. 6029–35.
[5] Schmid, Julian, et al. “UV-C Inactivation of Legionella Rubrilucens”. GMS Hygiene and Infection Control, vol. 12, 2017.
[6] Modest, Michael F. Radiative Heat Transfer. Academic press, 2013.
[7] Kowalski, Wladyslaw. “Mathematical Modeling of UV Disinfection”. Ultraviolet Germicidal Irradiation Handbook, Springer, 2009, pp. 51–72.
[8] Phan, Nguyen Duy Minh, Ngo Quoc Huy Tran, Le Anh Doan, Quang Truong Vo, et al. “Numerical Study of Ultraviolet Germicidal Effect Against Virus”. Regional Conference in Mechanical Manufacturing Engineering, Springer, 2022, pp. 913–24.E.
[9] Mitscherlich, Eilhard, and Elmer H. Marth. Microbial Survival in the Environment: Bacteria and Rickettsiae Important in Human and Animal Health. Springer Science & Business Media, 2012.
[10] Kowalski, Wladyslaw. Ultraviolet Germicidal Irradiation Handbook: UVGI for Air and Surface Disinfection. Springer science & business media, 2010.
[11] UVD Robotics. Available online: https://uvd.blue-ocean-robotics.com/ (accessed on June 25, 2022).
[12] XENEX Disinfection Services, “Xenex LightStrike UV Robots Deactivate SARS-CoV-2 on Surfaces in 2 Minutes in New Peer Reviewed Study”, 2020. Available online: https://www.newswise.com/coronavirus/xenex-lightstrike-uv-robots-deactivate-sars-cov-2-on-surfaces-in-2-minutes-in-new-peer-reviewed-study (accessed on June 25, 2022).
[13] The Robot Report Staff, “Jasmin and Lavender disinfection robots launched by Geek+ worldwide in response to pandemic”, 2020. Available online: https://www.therobotreport.com/jasmin-lavender-geekplus-launches-two-disinfection-robots-worldwide/ (accessed on June 25, 2022).
[14] The Robot Report Staff, “Omron Asia Pacific and Techmetics Robotics launch LD UVC disinfection robot”, 2020. Available online:https://www.therobotreport.com/omron-asia-pacific-techmetics-robotics-launch-disinfection-robot/ (accessed on June 25, 2022).
[15] Infection Prevention Technologies LLC, “UV-C disinfection robots more effective than pulsed xenon models, study finds”, 2015. Available online: https://www.cleanroomtechnology.com/news/article_page/UVC_disinfection_robots_more_effective_than_pulsed_xenon_models_study_finds/107372/ (accessed on June 25, 2022).
[16] Bluebotics, “Robot scales up the fight against viruses”, 2022. Available online: https://bluebotics.com/uvc-disinfection-robot-fights-viruses/ (accessed on June 25, 2022).
[17] Sterilray, “Real disinfection robots”. Available online: https://sterilray.com/sterilray-com/products/sterilray-autonomous-disinfection-vehicle-adv/ (accessed on July 15, 2022).
[18] Techmetics robotics. Available online: https://www.techmetics-group.com/products/techi-uv-disinfection/ (accessed on July 15, 2022).
[19] Safe space technologies. Available online: https://www.safe-space.us/roveruv-mobile-disinfection-robot (accessed on July 15, 2022).
[20] Ava robotics. Available online: https://www.avarobotics.com/disinfectionrobots (accessed on July 15, 2022).
[21] Available online: https://prescientx.com/uv-robots (accessed on June 15, 2022).
[22] Vtrac robotics. Available online: https://www.vtracrobotics.com/product/uv-sterilizing-robot/ (accessed on July 15, 2022).
[23] Shenzhen Youibot Robotics, “YOUIBOT ARIS-K2 UV Disinfection Robot”. Available online: https://www.lotsofbots.com/en/shenzhen-youibot-robotics-coltd/youibot-aris-k2-uv-disinfection-robot/ (accessed on June 15, 2022).
[24] Ateago, Available online: http://www.ateago.com/productinfo/html (accessed on June 15, 2022).
[25] Available online: https://www.ubtrobot.com/
AdibotA/index.aspx (accessed on June 15, 2022).
[26] Jetbrain ASOLARIS. Available online: https://jetbrain.ai/#/robots/lytbot (accessed on June 15, 2022).
[27] Addverb Technologies. Available online: https://addverb.com/product/decimator-uv-disinfection-robot/ (accessed on July 15, 2022).
[28] Y V PHANI RAJ, “Hyderbad-based H-Bots building new humanoid robot”, 2020. Available online: https://telanganatoday.com/h-bots-building-new-humanoid-robot (accessed on July 15, 2022).
[29] OTSAW, “The world's first UV-C LED disinfection robot”. Available online: https://otsaw.com/o-rx-disinfection-robot/ (accessed on July 15, 2022).
[30] Dof robotics, “DOF Robotics presents healthcare solutions to combat COVID-19”, 2021. Available online: https://dofrobotics.com/pr/presents-healthcare-solutions-to-combat-covid-19 (accessed on July 15, 2022).
