Relevant bibliographies by topics / Categories of biomedical waste

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Categories of biomedical waste'

Author: Grafiati
Published: 5 June 2025
Last updated: 2 August 2025

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Journal articles on the topic "Categories of biomedical waste"

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Ingle, Navin Anand, and Zohara Kayamali Charania. "Awareness and Practices of Dental Care Waste Management Among Dental Practitioners In Chennai City." Journal of Contemporary Dentistry 1, no. 1 (2011): 15–21. http://dx.doi.org/10.5005/jcd-1-1-15.

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Abstract Objectives To assess the dentist's awareness about dental care waste management. To know the various methods of bio-medical waste disposal practiced by private dental practitioners in Chennai City. To assess the awareness of dentists regarding colour coding of biomedical wastes. Materials and Methods A cross sectional questionnaire study was conducted among 250 private dental practitioners selected by simple random sampling. A pretested questionnaire consisting of 28 close ended questions divided into two sections was used. Results Out of 250 participants 167(66.8%) were males and 83(
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Haralur, Satheesh B., Ali S. Al-Qahtani, Marie M. Al-Qarni, Rami M. Al-Homrany, Ayyob E. Aboalkhair, and Sujatha S. Madalakote. "The Dental Solid Waste Management in Different Categories of Dental Laboratories in Abha City, Saudi Arabia." Open Dentistry Journal 9, no. 1 (2015): 449–54. http://dx.doi.org/10.2174/1874210601509010449.

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Aim: To study the awareness, attitude, practice and facilities among the different categories of dental laboratories in Abha city.Materials and Methods:A total of 80 dental technicians were surveyed in the study. The dental laboratories included in the study were teaching institute (Group I), Government Hospital (Group II), Private Dental Clinic (Group III) and Independent laboratory (Group IV). The pre-tested anonymous questionnaire was used to understand knowledge, attitude, facilities, practice and orientation regarding biomedical waste management.Results:The knowledge of biomedical waste c
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Naik, Qais, Chincholikar Sanjeev Vasantrao, and Kulkarni Surendra. "Awareness of biomedical waste management among clinical teaching staff in a private medical college in rural area of Maharashtra." International Journal Of Community Medicine And Public Health 6, no. 11 (2019): 4984. http://dx.doi.org/10.18203/2394-6040.ijcmph20195092.

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Background: Biomedical waste has become a serious health hazard in many countries, including India. The waste produced in the course of health care activities carries a higher potential for infection and injury than any other type of waste. The main aims and objectives of this study are to assess the knowledge, attitude and practices among the clinical teaching staff of a private medical college regarding biomedical waste management.Methods: An observational, cross-sectional study was conducted among the clinical teaching staff of a private medical college regarding biomedical waste management
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Deepa, Bhambhani. "A Brief Introduction about Biomedical Waste for its Sustainable Management." European Journal of Advances in Engineering and Technology 10, no. 11s (2023): 58–62. https://doi.org/10.5281/zenodo.10638794.

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<strong>ABSTRACT</strong> Biomedical waste is a special category, complex waste, which is to be handled scientifically. As app. 67% of biomedical waste is general waste, so this waste needs to be segregated from the remaining hazardous waste so that the overall harmful impact of biomedical waste on environment and human health can be reduced. This concept of waste segregation and category wise waste treatment is called sustainable waste management. For this it is essential that the waste handlers should have an adequate knowledge about biomedical waste so that appropriate treatment options are
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EZEBUNWO, EJEKWU SAMUEL SONI, and OBINNA OLERIBE. "MANAGEMENT OF BIOMEDICAL WASTE: A CRITIQUE OF NIGERIA'S WASTE MANAGEMENT POLICY." International Journal of Education and Science Development (IJESD) 1, no. 1 (2022): 107–22. https://doi.org/10.5281/zenodo.6906853.

