To kick off our blogs we thought it would be good to have a series from good friend of the Friends of Silsden Beck, Rob Hellawell, aka #urbanpollutionhunter. Rob has been very helpful and supportive regarding last year's pollution incidents and fish kills on the lower reaches of the beck. However one of Robs main interests is pollution from domestic properties, to understand this you have to understand the sewage system, so here is part one of Rob’s explanation of the complexities of our sewage system………………. Sewage pollution of our rivers has been in the headlines in recent months. The concern has been all about untreated, sewage escapes from wastewater treatment plants. However, there can be many other, smaller pollution sources affecting our rivers that often go unnoticed; I am talking about misconnections. Misconnections are one of the main contributors to what is known as diffuse pollution, particularly in built up, urban environments. Diffuse pollution is that which has no obvious single source. The increasing effects of numerous, misconnections can have a detrimental impact on urban rivers whilst remaining unnoticed. There has always been pollution of our rivers. Many settlements have grown up around a river or beck. Clean, fresh water is vital for life, but flowing water also provides a readymade way of disposing of our waste. Ever since humans have settled by rivers, we have polluted them! It was the Victorians who built our first sewers. To understand misconnections, first we must understand how our sewers work. We have two types of sewer systems in the UK. Sewers built before the 1930s are known as combined sewers. Sewers built after the 19030s are known as separate sewers. Each has their own different pollution problems. Combined sewers take the foul sewage from our toilets, sinks and baths combined with rainwater run-off from roofs and roads and convey the whole lot to the wastewater treatment works (WWTW) where all the effluent is treated and cleaned before being returned to the river. In industrial areas, this may also include wastewater from industrial processes. However, in times of heavy rain, the combined sewer can become overloaded. In this case, our Victorian ancestors thoughtfully included a safety valve to stop sewage bubbling up in our streets and homes. The Combined Sewer Overflow (CSO) permits excess sewage to be discharged directly into the river to help keep our sewage system working during times of heavy rain. Depending on the dilution of the sewage from storm water, it is said that this overflow into the river contains 5% – 10% of raw sewage. In industrial areas this sewage will also contain industrial effluent too. Separate Sewers were later introduced to try and minimise the frequency of CSO spills into the river. In this case, the foul sewage is separated from the rainwater. The rainwater from rooves and roads is directed via a separate, surface water sewer directly into the nearest watercourse without any form of treatment. The foul sewage from toilets, sinks, baths etc. is conveyed by a separate, foul sewer to the existing, combined sewer where it passes to the WWTW, as before, for treatment. In part two we will look in more detail at how the different sewage systems can cause pollution issues in our rivers and what constitutes a misconnection.
This blog first appeared on the River Worth Friends website.
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