BMID WATER TREATMENT PLANT

 

WATER QUALITY

Water quality is an issue that has caught the public eye.  With outbreaks of water-borne diseases such as E. coli, Cryptosporidium, and Giardia Lamblia (beaver fever) around the country in recent years, water quality is becoming of utmost importance.  Safe quality drinking water is in high demand.   

SUPPLY WATER

The Black Mountain Irrigation District water treatment plant receives its water from Mission Creek.  The watershed, which feeds Mission Creek, consists of 5 lakes of which Belgo Lake and Greystoke Lake are the largest supplier.  Water quality in Mission Creek is normally within the Guidelines for Canadian Drinking Water Quality (GCDWQ) throughout the year except during spring run-off where rainfall and snowmelt can change water quality drastically.

 
Mission Creek Intake

Black Mountain Irrigation District had encountered water quality problems in the past in Mission Creek, especially in 1997 when heavy rains and mudslides upstream of the intake produced poor water quality conditions.  Black Mountain Irrigation District took a proactive role in determining the most feasible plan to treat each year’s spring run-off and maintain drinking water standards within the Guidelines for Canadian Drinking Water Quality (GCDWQ).   A water treatment facility was designed and built to provide the necessary means of treating Mission Creek water. 

    

WATER TREATMENT PROCESS

OPERATION

The Black Mountain Irrigation District operates a Class IV water treatment plant and water distribution system.  They both require use of a SCADA system although manual control of the plant and system is possible in the case of an emergency. 

The plant has produced some very good results since its construction.  These include; reduction in total organic carbon (TOC) by 50% (TOC can produce trihalomethanes when combined with chlorine), reduction in turbidity in the water distribution system of less than 1 NTU even though turbidity in Mission Creek can exceed 150 NTU, and reduction of colour as well.  Black Mountain Irrigation District continues to provide quality drinking water to their customers.

1.      INTAKE

Water is first coarsely screened at Mission Creek to protect the intake valves from objects such as logs, branches or large rocks and to prevent these objects from entering the process.  Water enters the treatment process through a dual piping system consisting of two 900 mm diameter pipes and slide gates.

2.      GRIT POND
Water enters the grit pond and flows slowly through it allowing heavier particles such as sand and silt to settle out.  Once the water reaches the end of the grit pond, process water for the plant is screened through 1.5 mm fish screens and excess water is bypassed and discharged through a fish channel that allows fish and floating debris to flow back into Mission Creek. 


Grit Pond and Fish Screens

3.      RAPID MIX

Process water is metered by 2 magnetic flow meters.  From this point, it enters the one of 2 rapid mixer tanks where coagulant (Isopac) is added along with a cationic polymer.  Water and coagulants are then rapid mixed for upwards of 1 minute.

4.      FLOCCULATORS

Flocculation begins at the first of 3 flocculation tanks with anionic polymer addition taking place in the second flocculation tank.  By the time the process water reaches the third flocculation tank, floc forms and is clearly visible.

5.       SEDIMENTATION CLARIFIERS

The water then enters one of 2 clarifiers for sedimentation.  Water flows through the clarifiers through a HDPE baffle curtain. The curtain creates a “plug” flow through the clarifier and allows clear water to flow through it and the sludge to settle out.  Once the sludge settles out of the water, the sludge is collected and pumped to a sludge holding pond where it is further processed.  The clear water from the top of the clarifier is diverted to the first of 2 balancing reservoirs.


Sedimentation Clarifier

6.      pH ADJUSTMENT

Prior to the treated water entering the first of 2 reservoirs, pH adjustment must occur for corrosion control.  Caustic soda is added to the clarified water to provide water with a minimum alkalinity of at least 15 mg/L and a pH of 7.5.

 

7.      DISINFECTION

Once the water has moved through Steven’s and Hadden Reservoir and given further time to settle out particulate matter, chlorine disinfection occurs.  A fine screening process occurs at this point to screen out any material that may have entered either reservoir and from here the water enters the distribution system.

Plant Parameters

Design capacity          105 ML/day   1200 LPS

Average Flow 2002     54 ML/day      625 LPS

Peak Flow 2002          115 ML/day   1350 LPS

 

Process

Grit Pond

Volume:  3600 m3

Retention Time:  0.83 hours

Dimensions (m):  90 x 20 x 2

 

Rapid Mixer 2  (1 per train)

Volume:  31 m3

Retention Time:  1 minute

 

Flocculator Tanks 6  (3 per train)

Volume per tank: 250 m3

Retention time:  10 minutes

Dimensions (m): 7 x 7 x 6

 

Clarifiers 2  (1 per train)

Volume of clarifier:  10692 m3

Retention time:  7 hours at peak flow

Dimensions (m):  100 x 35 x 6

 

Reservoirs 2

Volume of reservoirs:  190000 m3

 

Distribution System

Pressure Reducing Stations:  13

Additional Supply:  Scotty Creek Intake

Additional Supply from Wells:  3

Booster Stations: 3

© 2003 www.bmid.org   All Rights Reserved.