PERENCANAAN PEMANFAATAN RAINWATER HARVESTING (RWH) SEBAGAI ALTERNATIF SUMBER AIR Bersih (Studi Kasus Universitas Mercu Buana)
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55879 |
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<dc schemaLocation="http://www.openarchives.org/OAI/2.0/oai_dc/ http://www.openarchives.org/OAI/2.0/oai_dc.xsd"><relation>http://repository.mercubuana.ac.id/55879/</relation><title>PERENCANAAN PEMANFAATAN RAINWATER HARVESTING (RWH) SEBAGAI ALTERNATIF SUMBER AIR Bersih (Studi Kasus : Universitas Mercu Buana)</title><creator>SONIA, SONIA</creator><subject>553.7 Water, Fresh Water/Air</subject><subject>628 Sanitary Engineering and Environmental Protection Engineering/Rekayasa Sanitasi dan Teknik Perlindungan Lingkungan, Teknik Lingkungan</subject><subject>628.1 Water Supply/Teknik Persediaan Air</subject><description>Due to the increase of the population, demand for clean water keeps on
increasing. Up to this time, the source for clean water comes from ground water.
Rainwater Harvesting becomes one of the alternatives to deal with problems of
water scarcity. This research aims to investigate reliable rainfall, clean water
necessities, the tank capacity of RWH, the impact of RWH uses, quality of
rainwater, and effective rainwater treatment to improve the quality of rainwater
that has not fulfilled the standard of clean water by using modified filter media
activated carbon and zeolite.
This research uses the quantitative descriptive method by collecting data,
analyzing data and concluding the result of the research. The object of the
research is Building D and E of Mercu Buana University. The rainwater was
tested based on parameters including Temperature, TDS, pH, KMnO4, and
Coliform. The filter media used to treat the rainwater is composed of zeolite and
activated carbon (AC). The combination of the filter was 100% AC, 50% AC: 50%
zeolite, and 100% zeolite.
The results from rainwater analysis showed that the reliable rainwater from three
water stations that has been reviewed, there is a need of 18,12m3 clean water per
day for employee water needs, RWH tank capacity based on existing condition is
180m3. The use of RWH is capable of reducing well water use up to 35.82%. After
processing, the quality of rain water in Building D and Building E of Mercu
Buana University has already met the water quality standards for the purposes of
sanitation hygiene, Permenkes Republic of Indonesia no. 32 2017. Media filter
that is effective as rainwater filter is filter media with 100% zeolite. The quality
of rainwater after processing was 26 ˚C (Temperature), 168 mg/L (TDS), 7,61
(pH), 5,2 mg/L (KMnO4), and 4,5 MPN/100 ml (Coliform). The system of RWH
consisted of rainwater catch, distribution pipe with a diameter of 8”/216 mm,
filtration tub measuring 2m in length, 1,6 in width, 0,8 in height, and RWH tub
planned with a capacity of 180 m3. The RWH will be located in three locations in
the back of Building D, the right side, the middle, and the left side of Building E in
which each RWH will have a capacity of 60 m3. The size of RWH is 10m in length,
3m in width, and 2m in height. Filtration tub and RWH are planned to be made of
concrete.
Keywords: Water Tank Capacity, Rainwater Quality, Rainwater Harvesting

Due to the increase of the population, demand for clean water keeps on
increasing. Up to this time, the source for clean water comes from ground water.
Rainwater Harvesting becomes one of the alternatives to deal with problems of
water scarcity. This research aims to investigate reliable rainfall, clean water
necessities, the tank capacity of RWH, the impact of RWH uses, quality of
rainwater, and effective rainwater treatment to improve the quality of rainwater
that has not fulfilled the standard of clean water by using modified filter media
activated carbon and zeolite.
