environmental discovery system - festo didactic
TRANSCRIPT
DC-B/Christian Wehlers EDS for Water Management 5. April 2013
Environmental
Discovery
System
for Water Management
Festo Didactic GmbH & Co. KG
DC-B/Christian Wehlers EDS for Water Management 5. April 2013
Festo Didactic provides complete packages
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Modular training equipment for industrial processes
A holistic offer of public and customized trainings
Software for monitoring, control and evaluation
“Easy to use” workbooks for instructors and trainees
DC-B/Christian Wehlers EDS for Water Management 5. April 2013
Figures and facts about water
• 900 million people lack access to drinking water
• 90% of all diarrhoeal diseases could be avoided by proper water purification
• According to a UN Resolution of 2010, every person has a right to clean water
• By 2030 47% of the world’s population will live in regions with a lack of drinking water
• Water and wastewater plants are high energy consumers and responsible for up to 30% of municipal power consumption
• 80% of communal wastewater enters rivers, lakes and seas untreated
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DC-B/Christian Wehlers EDS for Water Management 5. April 2013
Nowadays training is not sufficient to cover the huge demand for skilled staff in a world of technological change. The trainings available are usually too theoretical. Holistic and practice-oriented training solutions are needed to train staff efficiently. Analytical and problem-solving skills are most important to reduce waste and increase efficiency of a plant. Understanding the steps before and after a specific process helps to “think ahead” and reduce down times. Automation does not mean “replacement of human resources”, it helps to standardize key processes and produce clean safe water.
Demand for smart training solutions in the water and sanitation sector
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DC-B/Christian Wehlers EDS for Water Management 5. April 2013
The EDS — Environmental Discovery System for Water Management
The EDS for Water Management
simulates the core processes of water and
wastewater treatment.
It shows how water and wastewater are
collected, transported and treated. It
fosters practical learning.
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DC-B/Christian Wehlers EDS for Water Management 5. April 2013
The advantages of the EDS for Water Management
The equipment
• is highly flexible
• has been designed according to industrial standards
• simulates the core processes of water and wastewater treatment plants
• familiarizes trainees with process automation and closed-loop control technology
• fosters practical exercises and experiments
• corresponds to its “real” counterparts in function and design
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DC-B/Christian Wehlers EDS for Water Management 5. April 2013
Module 1:
Water purification
Module 2:
Water supply
The outcomes of the six learning modules (1/3)
The trainee is able to • handle the basic processes of precipitation, flocculation and sedimentation • deal with chlorine dosage and measurement of free chlorine concentration • name problems with too high or too low chlorine dosage
The trainee is able to • name the characteristics of different pump types and operate the pumps • understand the influences on pump performance during water supply • work with the relationship between pressure and volume flow rate in a piping system • control water supply by different valve types • control the fill level of a high tower while simultaneously water is withdrawn • describe the significance of pressure zones in a water distribution area • identify water loss and name the basic problems involved in detecting leaks
in water distribution networks
DC-B/Christian Wehlers EDS for Water Management 5. April 2013
The trainee is able to • simulate and explain basic processes related to the sedimentation of sludge • analyse the behaviour of flocs under different flow rates and solids load • name the consequences of hydraulic overload of a wastewater treatment
plant • describe the basic function of aerobic water purification and the role of
sludge recirculation • describe the significance of oxygen injection into the activation tank • measure the amount of dissolved oxygen and explain the benefits of
constant measuring
Module 3:
Wastewater transport
Module 4:
Wastewater treatment
The outcomes of the six learning modules (2/3)
The trainee is able to • handle the transport of solids in sewers with varying flow rates in a combined
sewage sewer • name the effects of exceeding the hydraulic capacity • deal with the sedimentation and the impact of a blockage in a sewer • name the basic mechanisms that lead to a first flush • describe the role of a rain overflow basin and his components • line out the basic mode of operation of a through-flow basin with regard to
retention of solids
DC-B/Christian Wehlers EDS for Water Management 5. April 2013
The trainee is able to • identify the difference in energy consumption between the free and the
narrowed piping system • find out potentials for energy saving and energy conversion in water- and
wastewater treatment processes • measure energy consumption and calculate efficiency of pumps and valves • compare different control strategies regarding their energy demand to
optimise efficiency • estimate and calculate costs of different controller strategies • describe the structure and methods of energy management
Module 5:
Monitoring, controlling and optimising
Module 6: Energy optimisation in water
and wastewater treatment plants
The outcomes of the six learning modules (3/3)
The trainee is able to • differentiate between linear and non linear system characteristics • control the fill level using a two-step controller and a continuous controller • control the flow using a proportional-integral controller • describe the characteristics of different controllers and their relevant settings • explore the impacts of controller settings on energy consumption • adjust the volumetric flow by using different controller settings for the
proportional media valve • evaluate the best control strategy for the aeration process
DC-B/Christian Wehlers EDS for Water Management 5. April 2013
Modular structure
1. Water purification system
has been designed for use in the learning modules:
Water purification
Energy optimisation in water and wastewater
2. Water supply system
has been designed for use in the learning modules:
Water supply
Monitoring, controlling and optimising operations
Energy optimisation in water and wastewater treatment plants
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The four systems can be integrated to simulate the complete water cycle or used stand-alone.
