Track 1. Recycling Waste – The Environment Protection:

Recycling is the technique of changing waste materials into reusable objects to stop the waste of probably beneficial materials, decrease the consumption of clean raw materials, energy usage, air pollution from incineration and water pollution by means of reducing the need for “conventional” waste disposal and reducing greenhouse fuel emissions in contrast to plastic production. Recycling is a key factor of current waste reduction and is the third component of the “Reduce, Reuse and Recycle” waste. Recycling no longer solely advantages the surroundings however additionally has a tremendous impact on the economy.

Benefits of Recycling:

• Reduces the amount of waste sent to landfills and incinerators.
• Conserves natural resources such as timber, water & minerals.
• Increases economic security by tapping a domestic source of materials.
• Prevents pollution by reducing the need to collect new raw materials.
• Saves energy.

Track 2. Waste Management – Human Health and Environment:

The method of waste management includes treating solid and liquid waste. During the treatment, it additionally affords a range of options for recycling objects that aren’t categorized as trash. The whole thought as a consequence boils down to re-using garbage as a precious resource and given our current environmental climate, this system is extraordinarily imperative for all households and businesses. “Waste management is all the things to do and movements required for control waste from its inception to closing disposal. This consists of different things, collection, transport, treatment and disposal of waste collectively with monitoring and regulation.

The Benefits of Waste Management:

• Better Environment
• Reduces Pollution
• Conserves Energy
• Creates Employment
• Helps Make a Difference
• Various Methods of Waste Disposal
• Landfills
• Incineration/Combustion
• Recovery and Recycling
• Plasma gasification
• Composting
• Waste to Energy (Recover Energy)
• Special Waste Disposal
• Avoidance/Waste Minimization

Track 3. Renewable Energy - Power for a Sustainable Future:

Renewable energy, frequently referred to as clean energy, comes from natural sources or techniques that are continuously replenished. For example, sunlight or wind preserve shining and blowing, even if their availability relies upon time and weather. The developing interest in "renewables" has been brought on in part, with the aid of growing challenges over the pollution, resource depletion and feasible climate change alternate implications of our persevering with the use of conventional fossil and nuclear fuels. But current technological tendencies have additionally multiplied the cost-effectiveness of many the renewables, making their monetary potential seem to be increasingly more attractive.

Track 4. Water, Sanitation, Hygiene, and Waste Management for the COVID-19 Virus:

The provision of safe water, sanitation and hygienic prerequisites are vital for defending human health at some stage in all infectious disease outbreaks, inclusive of coronavirus sickness (COVID-19). Ensuring evidenced-based and consistently applied WASH and waste management practices in communities, homes, schools, marketplaces, and healthcare facilities will help prevent human-to-human transmission of, the virus that causes COVID-19. Sanitary waste is bio-hazardous since it harbours pathogens which spread infectious diseases. It cannot be stored for long. it decomposes very quickly, spreads bad odours and is disgusting to be around.

Track 5: Covid-19 Biomedical Waste:

Disposal of biomedical waste generated from hospitals treating COVID-19 patients additionally needs intense care as they can be potential carriers of the virus – SARS CoV2. Biomedical waste from COVID-19 wards is surpassed over to the collection dealers with a separate tag, after packing and sealing it in a three-layered cover. Hospitals that are concerned in COVID-19 management are now not supposed to combine them with other biomedical waste.  

Types of Biomedical Waste:

• Infectious Waste
• Pathological Waste
• Sharps

Track 6. Medical Hazardous Waste Disposal and Treatment Technologies:

The risks of infection from medical waste and preclude scavenging may concurrently cause other health and environmental hazards. The incineration of certain kinds of medical waste, particularly those which contain heavy metals or chlorine, may release toxic substances into the atmosphere (due to, for example, insufficiently high incineration temperatures or the inadequate control of emissions). Disposal of the waste by burial in a landfill may cause the pollution of groundwater (if the site is inappropriately designed and/or managed). Because of the aforementioned hazards, when a treatment or disposal solution for medical waste is selected (especially when there is a risk of toxic emissions or other dangerous consequences),  the relative risks and the integration of the method into the overall framework of a comprehensive waste strategy should be carefully evaluated taking local conditions into consideration.