This research uses the quantitative descriptive method by collecting data,
analyzing data and concluding the result of the research. The object of the
research is Building D and E of Mercu Buana University. The rainwater was
tested based on parameters including Temperature, TDS, pH, KMnO4, and
Coliform. The filter media used to treat the rainwater is composed of zeolite and
activated carbon (AC). The combination of the filter was 100% AC, 50% AC: 50%
zeolite, and 100% zeolite.
The results from rainwater analysis showed that the reliable rainwater from three
water stations that has been reviewed, there is a need of 18,12m3 clean water per
day for employee water needs, RWH tank capacity based on existing condition is
180m3. The use of RWH is capable of reducing well water use up to 35.82%. After
processing, the quality of rain water in Building D and Building E of Mercu
Buana University has already met the water quality standards for the purposes of
sanitation hygiene, Permenkes Republic of Indonesia no. 32 2017. Media filter
that is effective as rainwater filter is filter media with 100% zeolite. The quality
of rainwater after processing was 26 ˚C (Temperature), 168 mg/L (TDS), 7,61
(pH), 5,2 mg/L (KMnO4), and 4,5 MPN/100 ml (Coliform). The system of RWH
consisted of rainwater catch, distribution pipe with a diameter of 8”/216 mm,
filtration tub measuring 2m in length, 1,6 in width, 0,8 in height, and RWH tub
planned with a capacity of 180 m3. The RWH will be located in three locations in
the back of Building D, the right side, the middle, and the left side of Building E in
which each RWH will have a capacity of 60 m3. The size of RWH is 10m in length,
3m in width, and 2m in height. Filtration tub and RWH are planned to be made of
concrete.
Keywords: Water Tank Capacity, Rainwater Quality, Rainwater Harvesting</description><date>2020-05-28</date><type>Thesis:Thesis</type><type>PeerReview:NonPeerReviewed</type><type>Book:Book</type><language>ind</language><identifier>http://repository.mercubuana.ac.id/55879/1/1%20Judul.pdf</identifier><type>Book:Book</type><language>ind</language><identifier>http://repository.mercubuana.ac.id/55879/2/2%20Abstrak.pdf</identifier><type>Book:Book</type><language>ind</language><identifier>http://repository.mercubuana.ac.id/55879/3/3%20Surat%20Pernyataan.pdf</identifier><type>Book:Book</type><language>ind</language><identifier>http://repository.mercubuana.ac.id/55879/4/4%20Lembar%20Pengesahan.pdf</identifier><type>Book:Book</type><language>ind</language><identifier>http://repository.mercubuana.ac.id/55879/5/5%20Kata%20Pengantar.pdf</identifier><type>Book:Book</type><language>ind</language><identifier>http://repository.mercubuana.ac.id/55879/31/6%20Daftar%20Isi.pdf</identifier><type>Book:Book</type><language>ind</language><identifier>http://repository.mercubuana.ac.id/55879/32/7%20Daftar%20Tabel.pdf</identifier><type>Book:Book</type><language>ind</language><identifier>http://repository.mercubuana.ac.id/55879/33/9%20Daftar%20Rumus.pdf</identifier><type>Book:Book</type><language>ind</language><identifier>http://repository.mercubuana.ac.id/55879/34/10%20Bab%20I%20Pendahuluan.pdf</identifier><type>Book:Book</type><language>ind</language><identifier>http://repository.mercubuana.ac.id/55879/35/11%20Bab%20II%20Tinjauan%20Pustaka.pdf</identifier><type>Book:Book</type><language>ind</language><identifier>http://repository.mercubuana.ac.id/55879/36/12%20Bab%20III%20Metode%20Penelitian.pdf</identifier><type>Book:Book</type><language>ind</language><