 |
 |
 |
 |
 |
 |
Sains Malaysiana 46(8)(2017): 1211–1219 http://dx.doi.org/10.17576/jsm-2017-4608-06
Penentuan Kualiti Air daripada Sistem Penuaian Air Hujan di Kolej Ungku Omar, UKM Bangi
(Determination of Rainwater Quality from Rainwater
Harvesting System at Ungku Omar College, UKM Bangi)
NUR SYARINA ASMAN1, AZHAR ABDUL HALIM2, MARLIA MOHD HANAFIAH2 & FARAH DIYANA ARIFFIN1*
1Program Kesihatan Persekitaran dan Keselamatan Industri, Pusat Pengajian Sains Diagnostik
2Pusat Pengajian Sains Sekitaran dan Sumber Alam, Fakulti Sains dan Teknologi, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor Darul Ehsan, Malaysia
Received: 7 June 2016/Accepted:
27 October 2016
ABSTRAK
SKajian ini bertujuan
untuk menentukan
tahap kualiti air hujan di dalam Sistem Penuaian Air Hujan iaitu MyRAWAS
yang dibina di Kolej
Kediaman Ungku Omar, UKM, Bangi.
Parameter air hujan yang
dikaji dibandingkan dengan Piawai Kualiti
Air Kebangsaan Malaysia (NWQS) dan Piawai Kualiti Air Minum. Parameter yang diuji dalam analisis
air hujan ialah
suhu, pH, kekeruhan, jumlah pepejal terampai (TSS), oksigen terlarut (DO), permintaan oksigen biokimia (BOD), permintaan oksigen kimia (COD), ammonia-nitrogen (NH3-N), Koliform Jumlah dan Escherichia
coli. Hasil
kajian mendapati bahawa kesemua bacaan parameter mematuhi piawaian yang telah ditetapkan oleh Piawai Kualiti Air Kebangsaan Malaysia
(NWQS) dan Piawai
Air Minum Kebangsaan dengan
purata nilai
suhu, pH, kekeruhan, TSS, DO, BOD,
COD dan NH3-N masing-masing
berada pada
julat 26.2˚C-28.6˚C, 6.18-6.36, 0.93-3.06 ntu, 1.0-4.6 mg/L, 6.21-8.29 mg/L, 0.21-0.43 mg/L, 3-7 mg/L
dan 0.01-0.47 mg/L. Manakala
bacaan Koliform
Jumlah dan Escherichia coli berada di bawah had maksimum yang ditetapkan oleh Piawai Kualiti Air Minum. Berdasarkan Indeks Kualiti Air (IKA), kualiti air hujan di kawasan kajian berada pada kelas
IIA bagi titik
persampelan T1 dan T2 dan berubah menjadi
kelas I selepas
menjalani kaedah rawatan penapisan iaitu pada titik
persampelan T3. Hasil kajian ini juga
mendapati bahawa
air tuaian hujan tersebut
selamat untuk
digunakan untuk aktiviti harian.
Kata kunci: Kolej kediaman; kualiti air; Malaysia; MyRAWAS; sistem penuaian air hujan
ABSTRACT
The aim of this study was to determine
the water quality level of Rainwater Harvesting System (MyRAWAS)
built at Ungku Omar Residential College, UKM Bangi. The parameters
analysed were compared with the National Water Quality Standards
Malaysia (NWQS) and Drinking Water Quality Standards. The parameters
that were tested in the analysis of rainwater were temperature,
pH, turbidity, total suspended solid (TSS), dissolved oxygen (DO),
biological oxygen demand (BOD), chemical oygen
demand (COD), ammoniacal nitrogen (NH3-N),
Total Coliforms and Escherichia coli. The study showed that all parameters conform
to the standard set by National Water Quality Standards Malaysia
(NWQS) and Drinking Water Quality Standards. The results showed
that temperature, pH, turbidity, TSS, DO, BOD, COD and NH3-N
mean values are 26.2˚C-28.6˚C, 6.18-6.36, 0.93-3.06
ntu, 1.0-4.6 mg/L, 6.21-8.29 mg/L, 0.21-0.43
mg/L, 3-7 mg/L and 0.01-0.47mg/L, respectively. Meanwhile the
Total Coliform and Escherichia coli
are below the maximum limit set by the Drinking Water Quality
Standards. According to the Water Quality Index (IKA), the quality
of rainwater in the study area is in class IIA for sampling point
T1 and T2 and turned into class I after undergoing filtration
treatment at sampling point T3. The result showed that the rainwater
is safe to be used for their daily activities.