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This study hinges on the management of biomedical waste with a critique of the waste management practices in Nigeria. The study classified biomedical waste into ten categories based on the World Health Organisation categorization. They include human anatomical waste, animal waste, microbiological waste and biotechnology waste, discarded medicine and cytotoxic waste, soiled wasted, solid waste, liquid waste, incineration ash, and chemical waste. The study identified the dangers of mismanagement of biomedical waste to include: disease-causing microbes, medical sharps, and hazardous substances fr
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Uma, Shankar Shukla, Gora Sunil, Bhati Anjlina, Kumar Khant Vinod, Patel Khushboo, and Jain Mayank. "Situation Analysis of Biomedical Waste Management in a Tertiary Care Hospital." International Journal of Pharmaceutical and Clinical Research 16, no. 2 (2024): 1656–59. https://doi.org/10.5281/zenodo.11086080.

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<strong>Background:</strong>&nbsp;The waste produced in the course of healthcare activities carries a higher potential for infection and injury than any other type of waste.&nbsp;<sup>9</sup>&nbsp;Improper management of biomedical waste poses a significant threat to the patients and personnel who handle them as well as had adverse environmental impact.&nbsp;<strong>Objective:</strong>&nbsp;To evaluate the status of biomedical waste management in a tertiary care hospital.&nbsp;<strong>Method:</strong>&nbsp;A descriptive study was conducted at tertiary care hospital had1150 beds. Total 36 area o
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Ratnamala S., Jawale. "Biomedical Waste: Sources, Composition, Categories and Global Scenario with Reference to India- A Review." International Journal of Zoological Investigations 08, no. 02 (2022): 912–20. http://dx.doi.org/10.33745/ijzi.2022.v08i02.108.

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In reducing health problems and eliminating potential risks to people’s health, health-care services inevitably create waste that may itself be hazardous to health. Waste produced in healthcare activities carries a higher potential for infection and injury. Therefore, safe and reliable methods for handling of medical waste are essential. Inadequate and inappropriate handling of health-care waste may have serious public health consequences and a significant impact on the environment. Effective confinement of Biomedical waste (BMW) and safe handling measures provide significant health protection
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Peter, Nkwenti, Etame Loe Gisele Marie, and Nnanga Nga. "Identifying Sustainable Biomedical Solid Waste Management Practices in the Context of Limited Resources in Selected Healthcare Facilities in Douala Cameroon." Microbiology Research Journal International 33, no. 11-12 (2023): 80–95. http://dx.doi.org/10.9734/mrji/2023/v33i11-121419.

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Aims: To Identify sustainable Biomedical solid waste management practices in the context of limited resources in selected HCFs in Douala, Cameroon.&#x0D; Study Design: A cross-sectional survey with quantitative and qualitative study design was adopted for data collection from workers in the HCFs and also identifying the process of waste management.&#x0D; Place and Duration of Study: This study was carried out in the some selected HCFs in the Douala region of Cameroon between January 2023 to June 2023.&#x0D; Methodology: Study respondents were working in different sections of the HCFs and compr
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Aravind, Asokan, Sudhiraj T. S., Carol Pinheiro, et al. "Biomedical waste management: assessment of knowledge, attitude and practice among health care workers." International Journal Of Community Medicine And Public Health 10, no. 10 (2023): 3655–59. http://dx.doi.org/10.18203/2394-6040.ijcmph20233095.

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Background: The waste produced in healthcare activities carries a high potential for infection and injury than any other type of waste. Inadequate knowledge of biomedical waste (BMW) management can lead to serious health consequences and an adverse impact on environment. The aim of this study is to assess the knowledge, attitude and practice (KAP) of BMW management among healthcare workers of government T. D. medical college, Alappuzha. Methods: A cross sectional study was conducted among staff and students of government T. D. medical college, Alappuzha. Stratified sampling was done and data w
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Qaissar Guti Omo and Najmaldin Ezaldin Hassan. "Biomedical waste management and their effects on the Environment: A review." World Journal of Advanced Engineering Technology and Sciences 11, no. 1 (2024): 086–95. http://dx.doi.org/10.30574/wjaets.2024.11.1.0020.

