scholarly journals Chemical composition of rainwater harvested in East Malaysia

2021 ◽  
Vol 27 (2) ◽  
pp. 200508-0
Author(s):  
Siti Nor Fazillah Abdullah ◽  
Azimah Ismail ◽  
Hafizan Juahir ◽  
R Badlishah Ahmad ◽  
Fathurrahman Lananan ◽  
...  
Keyword(s):  
Chemical Composition ◽  
Rainwater Harvesting ◽  
Water Source ◽  
Rain Gauge ◽  
Data Set ◽  
Rainfall Index ◽  
East Malaysia ◽  
Secondary Aerosols ◽  
Alternative Water

As part of the implementation of a rainwater harvesting system as an alternative water source supply for non-potable use, therefore the characteristic of chemical compounds was significantly explored. The Department of Chemistry, Malaysia, gave the data set for three years (2017-2019). Some chemometric techniques, including PCA, were performed to identify the dimensionality of the rainwater data, hence establishing the rainfall index's purity to determine the quality of rainwater in the study area. Discriminant analysis managed to differentiate each rain gauge station. Cluster analysis was then applied to perform smaller group of rain gauge stations. The result demonstrates that sea salt, secondary aerosols, trace metals, crustal origin, and organic acid dominated the dimensionality of rainwater data with a total variance of 53.38% and indicated that the PRI was significantly diversified into good purity of rainfall index (GPRI), (Labuan and Danum Valley), moderate purity of rainfall index (MPRI), (Kuching and Tawau) and bad purity of rainfall index (BPRI), (Kota Kinabalu and Bintulu). From the study, it can be stipulated that the chemical composition of rainwater in the study area was attributable to the local activities.

Quality of rainwater harvesting in urban systems: case study in Colombia

2015 ◽  
Vol 10 (3) ◽  
pp. 424-431 ◽  
Author(s):  
T. Morales-Pinzón ◽  
M. I. García-Serna ◽  
M. T. Flórez-Calderón
Keyword(s):  
Rainwater Harvesting ◽  
Water Source ◽  
Urban Systems ◽  
Different Types ◽  
External Sources ◽  
Roofing Material ◽  
Fibre Cement ◽  
Alternative Water

An analysis of the utilisation and quality of rainwater in different collection systems located in the Pereira–Dosquebradas (Colombia) conurbation was conducted to evaluate the conditions in these systems and thus determine whether rainwater is safe water for domestic, commercial and industrial purposes. The quality of rainwater and its relation to selected variables (roofing material, material deposits, piping material and amount of precipitation) were evaluated. Six buildings with different types of roofing (zinc, polycarbonate or fibre cement) that have installed systems to capture rainwater were selected for the evaluation. According to the results, the sampled water is suitable for different uses. In cities, rainwater can be adapted and eventually used as an alternative water source, thereby reducing dependence on local and external sources.

PERENCANAAN PEMANFAATAN SISTEM PEMANENAN AIR HUJAN (PAH) DALAM MENDUKUNG PENERAPAN ECODRAIN DI KAMPUS B UNIVERSITAS NEGERI JAKARTA

2021 ◽  
Vol 16 (1) ◽  
pp. 18-25
Author(s):  
Fauziah Ismahyanti ◽  
Rosmawita Saleh ◽  
Arris Maulana
Keyword(s):  
Water Balance ◽  
Water Supply ◽  
Rainwater Harvesting ◽  
Water System ◽  
Water Source ◽  
Office Building ◽  
Water Volume ◽  
Water Balance Method ◽  
Rainwater Runoff ◽  
Alternative Water

This research is done to plan rainwater harvesting so that it can be used as an alternative water source on the campus B UNJ so it is expected to reduce groundwater use that can cause a puddle. The method used in the PAH development plan is a water balance method. This method compares the level of demand with water volume that can be accommodated or the availability of water (supply). Based on the results of the analysis, it was found that the potential for rainwater in the FIO office building A was 1773.95 m3 , FMIPA building B was 1904.62 m3 , the FIO lecture building C was 1613.21 m3 and the Ulul Albab mosque was 512.16 m3 . Potential rainwater obtained cistern PAH capacity of 200 m3 by saving water needs by 30% in building A FIO, building B FMIPA, and building C FIO. The capacity of the PAH cistern is 80 m3 by saving the water needs of the Ulul Albab mosque by 13.3%. Placement of the PAH cistern under the ground with a ground water system. Ecodrainage application by utilizing the PAH system can reduce drainage load by 0.158 m3 /second or 13.9% from rainwater runoff.

