wastewater transport - festo didactic€¦ · the core processes of water and wastewater treatment...
TRANSCRIPT
The training equipment
The EDS® – Water Management is a modular training equipment which simulates
the core processes of water and wastewater treatment plants.
The EDS Wastewater Transport System
Wastewater transport
EDS® – Water
Management
Festo Didactic
11/2013
Wastewater transport
Introduction to the learning module “Wastewater transport”
Wastewater is produced from the use – and contamination – of water in households, commerce, industry
and agriculture. It is supplemented by runoff from roads, roofs and other paved areas following rain.
It is transported to wastewater treatment plants by gravity and, if necessary, by powerful pumps. Rainwater
is often transported to the wastewater treatment plant with other wastewater in a “combined rainwater and
sanitary sewage system” (short: combined sewer). Runoff from rainfall regularly multiplies the flow in the
combined sewer, it reaches ma multiple of the dry weather flow.
Flooding of a lane near a pumping station in the countryside. Cover plates of manholes in the lane were lifted off by the submerging
water, front left side. (Source: Peter Maurer, ISWA, University of Stuttgart, Germany)
Private households generate between 50 l and 400 l of wastewater per person per day, depending on the
region. Where wastewater treatment data are not available, the quantity of wastewater from households is
determined based on drinking water consumption. For example: In 2010, all municipal wastewater in the
German state of Baden-Württemberg was treated in central wastewater treatment plants. The Baden-
Württemberg State Bureau of Statistics stated an average volume of 147 l per resident per day.
Depending on its origin, wastewater can contain many dissolved and suspended contaminants: highly
degradable organic materials, persistent organic materials, salts, heavy-metal compounds, and fertilizers.
Some of these materials are harmful to humans, animals or water organisms, some may endanger the
quality of surface water, and some are corrosive. Solid material tends to settle. Sewer systems have to
provide transport, prevent blockage of pipes and support a stormwater overflow into the rivers as clean as
possible. This learning module focuses on the topics of hydraulic capacity of pipes, transport of solids and
control of overflow basins.
2 © Festo Didactic GmbH & Co. KG
Wastewater transport
Exercise: Transport of solids in sewers with varying flow rates
Problem description
Different flow rates occur particularly in combined rainwater and sanitary sewage systems. The EDS Water
Management has a transparent pipe or “gravity sewer” simulating the wastewater discharge with plastic
granules. Thus, the behaviour of solids in a sewer system with different flow rates can be tested and
observed directly.
Dosage of solids with screw feeder
Layout
In the EDS® – Water Management training equipment, solids in the wastewater are represented by coloured
plastic granules. These granules can be dosed into the storage tank of the Wastewater Transport System
(B303) by a metering screw. The granules behave similarly to solids in wastewater.
Learning outcomes
When you have successfully completed the following exercises you can:
• Describe sedimentation in a combined sewer during dry-weather periods.
• Name the basic mechanisms that lead to a first flush.
• Explain the impact of blockage of a combined sewer by solids.
© Festo Didactic GmbH & Co. KG 3
Wastewater transport
Tasks
1. Simulating dry water flow
Switch on the pump with a flow of 0.5 l/min or less. The flow rate through gravity sewers is now equivalent
to dry-weather flow. Add a dose of granules into the sewer by turning the dosage of solids (screw feeder
M351) about 3 to 5 times.
a) What happens in the transparent pipe or gravity sewer?
Like solids in the real world, the plastic granules settle in the pipe.
2. Simulating runoff during rain
The pump continues to deliver the dry-weather flow. Now simulate a runoff during rain by pouring water
manually into the system.
a) What happens to the plastic granules that settled in the pipes during the dry-weather period?
The plastic granules are flushed by the significantly greater flow in the pipe. The concentration of
granules is high, especially in the beginning of the flush.
b) What is this effect called in reality?
This effect is called “first flush” and occurs at the beginning of a rain event. As in the exercise solids
concentration is very high then.
The transparent gravity sewer with plastic granules
4 © Festo Didactic GmbH & Co. KG
Wastewater transport
3. Varying the amount of solids
The pump continues to deliver the dry-weather flow. Now, add a considerably higher quantity of the
granules, as compared to the previous exercise.
a) What effect does the large quantity of granules have?
The plastic granules settle. The large quantity results in obstructions in the pipe.
b) What effect does this have on the hydraulic capacity of the pipes?
Large quantities of settled plastic granules decrease the hydraulic capacity of the pipes up to
blockage. Impounding results, when the hydraulic capacity is exceeded.
c) See whether impounding or even blockage can be caused in the model!
In the real world this is called blockage. In extreme situations this can result in unplanned
submergence.
d) Increase the flow rate simulating a rain event, as in the previous task initiating a first flush.
© Festo Didactic GmbH & Co. KG 5
Festo Didactic GmbH & Co. KG
Rechbergstraße 3
73770 Denkendorf
Germany
Internet: www.festo-didactic.com
E-mail: [email protected]