 |
 |
 |
 |
 |
 |
Sains Malaysiana 47(3)(2018): 457–469
http://dx.doi.org/10.17576/jsm-2018-4703-05
Assessment of Pollution and Improvement Measure of Water Quality Parameters using Scenarios Modeling for Sungai Selangor Basin (Penilaian
Pencemaran dan Peningkatan Ukuran Parameter Kualiti Air menggunakan
Pemodelan
Senario untuk Lembangan Sungai Selangor)
MD. SADEK UDDIN CHOWDHURY, FARIDAH OTHMAN*, WAN ZURINA WAN JAAFAR,
NUZAIMA CHE MOOD
& MD. IBRAHIM ADHAM
Civil Engineering Department, mFaculty of Engineering ,
University of Malaya, 50603 Kuala Lumpur, Federal Territory, Malaysia
Diserahkan: 1 Jun 2017/Diterima:
8 September 2017
ABSTRACT
Sungai Selangor is very important
from the viewpoint of water supply and multipurpose water use in
Malaysia. The water quality of this river is degrading due to point
and non-point sources of pollution. This study, focus on the water
quality assessment and simulation the effect of the pollution sources
from urbanization to the Sungai Selangor basin. Water quality Index
(WQI)
is used to define the status of river water quality and the QUAL2K was
used as a simulation model. Water quality parameters DO,
BOD
and NH3-N have been chosen for modeling. In addition, five different
model scenarios were simulated to observe the impacts of pollution
sources on the Sungai Selangor water quality. WQI results
showed that most of the stations in this river basin recorded water
inferior to Class III. The water quality model presented different
scenarios for changes of Sungai Selangor water quality. Simulation
results for different scenarios showed that reduced levels of BOD and NH3-N
at 51.10% and 66.18%, respectively, can be obtained if Scenario-5
is employed. The river water quality issue in the Rawang sub- basin
within the study area is considered crucial to create significant
improvement within the sub basin and in the downstream area of Sungai
Selangor basin.
Keywords:
Scenarios modeling; Sungai Selangor; water quality
ABSTRAK
Sungai
Selangor adalah sumber penting daripada sudut bekalan air dan pelbagai guna di
Malaysia. Kualiti air bagi sungai ini semakin merosot disebabkan oleh
pencemaran punca titik dan bukan titik. Kajian ini tertumpu kepada penilaian
kualiti air dan simulasi kesan punca pencemaran dari kawasan membangun kepada
lembangan Sungai Selangor. Indeks Kualiti Air (WQI) telah digunakan untuk
menilai status kualiti air sungai dan QUAL2K digunakan untuk simulasi
permodelan. Tambahan pula, pelbagai senario model telah disimulasi bagi
memerhatikan kesan kepada punca pencemaran terhadap kualiti air Sungai
Selangor. Keputusan WQI menunjukkan bahawa kebanyakan stesen di lembangan
sungai ini berada dalam Kelas III. Model kualiti air menunjukkan bahawa
pengurangan BOD dan NH3-N sebanyak 51.10% and 66.18% boleh dicapai
sekiranya Senario-5 diguna pakai. Isu kualiti air sungai di sub-lembangan
Rawang adalah dianggap penting bagi penambahbaikan di dalam sub-lembangan dan kawasan
hilir lembangan Sungai Selangor.
Kata
kunci: Kualiti air; pemodelan senario; Sungai Selangor
RUJUKAN
APHA. 2003. Standard
Methods for the Examination of Wastewater. Washington, DC, USA: America
Public Health Association.
Bordalo,
A.A., Teixeira, R. & Wiebe, W.J. 2006. A water quality index applied to an
international shared river basin: The case of the Douro River. Environmental
Management 38: 910-920. doi: 10.1007/s00267-004-0037-6.
Bottino, F., Ive, C.F.,
Eduardo, M.M. & Maria, D.C.C. 2010. Calibration of QUAL2K model in
Brazilian micro watershed: Effects of the land use on water quality. Acta
Limnologica Brasiliensia 22(4): 474-485.
Brown, L.C. &
Barnwell, T.O. 1987. The Enhanced Stream Water Quality Models QUAL2E and
QUAL2E-UNCAS. U.S. Athens, GA: Environmental Protection Agency.
Chapra, S.C., Pelletier,
G.J. & Tao, H. 2008. QUAL2K: A Modeling Framework for Simulating River
and Stream Water Quality. Tufts University: Medford, OR.
Cho, J.H. & Sung,
R.H. 2010. Parameter optimization of the QUAL2K model for a multiple-reach
river using an influence coefficient algorithm. Science of the Total
Environment 408(8): 1985-1991.
Dhanalekshmy, T.G.,
Rajani, V. & Bhaskar, M. 2014. Water quality analysis of two surface water
resources in Thiruvananthapuram, India. Res. J. Chem. Environ. 18(7).
DOE. 2009. Malaysia
Environmental Quality Report 2009. Kuala Lumpur, Malaysia: Department of
Environment (DOE), Ministry of Natural Resources and Environment.
Dylan, U. 2016.
Application of Qual2k model to macrophyte rich silver bow creek. Master of
Science in Environmental Engineering, Environmental Engineering, Montana Tech
of the University of Montana (Unpublished).
Fan, C., Chun-Han, K.
& Wei-Shen, W. 2009. An innovative modeling approach using Qual2K and
HEC-RAS integration to assess the impact of tidal effect on River Water quality
simulation. Journal of Environmental Management 90(5): 1824-1832.
Gardner, K.K. &
Brian, L.M. 2009. Seasonality in spatial variability and influence of land
use/land cover and watershed characteristics on stream water nitrate
concentrations in a developing watershed in the Rocky Mountain West. Water
Resources Research 45: W08411. doi:10.1029/2008WR007029.