[31] Available online: https://milvusrobotics.com/products/seit-uv (accessed on July 15, 2022).
[32] Inovasyon Engineering. Available online: https://www.inovasyonmuhendislik.com/en/products/covid-inota (accessed on July 15, 2022).
[33] Available online: https://www.keenonrobot.com/EN/Product/pro3.html (accessed on July 15, 2022).
[34] Available online: https://www.pudurobotics.com/product/detail/puductor (accessed on July 15, 2022).
[35] Available online: http://www.tmirob.com/products?cate=3 (accessed on July 15, 2022).
[36] Available online:. https://www.tradeindia.com/products/milagrow-robocop-indoor-disinfection-robot-6429368.html (accessed on July 15, 2022).
[37] Chanprakon, Chanprakon, Pacharawan, et al. “An Ultra-Violet Sterilization Robot for Disinfection”. 2019 5th International Conference on Engineering, Applied Sciences and Technology (ICEAST), IEEE, 2019, pp. 1–4.
[38] Hassan, Sana, et al. “Androidbased UV-C Disinfecting Mobile Unit”. Pakistan Journal of Engineering and Technology, vol. 4, no. 01, 2021, pp. 159–62.
[39] Bentancor, Marcel, and Sabina Vidal. “Programmable and Low-Cost Ultraviolet Room Disinfection Device”. HardwareX, vol. 4, 2018, p. e00046.
[40] Vyshnavi, A., et al. “UV Disinfection Robot with Automatic Switching on Human Detection”. EAI Endorsed Transactions on Internet of Things, vol. 6, no. 23, 2020.
[41] Guettari, Moez, et al. “UVC Disinfection Robot”. Environmental Science and Pollution Research, 2020, pp. 1–6.
[42] Phan, Nguyen Duy Minh, Ngo Quoc Huy Tran, Le Anh Doan, Duy Chung Tran, et al. “An Ultraviolet C Light-Emitting Robot Design for Disinfection in the Operating Room”. Recent Trends in Mechatronics Towards Industry 4.0, edited by Ahmad Fakhri Ab. Nasir et al., Springer Singapore, 2021, pp. 185–96.
[43] Perminov, Stepan, et al. “Ultrabot: Autonomous Mobile Robot for Indoor Uv-c Disinfection”. 2021 IEEE 17th International Conference on Automation Science and Engineering (CASE), IEEE, 2021, pp. 2147–52.
[44] Zaman, Akib, et al. “UVC-PURGE: A Novel Cost-Effective Disinfection Robot for Combating COVID-19 Pandemic”. Ieee Access, vol. 10, 2022, pp. 37613–34.
[45] Kim, Soo-Ji, et al. “Using UVC Light-Emitting Diodes at Wavelengths of 266 to 279 Nanometers to Inactivate Foodborne Pathogens and Pasteurize Sliced Cheese”. Applied and Environmental Microbiology, vol. 82, no. 1, 2016, pp. 11–17.
[46] Gomez-Lopez, Vicente M., et al. “Pulsed Light for Food Decontamination: A Review”. Trends in Food Science & Technology, vol. 18, no. 9, 2007, pp. 464–73.
[47] Vilhunen, Sari, and Mika Sillanpää. “Recent Developments in Photochemical and Chemical AOPs in Water Treatment: A Mini-Review”. Reviews in Environmental Science and Bio/Technology, vol. 9, no. 4, 2010, pp. 323–30.
[48] Buonanno, Manuela, et al. “Far-UVC Light (222 Nm) Efficiently and Safely Inactivates Airborne Human Coronaviruses”. Scientific Reports, vol. 10, no. 1, 2020, pp. 1–8.
[49] Ponnaiya, Brian, et al. “Far-UVC Light Prevents MRSA Infection of Superficial Wounds in Vivo”. PLoS One, vol. 13, no. 2, 2018, p. e0192053.
[50] Holland, Jane, et al. “Service Robots in the Healthcare Sector”. Robotics, vol. 10, no. 1, 2021, p. 47.
[51] Dhikle, Mansi, et al. “Cost-Effective Disinfection Robot Using UVC Radiation”. ITM Web of Conferences, vol. 40, EDP Sciences, 2021, p. 02003.
Xem thêm
##plugins.themes.academic_pro.article.sidebar##
Đã Xuất bản
Nov 30, 2022
Download
Cách trích dẫn
Nguyen Duy Minh Phan, Cuong Mai Bui, Ngo Quoc Huy Tran, Le Anh Doan, Quang Truong Vo, Thi Thanh Vi Nguyen, Duy Chung Tran, Ngoc Ky Phan, và He Thong Bui. “Ứng dụng công nghệ chiếu Xạ diệt khuẩn bằng Tia cực tím Trong lĩnh vực Robot diệt khuẩn: Đánh Giá tổng Quan”. Tạp Chí Khoa học Và Công nghệ - Đại học Đà Nẵng, vol 20, số p.h 11.2, Tháng Mười-Một 2022, tr 19-25, https://jst-ud.vn/jst-ud/article/view/7970.