The Various Technologies for Medical Waste Disposal:

Incineration
Chemical Disinfection
Wet Thermal Treatment
Microwave Irradiation
Land Disposal
Inertization

Track 7. Biodegradable Waste:

Biodegradable material can be described as a material which can be decomposed through b microorganisms or different natural organisms and no longer be included in pollution. Biodegradable wastes are such waste substances which are and can be degraded by using natural elements like microbes (bacteria, fungi etc.), abiotic factors like temperature, UV, oxygen, etc. Some examples of such wastes are food materials, kitchen wastes, and different natural wastes. Microorganisms and different abiotic elements collectively break down complicated substances into less difficult natural things which in the end suspend and fade into the soil. The entire technique is natural which can be fast or slow. Therefore, the environmental troubles and risks brought on by using biodegradable wastes are low.

Track 8. Organic Waste Management:

It is a managed process which utilizes microorganisms naturally present in organic matter and soil to decompose organic material. Organic wastes are the major raw material of organic fertilizer. When the soil is deficient in organic materials, the fertility will be degraded and the health of crops will surely be affected. Thus, humans must use more chemical fertilizers and pesticides to cultivate. These microorganisms require basic nutrients, oxygen, and water in order for decomposition to occur at an accelerated pace.

Track 9. Application of Digital Technology in Waste Management:

The collection and recovery of waste are one of the major challenges facing our regions, demanding the deployment of significant human, technical and financial resources. Technology applications shall play an important role in waste management. It can be used to track a product throughout its lifecycle to ensure it is not disposed of irresponsibly. Technology can be used in the form of mobile apps to request on-demand waste pick-up services from residential societies as well as factories. The ongoing digitization of these services represents an opportunity to both improve them and reduce their environmental impact.

Track 10: Plastic Recycling:

Plastic recycling refers to the process of recovering waste or scrap plastic and reprocessing the materials into functional and useful products. This activity is known as the plastic recycling process. The goal of recycling plastic is to reduce high rates of plastic pollution while putting less pressure on virgin materials to produce brand new plastic products. The simplest of plastic recycling processes involves collecting, sorting, shredding, washing, melting, and pelletizing. The actual particular processes vary based on plastic resin or type of plastic product.

The Global waste management and remediation offerings market is anticipated to decline from $550.7 billion in 2019 to $545.6 billion in 2020 at a compound annual boom charge (CAGR) of -1%. The decline is ordinarily due to monetary slowdown throughout nations owing to the COVID-19 outbreak and the measures to comprise it. The market is then anticipated to get better and develop at a CAGR of 6% from 2021 and attain $640.9 billion in 2023. Waste management corporations are the use of technologies such as Internet of Things (IoT) for higher administration of waste and recycling. IoT offers options such as route optimization and operational analytics to decreasing costs. A waste management business enterprise referred to as Enevo created a dumpster sensor and software program machine which can talk with the waste management employer and inform them whether or not the container is at full capacity, when it desires to be emptied permitting them to reduce pointless fees - and these sensors additionally can assist the agency forecast when a dumpster will be full, permitting them to layout beforehand future routes.

Report Scope:

This covers market characteristics, measurement and growth, segmentation, regional and country breakdowns, aggressive landscape, market shares, developments and techniques for this market. It traces the market's historical and forecast market boom by way of geography. It locations the market inside the context of the wider waste administration and remediation services market, and compares it with different markets.

The market characteristics section defines and explains the market:

• The market size section gives the market size ($b) covering both the historic growth of the market, the impact of the Covid 19 virus and forecasting its recovery.
• Market segmentations break down market into sub markets.
• The regional and country breakdowns section gives an analysis of the market in each geography and the size of the market by geography and compares their historic and forecast growth. It covers the impact and recovery trajectory of Covid 19 for all regions, key developed countries and major emerging markets.
• Competitive landscape gives a description of the competitive nature of the market, market shares, and a description of the leading companies. Key financial deals which have shaped the market in recent years are identified.
• The trends and strategies section analyses the shape of the market as it emerges from the crisis and suggests how companies can grow as the market recovers.
• The waste management and remediation services market section of the report gives context. It compares the waste management and remediation services market with other segments of the commercial services market by size and growth, historic and forecast. It analyses GDP proportion, expenditure per capita, waste management and remediation services indicators comparison.