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Scientific Program
World Congress on Sustainable Waste Management, will be organized around the theme “ Climate Change: Challenges & Sustainability”
Waste Management 2023 is comprised of 20 tracks and 3 sessions designed to offer comprehensive sessions that address current issues in Waste Management 2023.
Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.
Register now for the conference by choosing an appropriate package suitable to you.
Proper solid waste management also look afterward citizens from biohazards and physical harm, nurtures community health, helps sanitation, and delivers opportunities to make from recycling. The sources of solid waste have residential, commercial, institutional, and industrial activities. Definite kinds of wastes that root immediate danger to bare individuals or environments are classified as hazardous; these are talk over in the article hazardous-waste management. Poor waste management - ranging from non-existing collection systems to ineffective disposal - causes air pollution, water and soil contamination. Open and unsanitary landfills give to contamination of drinking water and can grounds infection and transmit diseases.
Plastic pollution can alter habitats and natural processes, reducing ecosystems capacity to adapt to climate change, directly affecting millions of people's livelihoods, food production capabilities and social well-being. The dangerous chemicals released from plastic products throughout their whole life cycle can pose a serious risk to humans and the environment, including when waste is not correctly managed, finding its way to air, water and soils.
Here are six essential steps to recycle plastic materials.
Step 1: Collection of Waste Plastic
Step 2: Sorting of Plastics into Categories
Step 3: Washing to Remove Impurities
Step 4: Shredding and Resizing
Step 5: Identification and Separation of Plastics
Step 6: Compounding
Hazardous waste can be preserved by chemical, thermal, biological, and physical procedures. Chemical methods contain ion exchange, precipitation, corrosion and reduction, and neutralization. Among thermal trials is high-temperature incineration, which not only can detoxify definite organic wastes but also can terminate them. The main purpose of wastewater treatment is to take out as much of the suspended solids as possible before the left behind water, called effluent, is discharged back to the environment. As solid material decays, it habits up oxygen, which is required by the plants and animals living in the water.
- Track 3-1Landfill
- Track 3-2Incineration
- Track 3-3Waste compaction
- Track 3-4Composting
- Track 3-5Vermicomposting
E-waste management is a procedure to collect e-waste, recover and recycle material by safe methods, dispose of e-waste by suitable techniques to reduce its adverse effects on environment. The recycling of e-waste helps a lot of useful purposes. For instance, contain protecting human and environmental health by keeping those devices out of landfills. Or recovering the parts within the devices that still have worth, and providing manufacturers with recycled metals that can be recycled to make new products.
Recycling is the procedure of converting waste materials that would usually be thrown away, into fresh materials and objects. Recycling waste reduces the quantity of harmful materials formed and reduces energy usage, therefore advancing the environment. More and more people recycle every single day. This supports to reduce the need for landfill and more costly forms of disposal. Recycling also decreases the essential for extracting (mining, quarrying and logging), filtering and giving out raw materials all of which create substantial air and water pollution.
Upcycling, also known as imaginative reuse, is the procedure of transforming by-products, waste materials, unusable, or unwanted products into new materials or products seeming to be of greater quality, such as artistic assessment or environmental value. Upcycling is a method of reusing and repurposing old, discarded materials and converting them into new items of higher value.
- Track 5-1Mechanical
- Track 5-2Energy
- Track 5-3Chemical
Wastewater treatment is a procedure used to remove impurities from wastewater and change it into an effluent that can be returned to the water cycle. Erstwhile returned to the water cycle, the effluent makes an all right impact on the terrain or is reused for colorful purposes (called water recapture). There are three main stages of the wastewater treatment methods, aptly known as primary, secondary and tertiary water treatment. In some employments, more innovative treatment is necessitated, known as quaternary water treatment.
