Post on 16-May-2015
description
+
CENG 490Group # 6El Kanater Water Treatment Plant
Abdel Warith, Mohamed
El Aroussi, Ahmed
El Beheiry, Ahmed
Ezzo, Ahmed
Osman, Tarek
+Outline Introduction
Project Location
Calculations
Proposed Sanitary System
Schematic Design
Tasks
+Introduction Project Description: Water Treatment Plant in
Mansheyet el Kanater
Owner: Ministry of Housing, Utilities and Urban Development
Location: Between two water streams; Rasheed and Al rayyah al behery branch
The WTP will serve Mansheit El Kanater & the Nabouring Villages
+Project Location
+Project Location
+CalculationsPopulation in the previous 3 decades
Population (Capita) year
110,1701986
144,360 1996
189,797 2006
+Calculations Cont’d
Population forecast
1) Arithmetic method
k = ∆P/∆t
Pt = Po + k . ∆t
Where Po : initial population
Pt : population after time t
k : population growth factor
population growth factor (k) is 4543.7
population year
189797 2006
207971.8 2010
253408.8 2020
298845.8 2030
344282.8 2040
389719.8 2050
+Calculations Cont’dPopulation forecast
2) Geometric method
k = ln(P2/P1) / ∆t
Pt = Po . ek . ∆t
Where Po : initial population
Pt : population after time t
k : population growth factor
population growth factor (k) is 0.02736
population year
189797 2006
211748 2010
278382 2020
365986 2030
481158 2040
632573 2050
+Calculations Cont’dPopulation forecast
3) Population Growth method
Pn = Po (1+r)n
Where Po : initial population
Pn : population after n years
r : population growth rate (%)
From collected data, r= 2.66
population
r (popula
tion growth rate)
year
189797 2006
210812 2.66 2010
273033 2.62 2020
352242 2.58 2030
452663 2.54 2040
579446 2.5 2050
+Calculations Cont’d
population growth
arithmetic geometricaverage
population
2006 189797 189797 189797 189797
2010 210812 207972 211748 210177.3333
2020 273033 253409 278382 268274.6667
2030 352242 298846 365986 339024.6667
2040 452663 344283 481158 426034.6667
2050 579446 389720 632573 53391320
0020
1020
2020
3020
4020
5020
600
100000
200000
300000
400000
500000
600000
700000
population growtharithmeticgeometricaverage population
+Calculations Cont’d
Since our WTP service area consists mainly of villages with populations less than 50,000 capita, we will use a water consumption of 135 l/c/d.
The rate of increase of consumption rates can be calculated as 1/10 of the rate of increase of the population.
Average population
Water Consumption
RateQ average
2010 210177 135 28373895
2030 339025 143.276 48574145.9
2050 533913 146 77951298
Water Demand
+
Proposed Sanitary System
+
Source/ Intake
Screening
R.W Pumping Station
Distribution Chamber
Coagulant added
Flash Mixing Tanks
Sedimentation Tanks
Sand Filters
Ground Tanks
Chlorine Added
To Mansheyat Kanater Village
Sludge collection
Sludge Pumping Station
Gravity Thickeners
Sedimentation Tanks
Sludge Lagoon
Sludge Disposal
Sludge
Recycled Water
Fresh Water Tanks
Back WashProcess
Fresh Water Pumping Station
Backwash collecting tanks
R.W Pumping Station
Fresh Water Pumping Station
+Proposed Sanitary System
Comes from surface water (Rayah El Beheiry)
Water is allowed to flow through a screening process before entering the Raw Water Pumping Station
The first step in purifying surface water is to remove large debris such as sticks, leaves, trash and other large particles, which may interfere with subsequent purification steps
The water will be pumped to higher water head using Centrifugal Pumps
Intake Source
+Proposed Sanitary System Cont’d
Allocates the water to the Clariflocculator
As the water is distributed along the tanks, Primary Disinfectant (Pre-Chlorination) is added to the raw water
Water is chlorinated to minimize the growth of fouling organisms (e.g. Algae) on the pipe-work and tanks
Moreover, the Distribution Chamber receives Recycled Backwash Water (RBW)
Main Distribution Chamber
+Proposed Sanitary System Cont’d
Are Sedimentation Tanks, were the coagulation, flocculation, mixing and sedimentation process all take place
Coagulant is Added to the Raw Water
IT enables Small Particles to form big flocs faster
Flocs Precipitate at the bottom forming sludge
Sludge is collected in the Sludge Collecting Tanks
Clariflocculators contain circular channels that allow the overflowed water to move to the next treatment process (Rapid Sand Filters)
Clariflocculator
+Proposed Sanitary System Cont’d
Water moves vertically through sand that often has a layer of activated carbon or anthracite coal above the sand
The top layer removes organic compounds such as Algae
Most particles pass through surface layers but are trapped in pore spaces or adhere to sand particles
Filters must be backwashed using water, in order to prevent pores between sand from becoming blocked
Rapid Sand Filters
+Proposed Sanitary System Cont’d
Final disinfectant (Chlorine) must be added to get rid of all the harmful microorganisms that make it through the RSF
Treated Water enters into the Ground Reservoirs and are afterwards pumped using Treated Water Pumping Station
Water is pumped to Elevated Tanks and various Water Networks that the plant feeds
Some of the water stored in the Ground Tanks, is used in the backwash process
Ground Reservoirs/Tanks
+Proposed Sanitary System Cont’d
The treatment water process is cut off for a distinct period, to allow the backwash process to take place
Water is pumped backwards from the ground tanks to the filters, removing particles stuck in the RSF
Water is pumped backwards to the Main Distribution Chamber that allocates it back to the Clariflocculators
Some particles precipitate in the Backwash Water Settlers, which are the removed to the Sludge Collecting Tanks
Backwash Process
+Proposed Sanitary System Cont’d
Gravity thickeners are heavy-duty circular collectors that are custom designed to handle concentrated municipal and industrial sludge
Allows Sludge to concentrate (Thickening)
After the Sludge concentrates at the bottom, it is pumped to the Sludge Lagoons
Collected water is pumped back to the Main Distribution Chamber, which then distributes it to the Clariflocculators
Gravity Thickener Tanks
+Schematic design
+Tasks
Design the general layout of the water treatment plant
Study the water treatment process and the necessary components of a WTP
The structural design of the water tanks and the different buildings of the project
Design the required sanitary system needed to transport the water throughout the treatment cycle, beginning from the intake until the exit
+Thank You!!!