Keywords: Malaysia; MyRAWAS;
rainwater harvesting system; residential college; water quality
REFERENCES Abdullah,
F.A. & Al-Shareef, A.W. 2009. Roof rainwater
harvesting systems for household water supply in Jordan.
Desalination 243: 195-207. Achadu, O.J., Ako,
F.E. & Dalla, C.L. 2013. Quality assessment of stored harvested rainwater in Wukari,
north-eastern Nigeria: Impact of storage media. IOSR J.
Environ.
Sci.
Toxicol.
Food Technol.
7(5): 25-32. APHA. 1999. Standard Methods for the Examination of Water and Wastewater. Ed. ke-20. Washington: American Public Health Association. Apraku, A. & Adu-Kumi, M. 2014. Sustainable development: Rainwater quality and safe
use (A case study in Adukrom Akwapim).
Int. J. Water Res. 2(1):
21-26. CDC.
2016.
Shiga Toxin-Producing E. coli
& Food Safety.
http://www.cdc.gov/features/ecoliinfection/index.html.
Diakses
pada 20 Oktober 2016. Corwin,
A.L., Larasati, R.P., Bangs, M.J., Wuryadi, S., Arjoso, S., Sukri,
N. & Porter, K.R. 2001.
Epidemic dengue transmission in Southern Sumatra,
Indonesia. Trans.
R. Soc. Trop. Med. Hyg. 95(3): 257-265. Egodawatta, P., Thomas,
E. & Goonetilleke, A. 2009. Understanding
the physical processes of pollutant build-up and wash-off on roof
surfaces. Sci. Total
Environ. 407: 1834-1841. EPA. 2008. National Water Quality
Standards for Malaysia. www.wepa-db.net/policies/law/malaysia/eq_surface.htm#.
Accessed on 16
September 2015. Evans, C.A., Coombes,
P.J. & Dunstan,
R.H. 2006. Wind, rain and bacteria: The effect of weather on the microbial composition of roof-harvested rainwater. Water Res. 40(1): 37-44. Faisst, E.W.
&
Fujioka, R.S. 1994.
Assessment of Four Rainwater
Catchment Designs on Cistern Water Quality. Dlm
Proceedings of The 6th International Conference On Rainwater
Catchment Systems,
disunting oleh Bambrah,
G.K., Otieno, F.O. & Thomas, D.B. Nairobi, Kenya:
International
Rainwater Catchment Systems Association. Gikas, D.G. & Tsihrintzis,
A.V. 2012.
Assessment of water quality of first-flush
roof
runoff
and harvested rainwater. J. Hydrol. 466-467: 115-126. Halim,
A.A., Aziz, H.A., Johari, M.A.M. & Ariffin,
K.S. 2010.
Comparison study of ammonia and COD adsorption on zeolite, activated
carbon and composite materials in landfill leachate treatment.
Desalination 262: 31-35. Ithnin, A., Awang, N., Fidaie, M., Halim, A.A.
& Mohd, R.A. 2012.
Study on the effect of leachates from old dumping site on water
quality of Sungai Batu in Taman Wahyu
II, Selayang, Selangor.
Glob. J. Environ. Res. 6(1): 22-29. Jonnalagadda, S.B. & Mhere, G. 2001.
Water quality of the Odzi River in the
Eastern Highlands of Zimbabwe. Water
Res. 35: 2371-2376. Kasan, N.A. 2006. Kualiti air sungai
berdasarkan
analisis
kimia
dan kepelbagaian alga. Tesis Master. Universiti Teknologi Malaysia (tidak diterbitkan). KKM. Drinking Water
Quality Standard. 2010. http://kmam.moh.gov.my/publicuser/drinkingwaterqualitystandard.html. Diakses pada
16 September 2015. Lee,
J.Y., Yang, J.S., Han, M. & Choi, J. 2010. Comparison of
the microbiological and chemical characterization of harvested
rainwater and reservoir water as alternative water resources.
Sci. Total Environ. 408: 896-905. Lee,
K.E., Mokhtar, M., Hanafiah, M.M., Abdul
Halim, A. & Badusah,
J. 2016.
Rainwater harvesting as an alternative water resource in Malaysia: Potential, policies and development. J.