- Track 6-1Physical water treatment
- Track 6-2Biological water treatment
- Track 6-3Chemical treatment
- Track 6-4Sludge treatment
Waste- to- energy (WtE) or energy- from- waste ( EfW) is the procedure of generating energy in the form of electricity and/ or heat from the main treatment of waste, or the processing of waste into an energy source. WtE is a form of energy recovery. The waste (energy) is burned, discharging heat. The heat goes water into smoke in a boiler. The high- pressure smoke tries the blades of a turbine initiator to produce electricity. An air pollution control system do away with defilements from the combustion gas before it's released through a murk hill.
A renewable resource, also identified as an income resource, is a natural resource which will replenish to change the portion depleted by process and consumption, either through natural reduplication or other reiterating procedures in a finite volume of time in a natural time scale.
Renewable energy is energy that is composed from renewable resources that are naturally replenished on a human period. It contains sources such as sunlight, wind, rain, tides, waves, and geothermal heat. Although maximum renewable energy sources are sustainable, some are not.
- Track 8-1Solar energy
- Track 8-2Geothermal energy
- Track 8-3Wind energy
- Track 8-4Biomass
- Track 8-5Hydropower
- Track 8-6Hydroelectric
- Track 8-7Ocean Energy
- Track 8-8Hydrogen
Landfill sites are intended to store waste. They are designed to reduce the effect of garbage on human health and the environment. Modern landfills are totally closed to reduce pollution of nearby groundwater. First, the soil is enclosed with clay. A thin layer of flexible plastic is positioned on top of the clay layer. That allows for the accumulation of leachate, a liquid that permits through the landfill and may release toxins from waste. As the debris is sited on the ground in a growing pile, it is piled up into a solid heap. Each day a layer of soil is detached and covered with garbage to prevent odors and problems with rats. Therefore, the landfill is typically made up of compressed layers of debris and soil.
- Track 9-1Municipal Solid Waste Landfills
- Track 9-2Industrial Waste Landfills
- Track 9-3Hazardous Waste Landfills
- Track 9-4Green Waste Landfills
Pollution is distinct as “the pollution of the visible and living parts of the earth / atmosphere system in such a method that the normal processes of the environment are adversely pretentious. For instance, deforestation, burning of bushes, dumping of agricultural and household wastes in water bodies, usage of chemicals in harvesting aquatic animals, and improper disposal of electronic wastes, all contributes to air, land, and water pollution.
- Track 10-1Air pollution
- Track 10-2Water pollution
- Track 10-3Land Pollution
- Track 10-4Soil Pollution
- Track 10-5Noise Pollution
- Track 10-6Thermal Pollution
- Track 10-7Industrial Pollution
- Track 10-8Light Pollution
Improper waste management contributes to climate change and air pollution, and this one directly affects biodiversity and animal coordination. Waste disposal sites, measured a last resort in waste management, release methane, an exceedingly potent greenhouse gas associated with climate change. Waste disposal frequently takes place by uncontrolled dumping on unsuitable spots, e.g. river banks, streets, canals, or small and large rubbish heaps. In general speaking, the amount of waste rises in proportion to an improved purchasing power, industrial development, rationalization within trades and specializations.
Bioenergy is one of the various resources available to help meet our energy need. It is a kind of renewable energy derived from living organisms well-known as biomass, which can be used to produce fuel for transportation, heat, electricity, and products. Bioenergy is renewable energy formed from living organisms (called “biomass”) such as plants, which have energy from the sun stored as chemical energy. Bioenergy manufacturers can change this energy into liquid fuel called "biofuel" - through the procedure of converting chemicals into a bio-refining process. Bioenergy is generated from renewable, biological sources such as biomass. Biomass is a plant that can be converted into fuel (also known as biofuel when made from organic matter) to deliver heat and electricity. Bioenergy can be found in numerous types of biofuels.
- Track 12-1Agricultural residues
- Track 12-2Animal waste
- Track 12-3Forest residues
- Track 12-4Industrial wastes
- Track 12-5Solid waste
Low and non-waste technologies (LNWT) of production meant at waste minimization at all points in the cycle of production through method changes, good housekeeping, recycle and reuse, equipment design, and product formulations.