Rainwater harvesting solar pasteurization treatment systems for the provision of an alternative water source in peri-urban informal settlements

2018 ◽  
Vol 4 (2) ◽  
pp. 291-302 ◽  
Author(s):  
Brandon Reyneke ◽  
Thomas Eugene Cloete ◽  
Sehaam Khan ◽  
Wesaal Khan
Keyword(s):  
Drinking Water ◽  
Rural Areas ◽  
Microbial Contamination ◽  
Rainwater Harvesting ◽  
Informal Settlements ◽  
Water Source ◽  
Urban Informal Settlements ◽  
Alternative Water

Solar pasteurization systems are able to reduce microbial contamination in rainwater to within drinking water guidelines and thereby provide households in informal settlements and rural areas with an alternative water source.

Corn starch-based treatment improves rainwater quality

2015 ◽  
Vol 15 (6) ◽  
pp. 1326-1333
Author(s):  
Liane Yuri Kondo Nakada ◽  
Rodrigo Braga Moruzzi
Keyword(s):  
Corn Starch ◽  
Rainwater Harvesting ◽  
Single Layer ◽  
Water Source ◽  
Total Coliform ◽  
Direct Filtration ◽  
Alternative Water ◽  
End Use ◽  
Apparent Colour ◽  
Rainwater Quality

Rainwater harvesting can provide an alternative water source, which may demand little treatment, depending on the end use. Some starches have been used in water treatment as coagulant/flocculant/filtration aid, and might be applied as primary coagulant. Here, we show direct filtration with hydraulic rapid mixing, using 2–6 mg L−1 cationic corn starch as primary coagulant, considerably improves roof-harvested rainwater quality, achieving removal efficiencies of up to 71.7% of apparent colour, 78% of turbidity, 1.1 log-unit of total coliform, and 1.6 log-unit of Escherichia coli, meeting guidelines for turbidity, even for potable purposes. Cationic corn starch has proved to be a suitable primary coagulant when filtration is performed in a single-layer sand filter (coefficient of uniformity: 1.8, effective particle size: 0.52 mm), at hydraulic loading rate of 450 m day−1. However, a disinfection unit is required to meet an absence of faecal coliform.

scholarly journals RAINWATER HARVESTING QUALITY ASSESSMENT AND EVALUATION: IIUM CASE STUDY

2020 ◽  
Vol 21 (1) ◽  
pp. 12-22
Author(s):  
Nassereldeen Ahmed Kabashi Abuelfutouh ◽  
Mohamed Jamie ◽  
Abdurahman Nour ◽  
Noor Illi Fuad
Keyword(s):  
Rainwater Harvesting ◽  
Oxygen Demand ◽  
Total Suspended Solid ◽  
Suspended Solid ◽  
Annual Rainfall ◽  
Microbial Count ◽  
Innovative Solution ◽  
Alternative Water ◽  
One Year

