1.Technologies for sewage disposal, drinking water and environmental hygiene
Journal of Medical and Pharmaceutical Information 1998;(3):11-16
The National conference for environment in Hanoi during 8/1998 introduced the major subjects including the orientation and solutions for drinking water, environmental hygiene, sewage disposal, fresh vegetable, iron containing water, nitrate contaminating water, rainy water, sterilization of the drinking water and heavy metal contains water.
Refuse Disposal
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Hygiene
2.Environmental pollution by latrines in some military units
Journal of Preventive Medicine 1998;8(4):58-64
Examination of soil samples in some military units revealed a high degree of parasitic infestation and bacterial contamination. The incidence of parasitic disease among the staff of these units was recorded as following: ascaridiasis 71.5%, trichiurasis 33.3% and ankylostomiasis 10.7%. Authors strongly urged the need to improve the existing latrine system of these military units.
Refuse Disposal
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Hygiene
3.Influence of in vitro methamidophos on the activity of some antioxidant enzymes and peroxidation in the human erythrocyte
Journal of Vietnamese Medicine 1998;230(11):33-38
In vitro study on effects of methamidophos (MAP) on antioxidant enzymes, total antioxidant status (TAS) and lipid peroxidation of human erythrocytes have shown: human plasma total antioxidant status (TAS) and enzym cholinesterase (ChE) activity were significantly decreased by increasing MAP concentrations (from 5 to 10 mM) and incubation period. Human erythrocyte superoxi.
Refuse Disposal
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Hygiene
5.Lipid production by oleaginous microorganisms using food wastes: a review.
Yong ZHANG ; Yangbin HE ; Wen YANG ; Faqi TAN ; Weiwei LI ; Qiuzhen WANG
Chinese Journal of Biotechnology 2022;38(2):565-577
Food wastes are rich in nutrients and can be used for producing useful chemicals through biotransformation. Some oleaginous microorganisms can use food wastes to produce lipids and high value-added metabolites such as polyunsaturated fatty acids, squalene, and carotenoids. This not only reduces the production cost, but also improves the economic value of the products, thus has large potential for commercial production. This review summarized the advances in food waste treatment, with a focus on the lipid production by oleaginous microorganisms using food wastes. Moreover, challenges and future directions were prospected with the aim to provide a useful reference for related researchers.
Biofuels
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Biotransformation
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Food
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Lipids
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Refuse Disposal
6.Status and influencing factors on the leftover school meals among students the Nutrition Improvement Program for Rural Compulsory Education Students in 2019.
Li LI ; Xiao Yi BI ; Qian GAN ; Ti Ti YANG ; Wei CAO ; Hui PAN ; Pei Pei XU ; Juan XU ; Qian ZHANG
Chinese Journal of Epidemiology 2022;43(4):503-508
Objective: To analyze the situation and influencing factors of school meals leftover among primary and secondary school students in the area of the Nutrition Improvement Program for Rural Compulsory Education Students, improve the quality of school meals, develop healthy dietary behavior, and reduce food waste. Methods: In 2019, among the 50 monitoring counties that implemented the Compulsory Education Student Nutrition Improvement Program, two primary schools and two junior schools were randomly selected according to different food supply patterns.This study randomly selected one or two classes from grade 3 to grade 9. Basic information and school meals of 26 778 students were collected by using a student questionnaire. Multivariate logistic regression was used to analyze the influencing factors of leftovers rate. Results: 54.93% (14 709) of students wasted school meals, in which the highest rate was the staple food, with the main reason as "not in favor". 11.87% (1 743) of the students wasted school meals 6-7 days a week, with 54.20% (7 957) of students wasted but in less amount. The leftover rate of staple food was the highest (29.78%), followed by vegetables and meat. The main reason of leftovers was that they didn't like this kind of food (33.52%). The rate of school meal waste was higher for girls (OR=1.19,95%CI:1.13-1.25), junior high school students (OR=1.17, 95%CI: 1.11-1.25), resident students (OR=1.06, 95%CI: 1.00-1.12), lower economic level (OR=1.06, 95%CI: 1.00-1.12), parents working outside their houses (OR=1.22, 95%CI: 1.13-1.30), health education classes (OR=1.70, 95%CI: 1.40-2.06), company-based meals (OR=1.89, 95%CI: 1.71-2.07) and school meals were not as good as home food(OR=1.89, 95%CI: 1.78-2.00)(P<0.05). Conclusions: It is common for poor rural primary and middle school students in central and western China to waste school meals, and the reasons were affected by many factors. Reducing food waste requires the joint efforts of individuals, families, schools and society.