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Biomedical waste has the potential to be hazardous and cause environmental pollution, therefore its proper management and disposal, especially in hospitals and healthcare facilities, plays an important role in protecting both the environment and public health. Biomedical waste encompasses a diverse array of materials originating from patient care, research activities, and medical interventions, and inadequate handling poses significant hazards. Common disposal methods, such as incineration, have been associated with environmental contamination and the emission of harmful fumes. Biomedical wast
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Dissertations / Theses on the topic "Categories of biomedical waste"

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Dinsdale, Richard Mark. "The mesophilic and thermophilic anaerobic digestion of instant coffee waste waters." Thesis, University of South Wales, 1998. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.265688.

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Ellis, Joshua T. "Utilizing Municipal and Industrial Wastes for the Production of Bioproducts: from Metagenomics to Bioproducts." DigitalCommons@USU, 2013. https://digitalcommons.usu.edu/etd/1702.

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Global energy requirements are heavily dependent on fossil fuels such as oil, coal, and natural gas. With the expectation of fossil fuels being exhausted in the future, novel strategies need to be discovered for alternative energy generation. Biofuels such as acetone, butanol, ethanol, and hydrogen gas are gaining interest as high value energy sources. These fuels can be produced by anaerobic clostridia as metabolic byproducts of fermentation. The capability to produce these biofuels has been widely studied using glucose or other common feedstocks. Biofuels from renewable and industrial waste
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Debnath, Dipankar. "Study of the legal framework relating to disposal of biomedical waste in India with particular reference to Siliguri town." Thesis, University of North Bengal, 2017. http://hdl.handle.net/123456789/2654.

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Novaes, Rafaella Eloy de. "Quando uma história torna-se um caso: narrativas de sofrimento no CAPS II de Taguatinga, Distrito Federal." Universidade Federal de Goiás, 2016. http://repositorio.bc.ufg.br/tede/handle/tede/6171.

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Submitted by Marlene Santos (marlene.bc.ufg@gmail.com) on 2016-09-09T18:37:34Z No. of bitstreams: 2 Dissertação - Rafaella Eloy de Novaes - 2016.pdf: 2466871 bytes, checksum: ad896ee1f5b9e01584149ff6cc518e09 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5)<br>Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2016-09-12T14:18:38Z (GMT) No. of bitstreams: 2 Dissertação - Rafaella Eloy de Novaes - 2016.pdf: 2466871 bytes, checksum: ad896ee1f5b9e01584149ff6cc518e09 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5)<br>
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Pu, Hang-Long, and 浦漢龍. "Waste minimization by separating waste into three categories in Taroko National Park, Taiwan." Thesis, 2005. http://ndltd.ncl.edu.tw/handle/20966123614800900689.

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碩士<br>國立東華大學<br>自然資源管理研究所<br>93<br>The amount and characteristics of recreational waste has been dramatically changed by the tourist activities in Taroko National Park. This change and inappropriate waste management have impacted the environment in the Park. Waste characteristics and streams were analyzed during tourist and non tourist season in 2004 to determine the recreational waste composition: Food waste (30.3%), paper (20.64%), plastic (19.33%) and metal (16%) were found to be dominant, making up 86.27% of the waste. Other materials in the remaining waste residual were found to be lower
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Huang, Mei-Chuan, and 黃美娟. "Estimation of the Discharge Factor and Waste Yield of Hospital Biomedical Waste." Thesis, 2013. http://ndltd.ncl.edu.tw/handle/57352022094559490180.

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博士<br>國立高雄第一科技大學<br>工程科技研究所<br>101<br>The breakdown of severe acute respiratory syndrome (SARS) in Taiwan in 2003 had led to serious casualties. It had threatened not only lives and properties of Taiwanese people but also damaged the economic development of Taiwan. As a result, estimating the output as well as the total output amount of hospital waste has been emphasized by researchers recently. For a hospital bed occupancy rate of 80%, the factor of waste yield per bed is between 2.34 - 2.48 Kg/bed/day; more specifically, the factor of biomedical waste yield is between 0.52 - 0.61 Kg/bed/day.
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Gupta, G. K. "Characterization and Pretreatment of Cotton Gin Waste." Thesis, 2009. http://ethesis.nitrkl.ac.in/1485/1/Gaurav_gupta_Final_PDF.pdf.