- Track 13-1Smart Waste Bins
- Track 13-2Waste Level Sensors
- Track 13-3AI Recycling Robots
- Track 13-4Garbage Truck Weighing Mechanisms
- Track 13-5Pneumatic Waste Pipes
- Track 13-6Solar-Powered Trash Compactors
- Track 13-7E-Waste Kiosks
- Track 13-8Recycling Apps
Landscaping to take away dirt or debris from water (both ground and surface water) and soil. These contaminants are indifferent to protect human health, as well as to bring back the environment. Example: Environmental remodeling techniques contain excavation, extraction, oxidation, evaporation, thermal desorption, pump and treatment, nano remediation, and more.
- Track 14-1Soil remediation
- Track 14-2Groundwater remediation
- Track 14-3Surface water remediation
- Track 14-4Sediment remediation
Trash contaminated with blood and other body fluids (e.g. from unwanted diagnostic samples), customs and stocks of infectious material from laboratory work (e.g. waste from post-mortem and ill animals from laboratories), or waste from infected patients (e.g. and disposal) medical equipment)
- Track 15-1Infectious
- Track 15-2Hazardous
- Track 15-3Radioactive
- Track 15-4General
Thermal heat recovery, also known as waste heat recovery, is the use of heat energy that is released from extra industrial processes and that may be dispersed in a nearby in use area. This temperature difference lets for heat transfer and thus energy transfer, or in this case, recovery. Thermal energy is generally obtained from liquid or gas unused to fresh air for self-cleaning and water infiltration of buildings, such as HVAC systems, or processing systems. Units work on the principle of renewable energy, releasing as much sense energy as possible from the exhaust air that comes out of your building. As the air from the inside of the building is changed by the outside air, the heat energy of the outgoing air is nowhere to be found.
- Track 16-1Cement kiln
- Track 16-2Gasification
- Track 16-3Incineration
- Track 16-4Mechanical heat treatment
- Track 16-5Pyrolysis
- Track 16-6Thermal DEpolymerization
- Track 16-7Waste autoclaves
Formalization of national parks, wildlife sanctuaries, conservation reserves and community capitals. Safety to environment and wildlife inside places of such protected areas. Development of National Board for Wildlife and State Boards for Wildlife for identification of upcoming protected areas. Federal and state environmental rules protect air quality, water quality, waste management, land conservation, chemical and oil spills, and drinking water quality. Some environmental policies regulate the activities of private individuals, organizations, or businesses.
There are many technologies used in industrial and transportation procedures to control pollution. The technology for controlling particle emission chambers, gravitational separators, centrifugal separators, particulate wet scrubber etc. The usage of sensors in controlling pollution has turn out to be a widespread practice.
- Track 18-1Source Control
- Track 18-2Recycling
- Track 18-3Cleaning of Resources
- Track 18-4Industry Site Selection
- Track 18-5Proper Treatment of Industrial Waste
- Track 18-6Rebuilding Habitats and Afforestation
- Track 18-7Stricter Laws and Enforcement
- Track 18-8Regular Environmental Impact Assessments
It improves the quality of air and water by reducing pollution: Pick up the check organic waste in recycling facilities evades odor problems, as well as gas emissions and leachates in landfills and incinerators. Biological usage of industrial wastewater is a procedure whereby organic substances are used as food by bacteria and other microorganisms. Just about any organic substance can be used as food by one or more type of bacteria, fungi, ciliates, rotifers, or other microorganisms. Biological processing techniques contain using enzymes to fine-tune functional properties like solubility, gelling capacity, and fat- and water-binding capacity or by means of microbial fermentation to change plant protein feedstocks into extra functional forms.
An animal food (feed) element is a component portion, constituent, or a little combination/mixture added to and including the animal food. Animal food ingredients might comprise grains, milling by-products, extra vitamins, minerals, fats/oils, and other nutritional and energy bases. Good nutrition provides your animals the vigor to grow, develop, and reproduce, and strong immunity to fight off infections. All these advantages lead to extra profitable as well as sustainable agriculture.
- Track 20-1Herbivores
- Track 20-2Omnivores
- Track 20-3Carnivores