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Aeration is an integral part of any biological wastewater treatment process. The effectiveness of the process largely depends on how well designed the aeration system is.
Selecting the right technology may make all the difference for your wastewater treatment application.
Learn About the Robuschi Blower Portfolio for Aeration in Wastewater Treatment
Aeration is a technique supporting the biological processes that take place in the second stage of the wastewater treatment (WWT) process.
The pre-filtered wastewater that enters aeration tanks still contains ammonia and very small organic particles that could not be filtered out in the sedimentation tanks.Large amounts of compressed air are introduced into the process via a system of surface or submerged diffusers.
The aim is to feed the microorganisms present in the wastewater and thus effectively remove the waste and pollutants from it.The biological process is energy intensive, but it is a very efficient way of treating wastewater as it may take as little as 5-6 hours.
Aeration provides dissolved oxygen that microorganisms need to carry out biodegradation processes.
The bacteria contained in the wastewater help to treat and stabilize it by breaking down organic matter. Without a sufficient amount of oxygen, the biodegradation is slow and results in an incomplete conversion of the pollutants.When occurring under septic conditions, the process often sees hydrogen and sulfur form hydrogen sulfide.
Carbon is transformed into methane or converted into organic acids. This leads to the creation of low pH conditions in the basin, hampering the treatment process and accelerating the production of odor.
Aeration is a crucial step of the wastewater treatment process. It assists in removing undesired compounds from the water, preparing it for the next phase of treatment. Additionally, it is cost-effective and environmentally friendly. Most municipal and industrial water treatment plants use aeration as part of an overall process to purify water and remove its pollutants.
Different blower technologies are used in aeration processes depending on the design and operation of the particular wastewater treatment facility. In general, the aeration process requires a large amount of air which is supplied by single or multiple blowers.
Typically, large lobe & screw blowers, multi-stage centrifugal and high-speed turbo blowers are used. In some smaller plants, low capacity and low pressure side channel blowers are utilized.
Due to the constantly changing biological air demand (BOD) of aeration processes, multiple blowers are often used. They are controlled centrally to ensure efficient and continuous operation. The air that blowers supply to the aeration basin has several functions.
The first one is to provide the oxygen needed for metabolizing organic compounds in the wastewater. The oxygen must be dissolved in order to be used by the microorganisms. This is done by diffusers that produce tiny or micro bubbles in the wastewater. Secondly, oxygen is required when microorganisms convert ammonia (NH3) into nitrate (NO3), a process known as nitrification. Nitrification often accounts for half of the total process oxygen demand.
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The energy used for aeration in a wastewater treatment plant typically accounts for between 50% and 60% of the facility’s total energy consumption. In some cases, the figure may be as high as 70%.Blower efficiency is therefore a key priority, but analyzing rated energy efficiency alone is not the best measure of long-term operating costs.There are many other variables and operating conditions to consider in order to select the most suitable aeration blower.
These include capital investment and operating and maintenance costs that are together known as Total Cost of Ownership (TCO).The aim of TCO is to place a single value on the complete lifecycle of a capital purchase. In the wastewater treatment industry, one must take into account every phase of ownership, from the initial purchase price to energy, maintenance, repair and service costs.
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The average lifecycle of a WWT plant ranges between 20 and 25 years. Specifying blowers for such a long period of service can prove a challenge, especially when one considers how fast technology has been evolving in recent decades. Meanwhile, decision makers need to plan for both a plant’s existing capacity and its future growth.
A common problem seen in WWT plants is the over-sizing of solutions in an attempt to accommodate future demand. This is unnecessary and can be costly in terms of both the initial outlay and any on-going maintenance expenditure. Turndown is an essential factor that can help accommodate changes in demand over a period of time. Although it is often overlooked when blower systems are specified, it can have a big impact on a system’s lifetime costs.
This challenge can be addressed by considering blowers’ turndown in the selection process. It needs to be taken into account when you purchase a long-lasting blower solution for your WWT plant and balanced against TCO. The end result? The most efficient, cost-effective blower solution for your site, whether that’s…
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