Reeston, Odour Control
Reeston, Odour Control
Project description: 22 MLD waste water treatment odour control
Process Configuration: Biotrickling Filter
Project air quality: 99% hydrogen sulfide removal
Year complicated: 2018
As part of the Reeston Wastewater Treatment Works (WWTW), QFS was responsible for the fast delivery and implementation of an I-BOx® 7010 odour control unit.
The odour control was installed for the inlet works section of the plant, as these areas are highly prone to hydrogen sulfide (H2S) generation due to the turbulence created through degritters, screens and various other equipment. The turbulent water allows the gases contained within the water to be released as the water follows its course though the inlet works.
The H2S released in these works can be a severe safety concern for the roughly 80 personnel operating at the Reeston WWTW, with high concentrations leading to severe safety risks of operators, as per Table 1.
|0.1 – 3 ppm||Odour threshold|
|3 – 10 ppm||Offensive odour||Rotten egg smell|
|10 – 50 ppm||Headache, nausea, throat and eye irritation|
|50 – 100 ppm||Eye injury||Leads to serious eye injury|
|100 – 300 ppm||Conjunctivitis, respiratory tract irritation, olfactory paralysis||Coughing, eye irritation, loss of smell after two to five minutes|
|300 – 500 ppm||Pulmonary edema||Imminent life threat|
|500 – 1 000 ppm||Strong nervous system stimulation apnea||Loss of consciousness, death possible in 30 to 60 minutes|
|1 000 – 2 000 ppm||Death||Rapid unconsciousness|
Table 1 Toxicity and effects of H2S at various concentrations (Source: ‘Odor prevention and control in process plants’, Chemical Engineering, Feb 2002, pp. 50 – 55)
The importance of odour control
Table 1 categorically highlights the importance of odour control and its effect on plant safety for operators. Typically, H2S concentrations measured at inlet works are around 300 ppm, which can cause severe discomfort and necessitate additional medical care and treatment for personnel affected.
This could lead to minimised personnel on-site, which would mean fewer operators to maintain and operate equipment, which can ultimately lead to strain on the plant and therefore strain on metropolitans and communities, as sewage cannot be treated effectively.
By implementing odour control measures such as the I-BOx, these safety concerns can be effectively mitigated, ultimately improving worker safety and the functioning of wastewater treatment plants.