The Hazardous Waste of This World and How Ermafa Can Help

Every year, approximately 400 million tons(2) of hazardous waste are generated worldwide, requiring specialized and often complex disposal procedures. At the same time, about 49% of waste(3) is disposed of in landfills, 22% is poorly managed, leading to environmental issues, and 19% is incinerated. Only 9% of waste is recycled, keeping recycling rates significantly below what is possible and necessary. These figures highlight the urgent need to improve waste management systems to reduce environmental impact and make resource use more efficient.
A more sustainable and eco-friendly alternative lies in the pollutant-free sterilization of hazardous waste. Specialized processes can treat this waste in a way that allows it to be integrated into the regular disposal cycle and reused. This ensures that waste stays within the circular system and contributes to resource conservation.
There are four common methods for treating hazardous waste: incineration, chemical treatment, microwave sterilization, and shredding followed by hot steam treatment. Each of these methods has its specific advantages and disadvantages. A detailed examination of these approaches can show which method offers the most environmentally friendly and efficient solution for hazardous waste disposal. In this context, Ermafa, with its innovative technology, could play an important role in the safe and sustainable disposal of hazardous waste.

Incineration

As mentioned earlier, approximately 19%(4) of municipal waste worldwide is disposed of through incineration, a method considered a traditional approach to waste disposal. Incineration releases large amounts of CO₂, contributing to climate change. Plastic waste, in particular, which is made from fossil fuels, generates significant greenhouse gas emissions when burned. Additionally, the incineration process produces toxic pollutants, including dioxins, furans, and heavy metals, which can contaminate the air, soil, and water and pose long-term health risks. The resulting ash residues are often toxic as well and require complex disposal methods. Furthermore, incineration leads to the loss of valuable recycling potential, as recyclable materials such as metals, glass, and plastics are irreversibly destroyed. Overall, waste incineration is an environmentally harmful method that increases resource waste and exacerbates the burden on both humans and nature.
Nevertheless, there are also some positive aspects of waste incineration. One of the greatest advantages is that modern waste incineration plants can generate energy through the combustion of waste, contributing to power supply and reducing dependence on fossil fuels in some regions. Moreover, the high temperatures involved in incineration processes result in a dramatic reduction of waste volume, reducing the need for landfills and saving valuable land, which is already limited in many areas.
The use of modern filter technologies and flue gas cleaning systems in waste incineration plants can help significantly reduce emissions and pollutants, thereby mitigating environmental impact and negative effects on human health. However, without such technologies, waste incineration remains an environmentally damaging method as harmful pollutants and greenhouse gases are released uncontrollably. This leads to significant air pollution and has long-term impacts on ecosystems and habitats.
In summary, while waste incineration provides a quick solution for waste disposal and can even contribute to energy production under ideal conditions, it also highlights the need to focus more on sustainable alternatives such as recycling and waste prevention to minimize long-term environmental impacts.

Chemical treatment

The pre-treatment of hazardous waste with chemicals has both advantages and disadvantages. One of the main benefits is that chemical reactions can neutralize or transform dangerous substances, making subsequent disposal safer. This method is particularly helpful for toxic or corrosive waste, reducing the risk to both humans and the environment. Additionally, it allows for more effective deactivation of pollutants such as heavy metals and organic chemicals.
However, there are also significant drawbacks: the use of chemicals can pose secondary environmental hazards if all residues are not properly disposed of. Furthermore, the chemicals themselves can be toxic and, if handled or stored incorrectly, pose additional risks to both humans and nature. The costs associated with chemical treatment are also high, and the complexity of the procedures can, in some cases, lead to inefficient or incomplete disposal.
In summary, while chemical pre-treatment of hazardous waste offers benefits in terms of safety enhancement and pollutant reduction, it also presents ecological and economic challenges that must be carefully considered.

Microwave treatment

Among the positive aspects of microwave treatment is its potentially more energy-efficient sterilization compared to traditional methods. Microwaves directly excite the molecules of the waste, generating heat and allowing precise temperature control. This technique can handle smaller quantities more efficiently and does not require additional liquids like water, making it a dry sterilization method. This reduces the risk of dangerous fumes, as long as the microwave chamber is properly sealed.
However, the method requires specific conditions to be effective. Liquids in the waste are essential as they serve as a medium to move the molecules and ensure necessary heat transfer. For dry waste, efficiency is significantly limited since microwaves cannot effectively transfer heat.
In addition to this main drawback, there are other challenges. Microwave systems are energy-intensive, and chemical additives are often needed to support the process, resulting in additional environmental impacts. They are also ineffective when treating metals, such as needles or infusion sets, as metals reflect microwaves, leading to uneven temperatures and inefficient sterilization.
Another issue is the deformation of plastics in the waste, which can melt in the machine. This not only affects the functionality of the equipment but can also cause contamination, as melted plastic can create cavities and adhesions that hinder germ elimination. Additionally, microwave treatment often requires multi-step processes, increasing space requirements and application time. Improperly sealed containers can lead to the release of dangerous fumes, further compromising safety and efficiency.
In summary, microwave treatment is an innovative method for sterilizing hazardous waste. Its effectiveness heavily depends on the waste conditions, particularly moisture content. Moreover, technical limitations, high energy consumption, and potential material changes present significant challenges that must be addressed before widespread application can be achieved.

Shredded and treated with hot steam

The combination of autoclaves, shredder systems, and steam sterilization represents an
advanced and innovative method for the safe and efficient treatment of hazardous waste. This technology reduces waste volume by up to 80%, while liquid waste can achieve a reduction of up to 97%(5). By shredding the waste, treating it in a rotating screw mechanism for uniform and highly effective sterilization, and then sterilizing it with steam generated directly within the system, hazardous waste is transformed into ordinary household waste that can be safely disposed of.
The method achieves a Sterility Assurance Level (SAL) of up to 10⁻⁴⁸(6), far exceeding the WHO-recommended standard (SAL = 10⁻⁶)(7). This ensures the reliable elimination of even the most resistant microorganisms, such as prions, known from diseases like Creutzfeldt-Jakob. A key advantage is the chemical-free operation, requiring only electricity and water, making the technology environmentally friendly and resource-efficient.
Moreover, the process eliminates the need for additional odor control measures, as the controlled steam treatment neutralizes all waste odors. The system is user-friendly, requires no complex maintenance, and is supported by 24/7 remote service. It is available in various sizes and can be tailored to meet the specific requirements of different facilities. High safety standards are integral to its design.
Another major benefit is the ability to treat hazardous waste on-site, eliminating the need for transportation. This not only enhances efficiency but also significantly reduces CO₂ emissions. Although the initial investment is higher compared to traditional waste treatment methods, the technology proves to be cost-effective in the long run by conserving resources and reducing environmental impact.
Overall, this technology represents a groundbreaking solution for sustainable and safe hazardous waste management. While it requires upfront investment, it offers long-term benefits through high efficiency, user-friendliness, environmental sustainability, and economic viability.