Utilization of Waste Glass in Autoclaved Silica–Lime Materials

This paper aims to investigate the possibility of using waste glass of different colours as a complete substitute for quartz sand in autoclaved silica–lime samples. On the one hand, this increases the possibility of recycling waste glass; on the other hand, it allows obtaining autoclaved materials with better properties. In this research, reference samples with quartz sand (R) and white (WG), brown (BG), and green (GG) waste container glass were made. Parameters such as compressive strength, bulk density, and water absorption were examined on all samples. The samples were examined using a scanning electron microscope with an energy dispersive spectroscopy detector (SEM/EDS) and subjected to X-ray diffraction (XRD) analysis. The WG samples showed 187% higher compressive strength, BG by 159%, and GG by 134% compared to sample R. In comparison to the reference sample, volumetric density was 16.8% lower for sample WG, 13.2% lower for BG, and 7.1% lower for GG. Water absorption increased as bulk density decreased. The WG sample achieved the highest water absorption value, 15.84%. An X-ray diffraction analysis confirmed the presence of calcite, portlandite, and tobermorite phases. Depending on the silica aggregate used, there were differences in phase composition linked to compressive strength. Hydrated calcium silicates with varying crystallisation degrees were visible in the microstructure image.

Study on household waste management in Kampung Parit Haji Siraj, Johor, Malaysia

Waste management issue has been a major threat and challenge due to the undergoing rapid industrialization and urbanization not only to Malaysia, but also other countries around the world. To tackle that, the first step starts at household level where people are encouraged to try to manage their wastes properly. The aim of this study was to review the current practises of household waste management, to assess household awareness of the health and safety risked posed by inadequate handling of special household waste and to identify future prospect and potential for effective waste management system in Kampung Parit Haji Siraj, Ayer Hitam, Johor. A survey questionnaire was used to collect complete information on the objectives stated and the data were analysed using SPSS software. Results showed that 97.2% of residents were aware about waste management and social media with 80% contributed the most in delivering information about waste management to the public. The most type of solid waste generated from household were food waste and plastic with 94.4% and 86.1%, respectively. 66.7% of residents emptied their waste container once in 2 days and about 63.9% of the residents dispose their household waste in a hole near their compound. Majority of the residents are aware of any health and safety risked posed by inadequate handling of household waste. Lastly, waste management system in the area can be improved by providing proper waste disposal place and educating proper disposal ways to guarantee that residents do not discard their waste in an indiscriminate manner.

Collecting Small-Waste Electrical and Electronic Equipment in Poland—How Can Containers Help in Disposal of E-Waste by Individuals?

The effectiveness of e-waste collection depends on organizational and social factors. Individuals should have easy access to collection points and be aware of proper methods of e-waste disposal. This article investigates the availability, usability, and occurring irregularities of the container collection of small-waste electrical and electronic equipment. The study explores the attitude and behavior of individuals when disposing of small-waste equipment in the South of Poland. The results show that ninety-five percent of supermarkets’ managers responsible for waste management find a growing interest in the disposal of small e-waste by individuals. An increasing number of collection containers encourages residents to dispose of small-waste appliances. More than eighty-three percent of respondents are aware of proper methods of e-waste disposal. Additional information campaigns addressed to residents are required to prevent mixing electrical and electronic waste with other waste and to encourage the disposal of small e-waste. The intention to dispose of small e-waste was declared by only thirty-two percent of respondents. Containers with discarded easy breakable items, such as lamps, should be removed more frequently. The collection containers’ noticeability is evaluated by individuals as of average difficulty. The containers in supermarkets have simple designs and labels indicating the category of waste for disposal. The containers installed in residential areas have attractive designs and advertising slogans. The individuals expect the containers should be available in more locations that are easily accessible from households. The results of this study should be helpful for local authorities, waste collection companies, and waste electrical and electronic organizations, to support design, location selection, and information campaigns for small e-waste container collections.