This study focuses on rainwater harvesting quality at the Faculty of Engineering, International Islamic University Malaysia (IIUM). As development is progressing over the years in Malaysia, there is also an increasing number of environmental issues and those issues are getting worse day by day. At present, Malaysia is blessed with plentiful annual rainfall that represents approximately 314 mm of monthly rainfall but there is no evidence that this rainwater is redirected for daily usage. To pursue a more sustainable development, rainwater harvesting has been recognized as one innovative solution. The IIUM Gombak campus is located in a hillside area that is a suitable study area to perform rainwater harvesting, which can be used as an alternative water supply in the future and reduce utility bills for water used on the campus. Firstly, a suitable study area for rain water harvesting around KOE, IIUM was determined before collection of data to determine the storage capacity needed. This study includes the estimation of rainwater quantity that can be harvested in one year. The quality of rainwater in terms of biochemical oxygen demand (BOD), chemical oxygen demand (COD), pH, total suspended solid (TSS), turbidity, and microbial count were studied. Data analysis showed that the values of BOD, COD, pH, TSS, turbidity, and microbial count were in the range of 2 - 3.2 mg/l, 22.5 – 42.5 mg/l, 5.9 - 6.5, 20 mg/l, 9 -11 NTU, and between 200 -260 cfu/ml, respectively. This indicates that the harvested rainwater is acceptably clean but not suitable to be used as drinking water. ABSTRAK: Fokus kajian ini adalah pada kualiti air hujan yang ditadah di Fakulti Kejuruteraan, Universiti Islam Antarabangsa Malaysia (UIAM). Sejajar dengan pembangunan pesat di Malaysia, isu alam sekitar juga semakin bertambah dan menjadi semakin teruk hari ke hari. Pada masa sama, ketika ini Malaysia dirahmati dengan hujan yang mencurah setiap tahun, dengan kuantiti bulanan sebanyak 314 mm air hujan dan tidak ada bukti penggunaan air hujan ini bagi kegunaan harian dsb. Bagi memenuhi keperluan kelangsungan pembangunan, penadahan air hujan dikenal pasti sebagai satu penyelesaian inovatif. Kampus UIAM Gombak terletak di kawasan pinggiran bukit yang sesuai bagi menjalankan kajian tadahan air hujan. Ianya boleh digunakan sebagai bekalan air alternatif pada masa depan dan mengurangkan bil utiliti bekalan air dalam kampus. Terlebih dahulu, kawasan kajian yang sesuai dikenal pasti berdekatan Fakulti Kejuruteraan, UIAM bagi mengumpul air hujan sebelum data dikumpulkan bagi mengenal pasti kapasiti pengumpulan yang diperlukan. Kajian ini juga menganggar kuantiti air hujan yang boleh ditadah dalam satu tahun. Kualiti air hujan dikaji dari segi keperluan oksigen biokimia (BOD), keperluan oksigen kimia (COD), pH, jumlah pepejal terampai (TSS), kekeruhan dan bilangan mikrob. Analisis data mendapati nilai BOD, COD, pH, TSS, kekeruhan dan bilangan mikrob berada dalam julat 2 - 3.2 mg/l, 22.5 – 42.5 mg/l, 5.9 - 6.5, 20 mg/l, 9 -11 NTU dan antara 200 -260 cfu/ml, masing-masing. Ini menunjukkan air hujan yang ditadah adalah boleh diterima sebagai bersih tetapi tidak sesuai dijadikan sebagai air minuman

scholarly journals Model of Rainwater Harvesting System

2020 ◽  
pp. 253-268
Author(s):  
Prof. Akash N Ka Patel ◽  
Pavar P. Nandsingh ◽  
Pavar V. Satpalsingh ◽  
Purvesh Raval
Keyword(s):  
Water Surface ◽  
Rainwater Harvesting ◽  
Groundwater Resources ◽  
Residential Building ◽  
Water Source ◽  
World Population ◽  
Excess Water ◽  
The World ◽  
Surface And Groundwater

As the world population increases, the demand increases for good quality of drinking water. Surface and groundwater resources are being consumed faster than they can be recharged. Rainwater harvesting is an old practice that is being adopted by many nations as a viable decentralized water source. This project is to prepare a model for rainwater harvesting from rooftops and we are designing Rainwater harvesting system in a residential building to use the rooftop rainwater and recharge ground water from excess water & concrete roads of residential houses then making demo model to show different collaborative techniques.

Rainwater Harvesting System as an Alternative Water Source for Domestic and Outdoor Uses

2008 ◽  
Author(s):  
Phil-Shik Kim ◽  
Kyung H Yoo ◽  
Ermson Nyakatawa ◽  
Nam Ho Lee ◽  
Puneet Srivastava ◽  
...  
Keyword(s):  
Rainwater Harvesting ◽  
Water Source ◽  
Alternative Water

Tertiary Treatment of Livestock Wastewater in the Context of Alternative Water Resources for Sustainable Agriculture

2020 ◽  
Vol 71 (10) ◽  
pp. 161-170
Author(s):  
Carmen Tociu ◽  
Cristina Maria ◽  
Gyorgy Deak ◽  
Irina-Elena Ciobotaru ◽  
Alexandru-Anton Ivanov ◽  
...  
Keyword(s):  
Wastewater Treatment ◽  
Water Resources ◽  
Water Source ◽  
Treated Wastewater ◽  
Coliform Bacteria ◽  
Soil Productivity ◽  
Nitrogen And Phosphorus ◽  
Livestock Wastewater ◽  
Alternative Water