DC-B/Christian Wehlers EDS for Water Management 5. April 2013
Modular structure
3. Wastewater transport system
has been designed for use in the learning modules:
Wastewater transport
Monitoring, controlling and optimising operations
Energy optimisation in water and wastewater treatment plants
4. Wastewater treatment system
has been designed for use in the learning modules:
Wastewater treatment
Monitoring, controlling and optimising operations
Energy optimisation in water and wastewater treatment plants
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DC-B/Christian Wehlers EDS for Water Management 5. April 2013
Sensors for monitoring, control and evaluation
Flow sensor Type 2
Controller
Ultrasonic sensor
Pressure sensor
Manometer
Capacitive proximity sensor
Float switch
Magneto-inductive flow sensor
Dissolved oxygen sensor
Chlorine sensor
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Typical water- related process variables, such as fill level, flow and pressure are constantly measured.
DC-B/Christian Wehlers EDS for Water Management 5. April 2013
Pumps and valves for efficient operation
Proportional media valve
Submersible pump Gate valve with pneumatic actuator
Recirculating Pump
2/2 way solenoid valve
2-way ball valve with pneumatic rotary actuator
Air blower
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DC-B/Christian Wehlers EDS for Water Management 5. April 2013
Water purification Water supply
Wastewater transport Wastewater treatment
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Software designed to integrate operational practice with didactic demands
A Windows-based PC tool depicts the equipment modules and processes. A clear menu structure and the simple graphical interface meet the didactic demands of instructors and trainers. All exercises can be selected for various levels. From beginner to expert.
DC-B/Christian Wehlers EDS for Water Management 5. April 2013
Alternatives of software control
W-SPL WW-TRA WW-TRT W-PUR
PC
W-SPL WW-TRA WW-TRT W-PUR
PC PC PC PC
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It is possible to operate each system stand-alone or interconnected simulating the complete water- cycle.
DC-B/Christian Wehlers EDS for Water Management 5. April 2013
Festo Didactic – Training offer
Have a look at our training catalogue:
PA231:
Water purification processes in modern water works
PA241:
Safe and efficient water transport and distribution
PA251:
Key processes of wastewater transport and control
PA261:
Fundamentals of modern wastewater treatment processes
PA271:
Monitoring, controlling and optimising operations in water and wastewater treatment plants
PA281:
Energy optimisation in water and wastewater treatment plants
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Trainings are available worldwide to qualify the technical staff of water and wastewater treatment plants.
DC-B/Christian Wehlers EDS for Water Management 5. April 2013
Ordering the EDS for Water Management
No: 8024503 - Water source
No: 8024505 - Water supply
No: 8024506 - Wastewater transport
No: 8024507 - Wastewater treatment
No: 8024504 - Water purification
1x Oxygen sensor 1x Chlorine sensor 4x DC-Wattmeter
The complete EDS Water Management No: 8024501
including
optional
Furniture not included
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Water tank 1x at least
Product numbers:
DC-B/Christian Wehlers EDS for Water Management 5. April 2013
„Coming soon“
Sand filtration Adsorption Ultrafiltration
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