Clean Prod. 126: 218-222. Lim,
K.Y. & Jiang, S.C. 2013.
Reevaluation of health risk benchmark
for sustainable water practice through risk analysis of rooftop-harvested rainwater. Water
Res. 47(20): 7273-7286. Lye, D.J. 2002. Health risk associated with consumption of untreated water from household roof catchment systems.
J.
Am.
Water Resour. Assoc. 38: 1301. Macomber, P.S.H. 2010. Guidelines
on Rainwater Catchment Systems for Hawaii. Hawaii. College
of Tropical Agriculture and Human Resource Management. Mas
Rahayu
Jalil, Mohd Hairul
Khamidun, Sabariah Musa, Siti Nazahiyah Rahmat & Zarina Md. Ali 2009. Chemical oxygen
demand
concentration and its spatial distribution for rainwater of a small area at Parit Raja, Batu
Pahat, Johor, Malaysia. International Conference on Water Resources.
Langkawi,
Kedah. May 26-27. Mosley,
L.M. & Sharp, D.S. 2005.
The Hydrogen Sulphide (H2S) Paper-Strip
Test. SOPAC Technical Report 373. Olobaniyi, S.B. & Efe, S.I. 2007.
Comparative assessment of rainwater
and groundwater quality
in an oil
producing
area
of Nigeria: Environmental and
health implications. J. Environ. Health Res. 6(2): 111-118. Rossi,
L., Krejci, V., Rauch, W., Kreikenbaum,
S., Fankhauser, R. & Gujer,
W. 2005.
Stochastic modeling
of total
suspended
solids
(TSS) in urban
areas
during
rain
events.
Water Res.
39: 4188-4196. Sadia,
R., Khan, M.T.R., Shatirah, A., Nazli,
B.C.D., Biswas, S.K. & Shirai, S.M.
2014. Sustainability
of rainwater
harvesting
system
in terms of water quality. Sci. World
J. 2014: 1-10. Salam,
A. & Mahmood, J.A. 1988.
Studies on physico-chemical
parameter of river system in Chitral,
Pakistan. P. J. Zool.
Abstract, Series No. 18. Seong, Y.C. & Sapari, N. 2003. Rainwater quality in Peninsular
Malaysia. XI IRCSA Conference-Proceedings. Suruhanjaya Perkhidmatan Air Negara (SPAN). 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. Suratman, S., Sailan, M.I.M., Hee, Y.Y., Bedurus, E.A. & Latif, M.T. 2015. A Preliminary
study
of water
quality
index
in Terengganu River Basin, Malaysia. Sains Malaysiana 44(1): 67-73. Suratman, S., Mohd Tahir,
N., Lee, C.Y. & Siti Rohayu, A.R.
2006. Monsoon effects
on water quality in Besut River basin,
Terengganu. Malays. J. Anal.
Sci. 10: 143-148. Thamer, A.M., Megat,
J.M.M.N. & Abdul, H.G. 2012. Checking the
adequacy of rainwater harvesting system for housing and landscaping.
ALAM CIPTA, Intl. J. of Sustainable Tropical
Design Research and Practice 2(1): 18-27. United
Nations World Water Assessment Programme
(WWAP). 2015. The United
Nations World Water Development Report 2015: Water for a Sustainable
World. Paris: UNESCO. Wilbers, G.J., Sebesvari, Z., Rechenburg,
A. & Renaud, F.G. 2013. Effects of local and spatial conditions
on the quality of harvested rainwater in the Mekong Delta, Vietnam.
Environ. Pollut. 182: 225-232. World
Health Organization (WHO)/ United Nations Children's Fund (UNICEF). 2014. Progress on Drinking
Water and Sanitation. Switzerland. Yap,
C.K., Chee, M.W., Shamarina, S., Edward, F.B., Chew, W. &
Tan, S.G. 2011.
Assessment of surface water quality in the Malaysian coastal waters by using multivariate
analyses.
Sains Malaysiana 40(10):
1053-1064. Yaziz, M.I., Gunting, H., Sapari, N. & Ghazali, A.W. 1989. Variations in rainwater quality from roof catchments. Wat. Res. 23(6): 761-765.
*Corresponding
author; email: farahdiyana@ukm.edu.my
|
|||
|