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Bioethanol produced from various lignocellulosic materials, such as wood, agricultural or forest residues, has the potential to be a valuable substitute for, or a complement to gasoline. One of the crucial steps in the ethanol production is the hydrolysis of the hemicellulose and cellulose to monomer sugars. In order to make the raw material accessible to the enzymes some kind of pretreatment is necessary. During the last ten years a large number of pretreatment methods have been developed. White rot fungi has the capability to separate the cellulose and hemicelluloses component from the compl
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Vij, Suyog. "Biogas production from kitchen waste & to test the Quality and Quantity of biogas produced from kitchen waste under suitable conditions." Thesis, 2011. http://ethesis.nitrkl.ac.in/2547/1/THESIS_FINAL_REPORT..pdf.

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In our institute we have seven hostels and all having their own individual mess, where daily a large amount of kitchen waste is obtained which can be utilized for better purposes. Biogas production requires Anaerobic digestion. Project was to Create an Organic Processing Facility to create biogas which will be more cost effective, eco-friendly, cut down on landfill waste, generate a high-quality renewable fuel, and reduce carbon dioxide & methane emissions. Overall by creating a biogas reactors on campus in the backyard of our hostels will be beneficial. Kitchen (food waste) was collected from
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Kao, Shi Hon, and 高世鴻. "Study of Combustion Technology in a Biomedical Waste Incinerator." Thesis, 1995. http://ndltd.ncl.edu.tw/handle/92243320360539842109.

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Sahu, Shitarashmi. "Conversion of Cotton Gin Waste to Bioethanol: Pretreatment, Hydrolysis and Fermentation." Thesis, 2016. http://ethesis.nitrkl.ac.in/8210/.

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The present research focuses on the conversion of cotton gin waste, a potential lignocellulosic biomass produced in cotton industry, to bioethanol. The major technological hurdle for utilizing this waste to bioethanol is the pretreatment process to release sugar components for ethanol fermentation. Even the most effective pretreatment method using dilute sulphuric acid suffers from several drawbacks such as the process is hazardous and produces toxic by-products which affect the growth of yeast during fermentation leading to lower bioethanol yield. Therefore, an alternative pretreatment strate
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Books on the topic "Categories of biomedical waste"

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Hajam, Younis Ahmad, Javid Ahmad Malik, Anu Pandita, and Deepu Pandita. Biomedical Waste Management. Apple Academic Press, 2025. https://doi.org/10.1201/9781003595434.

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Kishore, J. Biomedical waste management in India. Century Publications, 2004.

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Association, Ontario Hospital, Ontario. Ministry of Environment and Energy., and Ontario Ministry of Health, eds. Biomedical waste management strategy: Public consultation summary. Ministry of Environment and Energy, 1992.

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Association, Ontario Hospital, Ontario. Ministry of Environment and Energy., and Ontario Ministry of Health, eds. Biomedical waste management strategy: Public consultation summary. Ministry of Environment and Energy, 1992.

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Interministry Task Force on Biomedical Waste (Ont.). A strategy for the management of biomedical waste: Report of the Interministry Task Force on Biomedical Waste. The Task Force, 1986.

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Association, Canadian Standards, Canadian Council of Ministers of the Environment., and Canada. Environmental Protection Directorate. Office of Waste Management., eds. Guidelines for the management of biomedical waste in Canada. The Council, 1992.

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Choudhury, Moharana, Ankur Rajpal, Srijan Goswami, Arghya Chakravorty, and Vimala Raghavan. Analytical Case Studies on Municipal and Biomedical Waste Management. CRC Press, 2024. http://dx.doi.org/10.1201/9781003499695.

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Washington (State). Dept. of Ecology. Hazardous Waste Section. A study of hazardous waste management priorities for categories of waste in Washington State: Final report. The Section, 1986.

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Washington (State). Dept. of Ecology. Hazardous Waste Section. A study of hazardous waste management priorities for categories of waste in Washington State: Final report. The Section, 1986.

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McKelvey, Diane. Handling biomedical waste in Canada: A guide for veterinary clinics. Canadian Veterinary Medical Association, 1997.