identifier>http://repository.mercubuana.ac.id/55879/37/13%20Bab%20IV%20Hasil%20dan%20Analisis.pdf</identifier><type>Book:Book</type><language>ind</language><identifier>http://repository.mercubuana.ac.id/55879/38/14%20Bab%20V%20Kesimpulan.pdf</identifier><type>Book:Book</type><language>ind</language><identifier>http://repository.mercubuana.ac.id/55879/39/15%20Daftar%20Pustaka.pdf</identifier><type>Book:Book</type><language>ind</language><identifier>http://repository.mercubuana.ac.id/55879/40/16%20Lampiran.pdf</identifier><identifier> SONIA, SONIA (2020) PERENCANAAN PEMANFAATAN RAINWATER HARVESTING (RWH) SEBAGAI ALTERNATIF SUMBER AIR Bersih (Studi Kasus : Universitas Mercu Buana). S1-Sarjana thesis, Universitas Mercu Buana Jakarta. </identifier><recordID>55879</recordID></dc>
|
| language |
ind |
| format |
Thesis:Thesis Thesis PeerReview:NonPeerReviewed PeerReview Book:Book Book |
| author |
SONIA, SONIA |
| title |
PERENCANAAN PEMANFAATAN RAINWATER HARVESTING (RWH) SEBAGAI ALTERNATIF SUMBER AIR Bersih (Studi Kasus : Universitas Mercu Buana) |
| title_sub |
Universitas Mercu Buana) |
| publishDate |
2020 |
| topic |
553.7 Water Fresh Water/Air 628 Sanitary Engineering and Environmental Protection Engineering/Rekayasa Sanitasi dan Teknik Perlindungan Lingkungan Teknik Lingkungan 628.1 Water Supply Teknik Persediaan Air |
| url |
http://repository.mercubuana.ac.id/55879/1/1%20Judul.pdf http://repository.mercubuana.ac.id/55879/2/2%20Abstrak.pdf http://repository.mercubuana.ac.id/55879/3/3%20Surat%20Pernyataan.pdf http://repository.mercubuana.ac.id/55879/4/4%20Lembar%20Pengesahan.pdf http://repository.mercubuana.ac.id/55879/5/5%20Kata%20Pengantar.pdf http://repository.mercubuana.ac.id/55879/31/6%20Daftar%20Isi.pdf http://repository.mercubuana.ac.id/55879/32/7%20Daftar%20Tabel.pdf http://repository.mercubuana.ac.id/55879/33/9%20Daftar%20Rumus.pdf http://repository.mercubuana.ac.id/55879/34/10%20Bab%20I%20Pendahuluan.pdf http://repository.mercubuana.ac.id/55879/35/11%20Bab%20II%20Tinjauan%20Pustaka.pdf http://repository.mercubuana.ac.id/55879/36/12%20Bab%20III%20Metode%20Penelitian.pdf http://repository.mercubuana.ac.id/55879/37/13%20Bab%20IV%20Hasil%20dan%20Analisis.pdf http://repository.mercubuana.ac.id/55879/38/14%20Bab%20V%20Kesimpulan.pdf http://repository.mercubuana.ac.id/55879/39/15%20Daftar%20Pustaka.pdf http://repository.mercubuana.ac.id/55879/40/16%20Lampiran.pdf http://repository.mercubuana.ac.id/55879/ |
| contents |
Due to the increase of the population, demand for clean water keeps on
increasing. Up to this time, the source for clean water comes from ground water.
Rainwater Harvesting becomes one of the alternatives to deal with problems of
water scarcity. This research aims to investigate reliable rainfall, clean water
necessities, the tank capacity of RWH, the impact of RWH uses, quality of
rainwater, and effective rainwater treatment to improve the quality of rainwater
that has not fulfilled the standard of clean water by using modified filter media
activated carbon and zeolite.
This research uses the quantitative descriptive method by collecting data,
analyzing data and concluding the result of the research. The object of the
research is Building D and E of Mercu Buana University. The rainwater was
tested based on parameters including Temperature, TDS, pH, KMnO4, and
Coliform. The filter media used to treat the rainwater is composed of zeolite and
activated carbon (AC). The combination of the filter was 100% AC, 50% AC: 50%
zeolite, and 100% zeolite.