Female
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Food Services
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Humans
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Meals
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Refuse Disposal
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Schools
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Students
7.Application of microbial fuel cell (MFC) in solid waste composting.
Jinxin CUI ; Xin WANG ; Jingchun TANG
Chinese Journal of Biotechnology 2012;28(3):295-304
Microbial fuel cell (MFC) is a new technology that can recover energy from biomass with simultaneous waste treatment. This technique has been developed fast in recent years in combining with environmental techniques such as wastewater treatment, degradation of toxic pollutants and desalination. With the increase of solid waste, applying MFC in composting is promising due to its property of waste disposal with simultaneous energy generation. In this paper, the microbial community of MFCs during composting was summarized. Four major influencing factors including electrodes, separators, oxygen supplement and configurations on the performance of composting MFCs were discussed. The characteristics of composting MFC as a new technique for reducing solid waste were as follows: high microbial biomass resulted in the high current density; adaptable to different environmental conditions; self-adjustable temperature with high energy efficiency; the transportation of proton from anode to cathode were limited by different solid substrates.
Bioelectric Energy Sources
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microbiology
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trends
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Electricity
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Electrodes
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Refuse Disposal
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methods
8.Solid wastes treatment process and biohydrogen.
Yanchuan LI ; Yunlin WEI ; Hua WANG
Chinese Journal of Biotechnology 2008;24(6):914-920
As a clean energy source and industrial material, hydrogen is very valuable. Electrolysis of water and chemical methods are well-known for producing hydrogen, however, all of these methods need additional energy supply. Besides highly energy cost, the chemical methods will lead to serious environment pollution. Compared with traditional methods, biological production of hydrogen has showed significant advantages. Bio-hydrogen can be produced by anaerobic and photosynthetic microorganisms during treatment of organic waste. It provides a low cost method for producing hydrogen gas, and a way of utilizing waste at the same time. This paper summarized the procedures of treatment of solid waste and the production of bio-hydrogen.
Bioelectric Energy Sources
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Biotransformation
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Hydrogen
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metabolism
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Refuse Disposal
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methods
10.Management of “SHARPS” Wastes in Manila Hospitals (Part 3) Off -Site Management of Hazardous Healthcare Wastes in Six Tertiary Hospitals in South Manila, Philippines
Acta Medica Philippina 2016;50(2):86-90
OBJECTIVE: The aim of this study was to determine if the collection, treatment and final disposal of hospital hazardous wastes conform to the rules and regulations and standards set by the Philippine Government and the World Health Organization (WHO).
METHODS: Three private and three government tertiary hospitals located in South Manila were randomly chosen and the companies that provides them with hospital waste disposal services were asked to participate in the study to validate their conformity to the national and international hazardous waste disposal standards. Validation was done through the use of observer checklists and photographs.
RESULTS: Results of the study showed that there were four companies who services 6 selected hospitals included in the study. All of these conformed to the standards of the World Health Organization, and to rules and regulations as set by the Philippine government. All of the companies conformed as to standards for Legal Permits, Off-site Transport, Personal Protective Devices and Off-Site Waste Disposal.
CONCLUSION: All of the companies servicing the 6 selected hospitals conformed to the standards set by WHO and the Philippine government.
Checklist ; Government ; Hazardous Waste ; Philippines ; Protective Devices ; Refuse Disposal ; Tertiary Care Centers ; Waste Disposal Facilities