HTC – Municipal Wastewater Gasification System
The characteristics of wastewater from toilets and bathrooms depend on the source of the wastewater and the treatment methods. Here are several possible features: 1. Presence of organic matter and nitrogen sources: Wastewater from toilets and bathrooms typically contains human excreta, such as urine and feces, as well as residues of cleaning agents related to personal hygiene. The organic matter and nitrogen sources present in such wastewater, such as ammonium nitrogen, can impact the aquatic environment. 2. High content of microorganisms: Owing to its sanitary origin, wastewater from toilets and bathrooms has a higher content of microorganisms, including bacteria, viruses, and other microbes. These microorganisms may pose a potential risk to health and the environment. 3. Strong odors: Such wastewater often emits unpleasant odors due to the presence of excreta and cleaning agents. 4. Variable concentrations and coloration: The composition of wastewater from toilets and bathrooms can vary depending on the types of cleaning agents used, the intended use of the water, and the duration of use. As a result, concentrations and coloration of the wastewater may vary accordingly. Note that wastewater from toilets and bathrooms is often subjected to rigorous treatment and disinfection to minimize its impact on the environment and human health. These treatment processes may include sedimentation, biological treatment, chemical treatment, and disinfection. The specific properties of the wastewater also depend on the treatment system and local environmental regulations.
In response to the new EU directives, we have in our portfolio a technology that fits perfectly into a sustainable development strategy. A key solution for municipal wastewater treatment is the HTC – Municipal Wastewater Gasification System, in which the final products are condensed sludge (activated carbon) for combustion to generate electrical power and for use as a fertilizer for land reclamation, as well as green hydrogen.