The results from rainwater analysis showed that the reliable rainwater from three
water stations that has been reviewed, there is a need of 18,12m3 clean water per
day for employee water needs, RWH tank capacity based on existing condition is
180m3. The use of RWH is capable of reducing well water use up to 35.82%. After
processing, the quality of rain water in Building D and Building E of Mercu
Buana University has already met the water quality standards for the purposes of
sanitation hygiene, Permenkes Republic of Indonesia no. 32 2017. Media filter
that is effective as rainwater filter is filter media with 100% zeolite. The quality
of rainwater after processing was 26 ̊C (Temperature), 168 mg/L (TDS), 7,61
(pH), 5,2 mg/L (KMnO4), and 4,5 MPN/100 ml (Coliform). The system of RWH
consisted of rainwater catch, distribution pipe with a diameter of 8”/216 mm,
filtration tub measuring 2m in length, 1,6 in width, 0,8 in height, and RWH tub
planned with a capacity of 180 m3. The RWH will be located in three locations in
the back of Building D, the right side, the middle, and the left side of Building E in
which each RWH will have a capacity of 60 m3. The size of RWH is 10m in length,
3m in width, and 2m in height. Filtration tub and RWH are planned to be made of
concrete.
Keywords: Water Tank Capacity, Rainwater Quality, Rainwater Harvesting
Due to the increase of the population, demand for clean water keeps on
increasing. Up to this time, the source for clean water comes from ground water.
Rainwater Harvesting becomes one of the alternatives to deal with problems of
water scarcity. This research aims to investigate reliable rainfall, clean water
necessities, the tank capacity of RWH, the impact of RWH uses, quality of
rainwater, and effective rainwater treatment to improve the quality of rainwater
that has not fulfilled the standard of clean water by using modified filter media
activated carbon and zeolite.
This research uses the quantitative descriptive method by collecting data,
analyzing data and concluding the result of the research. The object of the
research is Building D and E of Mercu Buana University. The rainwater was
tested based on parameters including Temperature, TDS, pH, KMnO4, and
Coliform. The filter media used to treat the rainwater is composed of zeolite and
activated carbon (AC). The combination of the filter was 100% AC, 50% AC: 50%
zeolite, and 100% zeolite.
The results from rainwater analysis showed that the reliable rainwater from three
water stations that has been reviewed, there is a need of 18,12m3 clean water per
day for employee water needs, RWH tank capacity based on existing condition is
180m3. The use of RWH is capable of reducing well water use up to 35.82%. After
processing, the quality of rain water in Building D and Building E of Mercu
Buana University has already met the water quality standards for the purposes of
sanitation hygiene, Permenkes Republic of Indonesia no. 32 2017. Media filter
that is effective as rainwater filter is filter media with 100% zeolite. The quality
of rainwater after processing was 26 ̊C (Temperature), 168 mg/L (TDS), 7,61
(pH), 5,2 mg/L (KMnO4), and 4,5 MPN/100 ml (Coliform). The system of RWH
consisted of rainwater catch, distribution pipe with a diameter of 8”/216 mm,
filtration tub measuring 2m in length, 1,6 in width, 0,8 in height, and RWH tub
planned with a capacity of 180 m3. The RWH will be located in three locations in
the back of Building D, the right side, the middle, and the left side of Building E in
which each RWH will have a capacity of 60 m3. The size of RWH is 10m in length,
3m in width, and 2m in height. Filtration tub and RWH are planned to be made of
concrete.
Keywords: Water Tank Capacity, Rainwater Quality, Rainwater Harvesting |
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IOS5909.55879 |
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Universitas Mercu Buana |
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134 |
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library:university library |
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Perpustakaan Universitas Mercu Buana |
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542 |
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Repository Universitas Mercu Buana |
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5909 |
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Econmics/Ilmu Ekonomi Communication/Komunikasi Engineering/Ilmu Teknik Measurement/Teknik Desain, Pengujian, Pengukuran, Kualitas, Perawatan, Pemeliharaan, Perbaikan |
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DKI JAKARTA |
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