EPANET - thematrix.itthematrix.it/irrigationit/lessons/lesson 4/0401 Epanet.pdf · steps in using...
Transcript of EPANET - thematrix.itthematrix.it/irrigationit/lessons/lesson 4/0401 Epanet.pdf · steps in using...
THE IRRIGATION QUESTIONS
HOW TO IRRIGATE
HOW MUCH TO IRRIGATE
WHEN TO IRRIGATE
Pressurized
pipe network
WHAT IS EPANET EPANET IS A COMPUTER PROGRAM THAT PERFORMS EXTENDED
PERIOD SIMULATION OF HYDRAULIC AND WATER QUALITY BEHAVIOR WITHIN PRESSURIZED PIPE NETWORKS.
A NETWORK CONSISTS OF PIPES, NODES (PIPE JUNCTIONS), PUMPS, VALVES AND STORAGE TANKS OR RESERVOIRS.
EPANET TRACKS THE FLOW OF WATER IN EACH PIPE, THE PRESSURE AT EACH NODE, THE HEIGHT OF WATER IN EACH TANK,
ALSO EPANET TRACK THE CONCENTRATION OF A CHEMICAL SPECIES THROUGHOUT THE NETWORK DURING A SIMULATION PERIOD COMPRISED OF MULTIPLE TIME STEPS
HYDRAULIC MODELING CAPABILITIES EPANET CONTAINS A STATE-OF-THE-ART HYDRAULIC ANALYSIS
ENGINE THAT INCLUDES THE FOLLOWING CAPABILITIES:
PLACES NO LIMIT ON THE SIZE OF THE NETWORK THAT CAN BE
ANALYZED
COMPUTES FRICTION HEADLOSS USING THE HAZEN-WILLIAMS,
DARCY-WEISBACH, OR CHEZY-MANNING FORMULAS
INCLUDES MINOR HEAD LOSSES FOR BENDS, FITTINGS, ETC.
MODELS CONSTANT OR VARIABLE SPEED PUMPS
COMPUTES PUMPING ENERGY AND COST
HYDRAULIC MODELING CAPABILITIES MODELS VARIOUS TYPES OF VALVES INCLUDING SHUTOFF, CHECK,
PRESSURE REGULATING, AND FLOW CONTROL VALVES
ALLOWS STORAGE TANKS TO HAVE ANY SHAPE (DIAMETER CAN VARY
WITH HEIGHT)
MODELS PRESSURE-DEPENDENT FLOW ISSUING FROM EMITTERS
(SPRINKLER HEADS)
CAN BASE SYSTEM OPERATION ON BOTH SIMPLE TANK LEVEL OR
TIMER CONTROLS AND ON COMPLEX RULE-BASED CONTROLS.
STEPS IN USING EPANET ONE TYPICALLY CARRIES OUT THE FOLLOWING STEPS WHEN USING EPANET
TO MODEL A WATER DISTRIBUTION SYSTEM: 1. PRELIMINARY SETTING 2. DRAW A NETWORK REPRESENTATION OF YOUR DISTRIBUTION SYSTEM 3. EDIT THE PROPERTIES OF THE OBJECTS THAT MAKE UP THE SYSTEM 4. DESCRIBE HOW THE SYSTEM IS OPERATED 5. SELECT A SET OF ANALYSIS OPTIONS 6. RUN A HYDRAULIC ANALYSIS 7. VIEW THE RESULTS OF THE ANALYSIS
STEP 2 - DRAWING THE NETWORK
1. FIRST WE WILL ADD THE RESERVOIR.
CLICK THE RESERVOIR BUTTON
1. NEXT WE WILL ADD THE JUNCTION NODES.
VIEW THE NODES PRESSURE SELECT NODE PRESSURE FROM THE BROWSER’S MAP PAGE
AND OBSERVE HOW PRESSURE VALUES AT THE NODES
BECOME COLOR-CODED. TO VIEW THE LEGEND FOR THE
COLOR-CODING, SELECT VIEW >> LEGENDS >> NODE (OR
RIGHTCLICK ON AN EMPTY PORTION OF THE MAP AND
SELECT NODE LEGEND FROM THE POPUP MENU). TO CHANGE
THE LEGEND INTERVALS AND COLORS, RIGHT CLICK ON
THE LEGEND TO MAKE THE LEGEND EDITOR APPEAR.
FLOW OF THE PIPE
NOTE THAT FLOWS WITH NEGATIVE SIGNS MEANS
THAT THE FLOW IS IN THE OPPOSITE DIRECTION
TO THE DIRECTION IN WHICH THE PIPE WAS
DRAWN INITIALLY
EMITTERS EMITTERS ARE DEVICES ASSOCIATED WITH JUNCTIONS THAT MODEL THE FLOW
THROUGH A NOZZLE OR ORIFICE THAT DISCHARGES TO THE ATMOSPHERE. THE FLOW
RATE THROUGH THE EMITTER VARIES AS A FUNCTION OF THE PRESSURE AVAILABLE AT
THE NODE:
Q = C H^G
WHERE Q = FLOW RATE,
H = PRESSURE,
C = DISCHARGE COEFFICIENT,
AND G = PRESSURE EXPONENT.
FOR NOZZLES AND SPRINKLER HEADS G EQUALS 0.5 AND THE MANUFACTURER USUALLY
PROVIDES THE VALUE OF THE DISCHARGE COEFFICIENT IN UNITS OF GPM/PSI 0.5
(STATED AS THE FLOW THROUGH THE DEVICE AT A 1 PSI PRESSURE DROP).
THE HAZEN-WILLIAMS FORMULA IS THE MOST COMMONLY USED HEADLOSS FORMULA IN THE US. IT CANNOT BE USED FOR LIQUIDS OTHER THAN WATER AND WAS ORIGINALLY DEVELOPED FOR TURBULENT FLOW ONLY.
THE DARCY-WEISBACH FORMULA IS THE MOST THEORETICALLY CORRECT. IT APPLIES OVER ALL FLOW REGIMES AND TO ALL LIQUIDS.
THE CHEZY-MANNING FORMULA IS MORE COMMONLY USED FOR OPEN CHANNEL FLOW.
MINOR LOSSES (ALSO CALLED LOCAL LOSSES)
MINOR HEAD LOSSES ARE CAUSED BY THE ADDED
TURBULENCE THAT OCCURS AT BENDS AND FITTINGS.
THE IMPORTANCE OF INCLUDING SUCH LOSSES DEPENDS
ON THE LAYOUT OF THE NETWORK AND THE DEGREE OF
ACCURACY REQUIRED.
VALVES VALVES ARE LINKS THAT LIMIT THE PRESSURE OR FLOW AT A SPECIFIC POINT IN THE
NETWORK. THEIR PRINCIPAL INPUT PARAMETERS INCLUDE: · START AND END NODES · DIAMETER · SETTING · STATUS. THE COMPUTED OUTPUTS FOR A VALVE ARE FLOW RATE AND HEADLOSS. THE DIFFERENT TYPES OF VALVES INCLUDED IN EPANET ARE: · PRESSURE REDUCING VALVE (PRV) · PRESSURE SUSTAINING VALVE (PSV) · PRESSURE BREAKER VALVE (PBV) · FLOW CONTROL VALVE (FCV) · THROTTLE CONTROL VALVE (TCV) · GENERAL PURPOSE VALVE (GPV).