PLANNING FOR WASTE COLLECTION AND STORAGE IN NGEPUNG VILLAGE, KEDAMEAN DISTRICT, GRESIK

Ngepung Village is a village located in the eastern part of Kedamean District, Gresik Regency with an area of 5.08 km2. Ngepung Village is divided into 3 Hamlets, 5 Rukun Warga (RW), and 14 Rukun Tetangga (RT) consisting of 3493 people. Waste management in Ngepung Village still uses the old paradigm, namely gathering-burning or gathering-wasting. The purpose of this study is to determine the existing condition of waste management in Ngepung Village and to plan waste collection and storage. The research method includes direct measurement of waste generation, interviews, observation and documentation. Determination of sampling using simple random sampling according to SNI 19-3964-1994. Data analysis used quantitative descriptive techniques. The results of the study stated that most of the residents of Ngepung Village used plastic bags as garbage containers. The average value of waste generation in Ngepung Village is 2.05 L/org.day or 0.31 kg/org.day. Meanwhile, the composition of waste is dominated by organic waste of 60.49%. The waste collection plan consists of 2 types of waste containers, namely organic and inorganic containers, with a housing waste container capacity of 25 liters per family, a 70 liter office waste container capacity, 100 liter pesantren waste containers, 30 liter schools, and 25 liter places of worship. Garbage collection is planned to be carried out every 3 days with 3 cycles using 5 units of three-wheeled motorized carts with a capacity of 1.25 m3.

GIS MODELING OF WASTE CONTAINERS’ PLACEMENT IN URBAN AREAS

As a result of this research, a methodical approach to the geoinformational analysis of the waste containers’ placement for the collection of municipal solid waste in urban areas according to current standards and rules for the improvement of settlements was developed. According to the current Rules of maintenance of residential buildings and adjacent territories, waste containers of all types should be installed on a concrete or asphalted site, usually with fencing made of standard reinforced concrete products or other materials with planted shrubs around the site. Moreover, container platforms on wheels should be equipped with a ramp from the roadway and a fence (curb) which is 7–10 cm high, to keep the containers from rolling off to the sides. In the process of determining the optimal locations of waste containers a database of container park was created including the register of containers, the register of platforms, and the register of trash cans was created a list of influencing factors at the data collection stage, was made a proximity analysis and data reclassification to move to a unified scale for calculations of different types and/or heterogeneous source data, and weighted overlay as the main instrument of aggregated analysis. The analysis of the results is based on comparing the location of existing waste container sites with the resulting overlapping areas.

AUTOMATED WASTE COLLECTION CONTAINER LID OPENER PROTOTYPE WITH DISINFECTANT SPRAYER AS PART OF NOSOCOMIAL INFECTION PREVENTION

Nosocomial infection is a health issues related to the in-hospital activities. One of the indirect cause was the contamination related to the waste disposal activity. All hospital waste was deemed hazardous that it needs extra care during collection. Cross contamination may arises when the waste containers was not treated. To alleviate the problem and to promote healthy habits, this article describe a smart disinfectant sprayed waste collection container and its status reports. By automating the lid opening and closing that was triggered by human proximities using passive infrared detector and ultrasound sensor, it provide convenience in waste disposal. This also prevent cross contamination related with physical contact with the waste container which may induce the nosocomial infection. The container also tracking its remained waste capacity and will report when it was almost full to prevent overflowed and to alarmed for immediate waste pickup. In case of delayed container collection, the lids will remain closed and the light indicator turn to red. The indicator will turn green in normal conditions and turn yellow if the container was almost full. ESP32 was used to interface with ultrasound sensors to approximate the container remaining capacity. Passive infrared sensor and a servo motor was linked to actuates the lid opening and closing. Some disinfectant was sprayed for every detected increase in waste level. The disinfectant aerosol canister was pushed by a DC motor. For reporting, the systems was equipped with LoRa for status report. This systems was tested inside Poltekkes Kemenkes Jakarta II building and could reach at least 80m distance from the report center for reporting.

Numerical Simulation of Container Breach and Airborne Release of Solids Due to Mechanical Insults

Throughout U.S. Department of Energy (DOE) complexes, safety engineers employ the five-factor formula to calculate the source term (ST) that includes parameters of airborne release fraction (ARF), respirable fraction (RF) and damage ratio (DR). Limited experimental data on fragmentation of solids, such as ceramic pellets (i.e., PuO2), and container breach due to mechanical insults (i.e., drop and forklift impact), can be supplemented by modeling and simulation using high fidelity computational tools to estimate these parameters. This paper presents the use of Sandia National Laboratories' SIERRA solid mechanics (SM) finite element code to investigate the behavior of the widely utilized waste container (such as 7A Drum) subject to a range of free fall impact and puncture scenarios. The resulting behavior of the container is assessed, and the estimates are presented for bounding DRs from calculated breach areas for the various accident conditions considered. This paper also describes a novel multiscale constitutive model recently implemented in SIERRA/SM that simulates the fracture of brittle materials such as PuO2 and determines ARF during the fracture process. Comparisons are made between model predictions and simple bench-top experiments.