YANGON TECHNOLOGICAL UNIVERSITY DEPARTMENT OF CIVIL ENGINEERING

ASSESSMENT OF SURFACE WATER QUALITY ALONG PAZUNDAUNG CREEK,

YANGON CITY

INTRODUCTIONRapid urbanization and industrialization can cause a significant threat to the

quality of surface water when pollution exceeds the threshold limit. Since there are

industrial zones, urban settlements and agricultural sites along the Pazundaung Creek,

the water quality of this creek needed to assess whether it is good or bad for domestic,

agriculture and purpose of other sectors. In this study, the water quality assessment of

this Pazundaung Creek covering the periods from February to May 2019 was carried

out.

AIM❖ To assess the water quality deterioration due to urbanization and

industrialization along the Pazundaung creek.

OBJECTIVES❖ To determine the concentrations of some water quality parameters on

surface water along Pazundaung Creek.

❖ To identify the effect of land use activities on the water quality along

Pazundaung Creek.

❖ To evaluate the water quality along Pazundaung Creek by comparing with

Malaysia Water Quality Standard.

STUDY AREAThe study area is Pazundaung Creek in Yangon Township and it has 75 miles

from North to South. There are seven sampling points along this creek.

Sampling Point (1) – Headwater of Pazundaung Creek

Sampling Point (2) - Outlet of ShwePauk Kan Industrial Zones

Sampling Point (3) - Before South Dagon Industrial Zones

Sampling Point (4) - After South Dagon Industrial Zones

Sampling Point (5) - Before TharkaetaIndustrial Zone

Sampling Point (6) - After TharkaetaIndustrial Zone

Sampling Point (7) - Around Pazundaung Market

Evaluation of Water Quality by comparing with Malaysia

Water Quality Standard

Analysis of the Results of Water Quality Determination

Determination of Physiochemical Parameters of

Water Samples from Pazundaung Creek

Collection of Water Sample from Pazundaung Creek

Selection of Sampling Points

Preliminary Site SurveySampling Point (1) – Headwater of Pazundaung Creek

Sampling Point (2) - Outlet of Shwe Pauk Kan Industrial Zones

Sampling Point (3) - Before South Dagon Industrial Zones

Sampling Point (4) - After South Dagon Industrial Zones

Sampling Point (5) - Before Tharkaeta Industrial Zone

Sampling Point (6) - After Tharkaeta Industrial Zone

Sampling Point (7) - Around Pazundaung Market

pH, Temp, DO, TDS, EC, Cl,Cu, Turbidity, Hardness, BODand COD

Class IIA

Water supply II - Conventional

treatment.

Fishery II -Sensitive aquatic species

Class IIB

Recreational use body contact

Determination with Multimeter(sensodirect150)

pH

Temperature

Dissolved Oxygen

Total Dissolved Solids

Electrical Conductivity

• BiquinolineMethodChloride

• BiquinolineMethodCopper

• Metallphthalein Method

Total Hardness

• Attenuated Radiation Method

Turbidity

Field Measurement Laboratory Measurement

Determination with required Chemicals

• BOD (5 days BOD Test)

• COD (Standard Method)

• DO (Standard Method)Determination with Photometer (MD 600)

• Cl, Cu, Turbidity and Total Hardness

Figure 1.Location Map of Study Area

Results and DiscussionsMonthly Variation of BOD Concentrations from February to May 2019

Monthly Variation of COD Concentrations from February to May 2019

0

20

40

60

80

100

120

140

160

February March April May

BO

D C

once

ntr

atio

ns

(mg/l

)

Months

point 1 Point 2 point 3 point 4 point 5 point 6 point 7

NWQS

(Class IIA and IIB)-3mg/l

0

100

200

300

400

500

600

700

800

900

1000

February March April May

CO

D C

once

ntr

atio

ns

(mg/l

)

Months

point 1 Point 2 point 3 point 4 point 5 point 6 point 7

NWQS (class IIA and IIB) - 25 mg/l

Monthly Variation of DO Concentrations from February to May 2019

0

1

2

3

4

5

6

7

8

February March April May

DO

Lev

els

(mg/l

)

Months

point 1 Point 2 point 3 point 4 point 5 point 6 point 7

NWQS (class IIA and IIB) - 5 to 7

mg/l

Monthly Variation of pH Concentrations from February to May 2019

0

1

2

3

4

5

6

7

8

9

10

February March April May

pH

Val

ues

Months

point 1 Point 2 point 3 point 4 point 5 point 6 point 7

NWQS (class IIA and IIB) - 6 t0 9

Monthly Variation of TDS Concentrations from February to May 2019

0

200

400

600

800

1000

1200

February March April May

TD

S C

once

ntr

atio

ns

(ppm

)

Months

point 1 Point 2 point 3 point 4 point 5 point 6 point 7

NWQS (class IIA and IIB) - 1000 ppm

Monthly Variation of Turbidity Concentrations from February to May 2019

0

1000

2000

3000

4000

5000

6000

7000

8000

9000

10000

11000

12000

13000

February March April May

Turb

idit

y C

once

ntr

atio

ns

(FA

U)