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Book chapters on the topic "Categories of biomedical waste"

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Chandrappa, Ramesha, and Diganta Bhusan Das. "Biomedical Waste." In Solid Waste Management. Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-28681-0_6.

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Chandrappa, Ramesha, and Diganta Bhusan Das. "Biomedical Waste." In Solid Waste Management. Springer International Publishing, 2024. http://dx.doi.org/10.1007/978-3-031-50442-6_6.

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Hussaini, Nilofer, Sunitha Abhay Jain, Tajwar Hussaini, Daisy Alexander, Sunil John, and Bidisha Sarkar. "Biomedical Waste Management." In Analytical Case Studies on Municipal and Biomedical Waste Management. CRC Press, 2024. http://dx.doi.org/10.1201/9781003499695-8.

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Mittal, Nishu, Tsering Angmo, Shweta Rajpal, Kanwarpal S. Dhugga, and Pallavi Gahlot. "Biomedical Waste Management." In Analytical Case Studies on Municipal and Biomedical Waste Management. CRC Press, 2024. http://dx.doi.org/10.1201/9781003499695-7.

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Verma, Alekh, and Shakti Kumar Yadav. "Biomedical Waste Management." In Clinical Laboratory Management. Springer Nature Switzerland, 2023. http://dx.doi.org/10.1007/978-3-031-46420-1_36.

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Parija, Subhash Chandra. "Biomedical Waste Management." In Textbook of Microbiology and Immunology. Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-3315-8_69.

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Garg, Ajay, and Anil Dewan. "Biomedical Waste Management." In Manual of Hospital Planning and Designing. Springer Singapore, 2022. http://dx.doi.org/10.1007/978-981-16-8456-2_46.

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Sindhu, Rakesh K., Gagandeep Kaur, and Arashmeet Kaur. "Biomedical Waste Disposal and Treatment." In Zero Waste. CRC Press, 2019. http://dx.doi.org/10.1201/9780429059247-5.

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Wani, Khursheed Ahmad, Kounsar Jan, Javid Manzoor, and Ab Qayoom Mir. "Risks Associated with Hazardous Biomedical Wastes to Employees." In Biomedical Waste Management. Apple Academic Press, 2025. https://doi.org/10.1201/9781003595434-5.

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Lata, Prem, and Younis Ahmad Hajam. "Biomedical Wastes and Associated Risks." In Biomedical Waste Management. Apple Academic Press, 2025. https://doi.org/10.1201/9781003595434-3.

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Conference papers on the topic "Categories of biomedical waste"

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R, Rubia Gandhi R., Shanmugapriya M, Sridevi G, Subramaniam M, D. Kavitha, and M. Siva Ramkumar. "Redefining Biomedical Waste Management Through Advanced Smart Bin Technology." In 2024 4th International Conference on Soft Computing for Security Applications (ICSCSA). IEEE, 2024. https://doi.org/10.1109/icscsa64454.2024.00097.

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Viena, S. G., B. Varshini, and Thamizhvani TR. "Wireless Robotic System for Dignified Handling of Biomedical Waste." In 2025 International Conference on Data Science and Business Systems (ICDSBS). IEEE, 2025. https://doi.org/10.1109/icdsbs63635.2025.11031875.

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Saranya, S. S., Chokamela Kali Prasada Mani M, and Mani Sri Sai Aditya Tammana. "Smart Waste Management System: A Comprehensive Approach to Automated Waste Segregation and Air Quality Monitoring." In 2025 International Conference on Cognitive Computing in Engineering, Communications, Sciences and Biomedical Health Informatics (IC3ECSBHI). IEEE, 2025. https://doi.org/10.1109/ic3ecsbhi63591.2025.10990925.

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Mao, QiYu, Jian Li, KaiFeng Yangr, HangDa Shen, and QianQian Peng. "A new type of intelligent kitchen waste cleaning device." In 2024 9th International Conference on Intelligent Informatics and Biomedical Sciences (ICIIBMS). IEEE, 2024. https://doi.org/10.1109/iciibms62405.2024.10792797.