The limited availability and quality of water resources are key issues of water management, and the protection and preservation of water resources are a requirement in the context of accelerated economic growth and principles of sustainable development. The experimental research presented in this paper is based on the need to identify alternative water sources and support unconventional wastewater treatment methods which would enable their reuse in areas affected by water scarcity and drought. Livestock wastewater contain significant levels of nutrients (nitrogen and phosphorus) and may represent an attractive water source for crop irrigation. This paper evaluates the efficacy of a proposed technological process for tertiary wastewater treatment consisting of two steps: electrochemical treatment for the removal of suspended and colloidal impurities and ozone disinfection. The experimental results showed higher efficiencies for the removal of chemical pollutants (92.5% COD, 79.3% BOD, 98.6% TSS, 41% residue saline) and significant inactivation of microorganisms (over 99.9% for total coliform bacteria and in some cases 100% for faecal coliform bacteria and faecal streptococci). The quality of the effluent complies with the regulations for wastewater use in agriculture and allows its reuse for different categories of use considering the required conditions for soil/crops. The successful application of treated wastewater to agricultural crops depends in a high extent on the good practices aimed on the improvement of crop yield and quality, optimisation of soil productivity and protection of the environment undertaken by the economic entities.

Design and technical evaluation of improved rainwater harvesting system on a university building in Ethiopia

2015 ◽  
Vol 15 (6) ◽  
pp. 1220-1227 ◽  
Author(s):  
Tatek Temesgen ◽  
Mooyoung Han ◽  
Hyunju Park ◽  
Tschung-il Kim
Keyword(s):  
Quality Improvement ◽  
Rainwater Harvesting ◽  
Particle Separation ◽  
Water Source ◽  
Operational Parameters ◽  
Separation Theory ◽  
Demonstration Site ◽  
Ancient Times ◽  
Technical Evaluation ◽  
Alternative Water

Rainwater harvesting (RWH) has been practiced in Ethiopia since ancient times, but it has shown little development, because of inefficient techniques. Most efforts to capture rainwater did not show significant results owing to poor design and implementation resulted from slow technical development. This paper details design improvements tested on a demonstration site as well as an analysis of operational parameters. Similar, rainwater quality improvement techniques applied for the system are also discussed. Various scenarios were studied relating design and operating parameters for replicability and decision-making before construction stage. Common components of existing RWH systems in Ethiopia are discussed and contrasted with the implemented demonstration RWH system. Moreover, particle separation theory and techniques are introduced as quality improvement techniques. Results of the analysis also suggest a possibility of satisfying building demand by utilizing the installed system and it also shows the potential of RWH in Ethiopia as an alternative water source.

scholarly journals A Review of Roof and Pond Rainwater Harvesting Systems for Water Security: The Design, Performance and Way Forward

Water ◽  
2020 ◽  
Vol 12 (11) ◽  
pp. 3163
Author(s):  
Husnna Aishah Zabidi ◽  
Hui Weng Goh ◽  
Chun Kiat Chang ◽  
Ngai Weng Chan ◽  
Nor Azazi Zakaria
Keyword(s):  
Urban Areas ◽  
Rainwater Harvesting ◽  
Water Security ◽  
Small Scale ◽  
Rapid Urbanization ◽  
Harvesting Systems ◽  
Alternative Water ◽  
The Many ◽  
Equatorial Climate

Rapid urbanization, population explosion and climate change have threatened water security globally, regionally and locally. While there are many ways of addressing these problems, one of the innovative techniques is the recent employment of Sustainable Urban Drainage Systems (SUDS) which include rainwater harvesting systems (RWHS). Therefore, this paper reviews the design and component of two types of RWHS, the namely roof harvesting system (RHS) and the pond harvesting system (PHS). The performance in terms of quantity and quality of collected rainwater and energy consumption for RWHS with different capacities were evaluated, as well as the benefits and challenges particularly in environmental, economic and social aspects. Presently, the RHS is more commonly applied but its effectiveness is limited by its small scale. The PHS is of larger scale and has greater potentials and effectiveness as an alternative water supply system. Results also indicate the many advantages of the PHS especially in terms of economics, environmental aspects and volume of water harvested. While the RHS may be suited to individual or existing buildings, the PHS has greater potentials and should be applied in newly developed urban areas with wet equatorial climate.

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