Months

point 1 Point 2 point 3 point 4 point 5 point 6 point 7

NWQS (class IIA and IIB) - 50 FAU

Monthly Variation of TH Concentrations from February to May 2019

0

200

400

600

800

1000

1200

1400

1600

1800

2000

February March April May

Tota

l H

ard

nes

s C

once

ntr

atio

ns

(mg/l

)

Months

point 1 Point 2 point 3 point 4 point 5 point 6 point 7

NWQS (class IIA and IIB) -250 mg/l

Monthly Variation of EC Concentrations from February to May 2019

0.01

0.1

1

10

100

1000

10000

February March April May

EC

Conce

ntr

atio

ns

(µS

)

Monthspoint 1 Point 2 point 3 point 4 point 5 point 6 point 7

NWQS (class IIA and IIB) - 1000 µS

Monthly Variation of Total Copper Concentrations from February to May 2019

0

0.2

0.4

0.6

0.8

1

1.2

1.4

1.6

1.8

2

February March April MayTota

l C

opper

Conce

ntr

atio

ns

(mg/l

)

Monthspoint 1 Point 2 point 3 point 4 point 5 point 6 point 7

NWQS (class IIA and IIB) - 0.02

mg/l

Monthly Variation of Chloride Concentrations from February to May 2019

0

20

40

60

80

100

120

140

160

180

200

February March April May

Chlo

ride

Conce

ntr

atio

ns

(mg/l

)

Months

point 1 Point 2 point 3 point 4 point 5 point 6 point 7

NWQS (class IIA and IIB) – 200 mg/l

Monthly Variation of Temperature from February to May 2019

ConclusionsSampling Point (1)✓ The concentration of BOD in April, COD and DO for all sampling months cannot meet

with standard limits because of the pollutants entered to the headwater of the creekwhich has the low flow rate and shallow water depth.

✓ EC had the higher value than the other points for all sampling months due to thepresence of dissolved solids such as chlorides and other compounds from the fertilizers,pesticides and animal manures used in agricultural farms near this point.

✓ The contents of total copper were also greater than the standard limit at this point due tothe pesticides and animal manures used in agricultural farms near this point.

Sampling point (2)✓ The concentration of BOD, , COD and DO for all sampling months cannot meet with

standard limits because of wastewater discharged from industrial zone and domesticwastewater from slung quarter near this point.

✓ Turbidity values did not meet with standard limits due to the wastewater fromsurrounding industrial zones, residential areas and grit works.

Sampling point (3)✓ The concentration of BOD, , COD and DO for all sampling months cannot meet with

standard limits because of wastewater discharged from industrial zone and domesticwastewater from urban drainage channel near this point.

✓ Turbidity values did not meet with standard limits due to the wastewater fromsurrounding industrial zones, residential areas and grit works.

✓ The total hardness values which did not meet with the standard limit because of thefluctuation of mineral contents such as calcium and magnesium along the flow way ofPazundaung Creek.

✓ The water sample also had the acidic property in March and these values did not reachwithin standard range.

Sampling point (4) , (5) and (6)✓ The concentration of BOD, , COD and DO for all sampling months cannot meet with

standard limits because of wastewater discharged from industrial zone and domesticwastewater from urban drainage channel near this point.

✓ Turbidity values did not meet with standard limits due to the wastewater fromsurrounding industrial zones, residential areas and grit works.

✓ The total hardness values which did not meet with the standard limit because of thefluctuation of mineral contents such as calcium and magnesium along the flow way ofPazundaung Creek.

✓ The water sample also had the acidic property in March and these values did not reachwithin standard range.

✓ The total copper contents were found at sampling point (5) in April and sampling point(6) in April and May due to the wastewater from industries zone near these point.

Sampling point (7)✓ The concentration of BOD, , COD and DO for all sampling months cannot meet with

standard limits because of wastewater discharged from industrial zone and domesticwastewater from urban drainage channel near this point.

✓ Turbidity values did not meet with standard limits due to the wastewater fromsurrounding industrial zones, residential areas and grit works.

✓ The total hardness values which did not meet with the standard limit because of thefluctuation of mineral contents such as calcium and magnesium along the flow way ofPazundaung creek.

✓ The total copper contents were greater than standard limit for all sampling months dueto the domestic wastewater from urban drainage channel near this point.

0

5

10

15

20

25

30

35

February March April May

(ºC

)

Months

Temperature

point 1 Point 2 point 3 point 4 point 5 point 6 point 7

Note: They are acceptable with class IIA and IIB of NWQS for Malaysia

1 Hein Htet Aung (2)*, 2 Theingi Ye Myint*, 3 Nway Nway Khaing **Department of Civil Engineering, Yangon Technological University

Yangon, City, Myanmar1 thihaaung.dsta16@gmail.com, 2 tgym559@gmail.com, 3 nnkhaing2@gmail.com