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G, Ashwini, Sahana K, T. R. Bhoomika, Saswati Behera, T. Thulasi, and Usha Desai. "IoT Enabled Biomedical Smart Waste Bin Monitoring System using YOLO Algorithm." In 2024 IEEE International Conference on Communication, Computing and Signal Processing (IICCCS). IEEE, 2024. http://dx.doi.org/10.1109/iicccs61609.2024.10763584.

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Menon, Balu M., Unnikrishnan R, Alexander Muir, and Rao R. Bhavani. "Serious game on recognizing categories of waste, to support a zero waste recycling program." In 2017 IEEE 5th International Conference on Serious Games and Applications for Health (SeGAH). IEEE, 2017. http://dx.doi.org/10.1109/segah.2017.7939292.

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Messerle, Vladimir E., Alfred L. Mosse, Georg Paskalov, and Alexandr B. Ustimenko. "Plasma Gasification Of Biomedical Waste." In 2017 IEEE International Conference on Plasma Science (ICOPS). IEEE, 2017. http://dx.doi.org/10.1109/plasma.2017.8496382.

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Kadam, Pratima S., Navaneetha Krishnan Rajagopal, Anil Kumar Yadav, Abhishek Madduri, Mohammad Javed Ansari, and Pandurang Y. Patil. "Biomedical waste management during pandemics." In PROCEEDING OF INTERNATIONAL CONFERENCE ON ENERGY, MANUFACTURE, ADVANCED MATERIAL AND MECHATRONICS 2021. AIP Publishing, 2023. http://dx.doi.org/10.1063/5.0126273.

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Umamaheswari, K., R. Indhumathi, R. Karthika, and V. Mahalakshmi. "Biomedical solid waste management using IoT." In PHYSICAL MESOMECHANICS OF CONDENSED MATTER: Physical Principles of Multiscale Structure Formation and the Mechanisms of Nonlinear Behavior: MESO2022. AIP Publishing, 2023. http://dx.doi.org/10.1063/5.0173858.

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Mulka, Mariusz, Wojciech Lorkiewicz, and Radoslaw P. Katarzyniak. "Object classification using basic-level categories." In 2017 10th International Congress on Image and Signal Processing, BioMedical Engineering and Informatics (CISP-BMEI). IEEE, 2017. http://dx.doi.org/10.1109/cisp-bmei.2017.8302327.

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Reports on the topic "Categories of biomedical waste"

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Mezga, L. (Standardization of radioactive waste categories). Office of Scientific and Technical Information (OSTI), 1990. http://dx.doi.org/10.2172/5107456.

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Ziegler, D. L. Preliminary assessment of RTR and visual characterization for selected waste categories. Office of Scientific and Technical Information (OSTI), 1992. http://dx.doi.org/10.2172/10168097.

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Hargis, Kenneth Marshall. Tritium Packages and 17th RH Canister Categories of Transuranic Waste Stored Below Ground within Area G. Office of Scientific and Technical Information (OSTI), 2015. http://dx.doi.org/10.2172/1261805.

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Gao, Yicheng, Zhihan Liu, Rui Cao, et al. Knee osteoarthritis clinical practice guidelines should pay more attention to identify and report research priorities to increase research value and decrease waste: a systematic review. INPLASY - International Platform of Registered Systematic Review and Meta-analysis Protocols, 2023. http://dx.doi.org/10.37766/inplasy2023.4.0063.

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Review question / Objective: Clinical practice guideline development group systematic summary of research evidence, so they have the most capacity and energy to identify research priorities. We systematically evaluated the reporting form and content of research priorities in clinical practice guidelines (CPGs) related to knee osteoarthritis (KOA). Information sources: We searched 6 databases including PubMed, Embase, VIP Database for Chinese Technical Periodicals, Wanfang, Chinese Biomedical Literature Database, and China National Knowledge Infrastructure. In addition, The official websites of
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Lindfors, Axel, and Roozbeh Feiz. The current Nordic biogas and biofertilizer potential: An inventory of established feedstock and current technology. Linköping University Electronic Press, 2023. http://dx.doi.org/10.3384/9789180752558.