Hema, S. &
Subramani, T. 2013. Study of physico-chemical characteristics of surface water
using regression analysis of Cauvery River and its tributaries in Tamilnadu,
India. Asian Journal of Chemistry 25(6): 3199-3203.
Henriksen, H.J., Lars,
T., Nyegaard, P., Torben, O.S., Jens, C.R. & Bjarne, M. 2003. Methodology
for construction, calibration and validation of a national hydrological model
for Denmark. Journal of Hydrology 280: 52-71.
Ibrahim, M., Faridah,
O., Adriana, I.N.I., Alaa-Eldin, M.E. & Rossita, M.Y. 2015. Assessment of
water quality parameters using multivariate analysis for Klang River basin,
Malaysia. Environmental Monitoring and Assessment 187(1): 1-12.
Kannel, P.R., Lee, S.,
Lee, Y.S., Kanel, S.R. & Pelletier, G.J. 2007. Application of automated
QUAL2Kw for water quality modeling and management in the Bagmati River, Nepal. Ecological
Modelling 202(3): 503-517.
Kim, S., Young-Ki, P.,
Chan-Hee, W. & Min-Hwan, K. 2016. Analysis of scenarios for environmental
instream flow considering water quality in Saemangeum Watershed. J. Korean
Soc. Environ. Eng. 38(3): 117-127. doi: org/10.4491/ KSEE.2016.38.3.117.
Malaysia’s and Climate.
2016. Malaysian Meteorological Department.
http://www.met.gov.my/en/web/metmalaysia/ climate/generalinformation/malaysia.
Marzouni, M.B., Ali,
M.A., Hadi, M., Nematollah, J., Javad, A. & Houshang, H. 2014. Evaluation
of Karun River water quality scenarios using simulation model results. International
Journal of Advanced Biological and Biomedical Research 2(2): 339-358.
Moalla, M.A.,
Mirsanjari, M.M. & Zarekar, A. 2013. The necessity of examining aquatic
recipient environments of waste waters in water resources environmental
management utilizing simulating model QUAL2K. Global Journal of Medicinal
Plant Research 1: 157-165.
Park, S.S. & Yong,
S.L. 2002. A water quality modeling study of the Nakdong River, Korea. Ecological
Modelling 152(1): 65-75.
Paul, M.J. & Judy,
L.M. 2008. Streams in the urban landscape. Urban Ecology 32: 333-365.
Seyam, M. & Faridah,
O. 2015. Long-term variation analysis of a tropical river’s annual streamflow regime
over a 50-year period. Theoretical and Applied Climatology 121: 71-85.
doi: 10.1007/s00704-014-1225-9.
Sánchez, E.,
Colmenarejo, M.F., Vicente, J., Rubio, A., Maria, G.G., Travieso, L. &
Rafael, B. 2006. Use of the water quality index and dissolved oxygen deficit as
simple indicators of watersheds pollution. Ecological Indicators 7(2):
315-328. doi: 10.1016/j.ecolind.2006.02.005.
Subramaniam, V. 2004.
Managing Water Supply in Selangor and Kuala Lumpur. Buletin Ingenieur 22:
12-20.
Sunusi, I., Yusuf, A.A.
& Gaurav, S. 2016. Assessment of surface water quality using Qual2k
software: A case study of River Yamuna, India. European Journal of Advances
in Engineering and Technology 3(7): 16-23.
Suratman, S. &
Norhayati, M.T. 2013. Kesan antropogenik terhadap kualiti air di lembangan
Sungai Marang, Perairan Selatan Laut China Selatan. Sains Malaysiana 42(6):
743- 751.
Teck, Y.L., Nyanti, L.,
Muan, T., Jongkar, G., Fong, S.S. & Aazani, Md. 2016. Physicochemical
parameters of bakun reservoir in Belaga, Sarawak, Malaysia, 13 months after
reaching full supply level. Sains Malaysiana 45(2): 157-166.
Tetra Tech, Inc. 2009. New
River QUAL2K Water Quality Model for the New River Dissolved Oxygen TMDL. San
Francisco, California United States Environmental Protection Agency Region 9.
Vasudevan, M., Nambi,
I.M. & Suresh, K.G. 2011. Application of QUAL2K for assessing waste loading
senario in river yamuna. International Journal of Advanced Engineering
Technology 2(2): 336-344.
Wang, C., Cyterski, M.,
Feng, Y., Gao, P. & Sun, Q. 2015. Spatiotemporal characteristics of organic
contaminant concentrations and ecological risk assessment in the Songhua River,
China. Environ. Sci.: Processes Impacts 17(11): 1967-1975.
Zainudin, Z., Rahman,
N.A., Abdullah, N. & Mazlan, N.F. 2010. Development of water quality model
for Sungai Tebrau using QUAL2K. Journal of Applied Sciences 10(21):
2748-2750.
Zhang, R., Xin, Q.,
Huiming, L., Xingcheng, Y. & Rui, Y. 2012. Selection of optimal river water
quality improvement programs using QUAL2K: A case study of Taihu Lake Basin,
China. Science of the Total Environment 431: 278-285.
Zhang, R., Xin, Q.,
Wenting, Z., Hailong, G., Wei, H. & Jinhua, W. 2014. Simulation and
evaluation of pollution load reduction scenarios for water environmental management:
A case study of inflow river of Taihu Lake, China. International Journal of
Environmental Research and Public Health 11(9): 9306-9324.
Zhang, Y., Huige, Y. &
Zhisong, W. 2016. Simulating water quality of Wei River with QUAL2K model, a
case study of Hai River Basin in China. MATEC Web of Conferences.
*Pengarang untuk surat-menyurat; email: faridahothman@um.edu.my
|
|||
|
