Notably, waste-to-energy projects not only help to handle a large amount of waste but also provide a significant source of renewable energy.
The Government has been reiterating the message of 'not trading off the environment for economic growth' on many occasions, reflecting their consistent stance on environmental protection.
    |
 |
|
Soc Son waste-to-energy plant has power generating capacity of 90MW. |
However, with the advent of waste-to-energy technology, the concepts of 'environment and economy' can progress in tandem with no longer any need to trade off or sacrifice one for the other.
Vietnam is currently among the top 20 countries in the world with the largest amount of waste, exceeding the global averages, due to limited waste management and treatment facilities.
It is estimated that the average Vietnamese generates 1.2kg of waste per day (equivalent to nearly 70,000 tons across the whole country). Currently, over 70% of waste in Vietnam simply ends up in landfill, with only 13% being incinerated to recover energy.
Notably, landfill sites are becoming increasingly difficult to source, as the land available for this purpose is gradually shrinking.
To cope with this acute and growing problem, the development of waste-to-energy plants is seen as not only economically beneficial, but also as providing a significant and positive contribution to the environment.
The combination of modern science and technology with environmentally-friendly waste treatment processes creates a comprehensive solution for waste issues and sustainable energy production.
This helps solve the pressing issue of increasing and growing mountains of waste and the worsening air and water pollution levels.
Thus, the development of waste-to-energy plants is seen as a dual-benefit solution, expected to be a strategic approach that 'hits two targets with one arrow' addressing both economic and environmental concerns simultaneously.
According to statistics from the Department of Environmental Pollution Control, Vietnam currently has 15 waste-to-energy plants under construction, with three of them already generating electricity including the largest, the Soc Son plant operated by the Hanoi Thien Y Environmental Energy Joint Stock Company.
This has a treatment capacity of 1,000 tons per furnace per day, receiving 5,000 tons of waste daily and generating 90MW of electricity.
The Vinh Tan plant in Binh Thuan province has a capacity of treating 600 tons of waste per day and generates 30MW of electricity.
The Phu Ninh plant in Phu Tho province can incinerate 500 tons of waste per day and generate 25MW of electricity, while the Cu Chi plant in Ho Chi Minh City can process 1,000 tons of waste per day and generate 50MW of electricity.
The Soc Son plant is the biggest waste-to-energy plant in Vietnam and the second largest in the world, after the Shenzhen plant in China.
The plant has 16 waste disposal gates, each designed to accommodate different types of rubbish trucks in Vietnam and since becoming operational it has processed over 1.46 million tons of household solid waste.
Wise selection
Waste incineration technology to generate electricity is increasingly favored because of several advantages over other technologies, such as reducing waste volume and mass by 90-95%, utilizing heat, reducing greenhouse gas emissions compared to landfill and minimizing water pollution.
Hanoi and HCM City which are the two largest urban cities with the highest daily waste generation in the country are understandably also the two most vigorously promoting waste-to-energy development.
Besides accelerating the construction of waste-to-energy plants, the two cities are also focusing on improving waste treatment technology. HCM City aims to have 80% of household waste treated with modern new technology by 2025 and 100% by 2030.
Meanwhile by the end of 2024, Hanoi wants to have an additional 67MW in power generated in the Soc Son Plant and increase the energy capacity a further 129.3MW, when the Seraphin waste-to-energy plant project is fully operational.
The city will continue to implement waste treatment projects in Chuong My, Phu Xuyen, Thanh Tra, and Gia Lam districts and other areas. The construction of waste plants around the central area will help reduce transport distances, lower costs and decrease the city's budget expenditures.
Hanoi is also studying the possible use of wind power, as well as developing a network of electric charging stations and green energy supply stations for transport.
Assoc. Prof., Dr. Bui Thi An, Director of the Institute of Natural Resources, Environment, and Community Development, told Kinh te & Do Thị (Economic & Urban Affairs) newspaper under the municipal Hanoi People's Committee: "The environment is currently a very pressing issue, especially in terms of waste. To address the current environmental problems, one of the most important aspects is solving the waste problem. This must be a key focus when developing waste-to-energy solutions.
“The crucial issue now is selecting the appropriate technology that can effectively manage waste without generating other harmful pollutants.
“It is essential to thoroughly choose suitable technology without being tempted by lower costs, while ensuring transparency and openly considering the opinions of experts.”
In addition to fully exploiting technology, An said she believes that for waste-to-energy solution to truly succeed and achieve its full potential, waste classification at source is a crucial step.
"According to the experience of many countries around the world, to effectively manage waste, it is essential to optimize waste classification, transfer and collection before processing. If the classification is not done well, treatment process will be challenging," she said.
Source: VNA