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Biogas solutions in the Nordics is undergoing rapid developments and the demand for biogas is ever increasing because of the Russian war on Ukraine and the transition to fossil free industry and transportation. Furthermore, with the introduction of several multi-national companies into the biogas sector in the Nordics and with more and more biomethane being traded across national borders, it becomes increasingly important to view biogas solutions in the Nordics as a whole and to go beyond the confines of each individual nation. Since the transition and the current energy crisis require a quick
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Sharma, Bhavna, Bryan Swanton, Joseph Kuo, et al. Use of Life Cycle Assessment in the Healthcare Industry: Environmental Impacts and Emissions Associated With Products, Processes, and Waste. Agency for Healthcare Research and Quality (AHRQ), 2024. http://dx.doi.org/10.23970/ahrqepctb48.

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Objectives. The objective of this Technical Brief is to assess the current use of life cycle assessment (LCA) frameworks in healthcare research and practice, understand the components of those frameworks, review LCA studies that have been conducted, and assess gaps in research and practice to guide future directions. Review methods. A scoping review combined with Key Informant interviews provided the input for the report. We searched a combination of biomedical (PubMed®); environmental (Agricultural &amp; Environmental Science Collection, Environmental Science Database, Environment Index); and
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Zanatta, Hanna, Wisdom Kanda, and Karin Tonderski. Biogas production in Brazil : Barriers and strategies for overcoming them. Linköping University Electronic Press, 2024. http://dx.doi.org/10.3384/9789180758352.

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Addressing environmental challenges while improving social and economic conditions calls for innovative solutions. One of those challenges is the management of organic waste, which if left untreated can lead to water pollution, greenhouse gas emissions, and soil degradation. Brazil produces substantial amounts of organic waste due to its sizeable population and extensive agricultural production. As one of the largest economies in the Global South, the development of innovative solutions to organic waste management in Brazil can potentially pave the way for their adoption in other countries wit
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Eberle, Caitlyn, Jack O'Connor, Liliana Narvaez, Melisa Mena Benavides, and Zita Sebesvari. Interconnected Disaster Risks 2023: Risk Tipping Points. United Nations University - Institute for Environment and Human Security (UNU-EHS), 2023. http://dx.doi.org/10.53324/wtwn2495.

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The 2023 Interconnected Disaster Risks report examines six immediate and increasing risks across the world: the accelerating extinctions of species, the depletion of groundwater resources, the retreat of mountain glaciers, the growing number of places facing uninhabitable temperatures, the rise in uninsurability and the growing amount of space debris. Through literature review and expert consultation, we define “risk tipping points” for each of the six cases, representing the point at which a given socioecological system ceases to buffer risks and to provide its expected functions, after which
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Menuhin, Jonathan. Innovation Ecosystem Management Methodology. Edited by Marcello Basani, Alejandro Minatta, and Cecilia Maroñas. Inter-American Development Bank, 2024. http://dx.doi.org/10.18235/0012851.

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The main challenges innovation faces in the water, sanitation, and solid waste sector in Latin America and the Caribbean can be split into three categories: governance efforts; sector innovation ecosystem (research, development, and innovation), and water, sanitation, and solid waste utilities. In this line, it is key to acquire knowledge of international experiences to enrich the analysis and thematic discussion on the issue. The III (III) is an NGO that was established in 2011 to promote the development and implementation of innovation addressing global challenges such as transportation, cli
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Chapple, Alice, and Alvaro Valverde. Mobilizing climate finance towards agricultural adaptation and nature-based solutions. Commercial Agriculture for Smallholders and Agribusiness (CASA), 2022. http://dx.doi.org/10.1079/20240191174.

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The Commercial Agriculture for Smallholders and Agribusiness (CASA) Programme aims to drive global investment towards inclusive climate-resilient agri-food systems that increase smallholder incomes. CASA's research component has recently identified the challenges faced in mobilizing climate finance in agriculture, and particularly in climate adaptation, as well as the existence of a funding gap for small and medium-sized agriculture enterprises (agri-SMEs) of around $106 billion (ISF Advisors, 2022). Of particular concern is the minimal funding that would be needed to help smallholder farmers
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