Modern green landscape irrigation simulation at lentor health nursing home (west coast), singapore
Info Katalog
File Repositori
Penerbit : FTSP - Usakti
Kota Terbit : Jakarta
Tahun Terbit : 2026
Pembimbing 1 : Endah Kurniyaningrum
Kata Kunci : Modern Irrigation, Green Landscape, Irrigation Simulation
Status Posting : Published
Status : Lengkap
File Repositori
| No. | Nama File | Hal. | Link |
|---|---|---|---|
| 1. | 2026_SK_STS_051001900044_Halaman-Judul.pdf | 15 | |
| 2. | 2026_SK_STS_051001900044_Surat-Pernyataan-Revisi-Terakhir.pdf | 1 | |
| 3. | 2026_SK_STS_051001900044_Surat-Hasil-Similaritas.pdf | 1 | |
| 4. | 2026_SK_STS_051001900044_Halaman-Pernyataan-Persetujuan-Publikasi-Tugas-Akhir-untuk-Kepentingan-Akademis.pdf | 1 | |
| 5. | 2026_SK_STS_051001900044_Lembar-Pengesahan.pdf | 1 | |
| 6. | 2026_SK_STS_051001900044_Pernyataan-Orisinalitas.pdf | 1 | |
| 7. | 2026_SK_STS_051001900044_Formulir-Persetujuan-Publikasi-Karya-Ilmiah.pdf | 1 | |
| 8. | 2026_SK_STS_051001900044_Bab-1.pdf | 4 | |
| 9. | 2026_SK_STS_051001900044_Bab-2.pdf | 48 |
|
| 10. | 2026_SK_STS_051001900044_Bab-3.pdf | 10 |
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| 11. | 2026_SK_STS_051001900044_Bab-4.pdf | 44 |
|
| 12. | 2026_SK_STS_051001900044_Bab-5.pdf | 2 | |
| 13. | 2026_SK_STS_051001900044_Daftar-Pustaka.pdf | 3 | |
| 14. | 2026_SK_STS_051001900044_Lampiran.pdf | 22 |
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P Peningkatan kebutuhan ruang hijau di kawasan perkotaan mendorong penerapan green landscape pada bangunan bertingkat. namun, sistem irigasi konvensional sering tidak efisien dan tidak mampu mengontrol tekanan secara stabil di jaringan vertikal. penelitian ini merancang dan mengevaluasi sistem irigasi modern berbasis internet of things (iot) pada gedung lentor health nursing home 10 lantai di west coast, singapura. perhitungan kebutuhan air tanaman dilakukan berdasarkan evapotranspirasi, luas area tanam, serta karakteristik vegetasi pada tiap lantai, dengan fokus pada penggunaan irigasi tetes (drip irrigation).hasil perhitungan menunjukkan kebutuhan air harian sebesar 3.970 liter/hari, dengan debit desain maksimum 3,96 l/s dan interval penyiraman 15 menit per zona. pemodelan hidraulika menggunakan epanet memperlihatkan bahwa pipa riser berdiameter 50 mm mengalami headloss tertinggi (4–34 m/km). untuk menjaga kestabilan tekanan pada jaringan vertikal, dilakukan optimasi melalui peningkatan diameter pipa dan pemasangan pressure reducing valve (prv) pada lantai bawah. simulasi menunjukkan bahwa tekanan jaringan dapat dijaga stabil pada rentang 1,0–3,5 bar, dengan tekanan minimum pada lantai tertinggi dan maksimum pada lantai 2–3 akibat pengaruh elevasi dan head pompa.integrasi iot melalui rainbird esp-me controller, solenoid valve rainbird 100 peb, serta rainbird rain sensor memungkinkan pengaturan irigasi otomatis berdasarkan clock time, ketersediaan air dalam tanki, dan kondisi cuaca. pengaturan pump curve dan tank volume curve memastikan pompa bekerja sesuai kebutuhan tekanan dan volume air aktual. sementara itu, control rules mengatur buka–tutup solenoid valve agar penyiraman tidak tumpang tindih dan debit tiap lantai tetap terkontrol. secara keseluruhan, sistem irigasi modern berbasis iot yang dirancang terbukti meningkatkan efisiensi penggunaan air, mengurangi fluktuasi tekanan, menjaga kestabilan head pada jaringan perpipaan, dan mendukung konsep green building yang berkelanjutan pada bangunan bertingkat perkotaan.
T The increasing demand for green spaces in urban areas has led to the implementation of green landscapes in multi-story buildings. however, conventional irrigation systems are often inefficient and unable to maintain stable pressure in vertical networks. this study designs and evaluates a modern internet of things (iot)-based irrigation system in the 10-story lentor health nursing home building on the west coast of singapore. plant water requirements are calculated based on evapotranspiration, planting area, and vegetation characteristics on each floor, with a focus on drip irrigation.the calculations show a daily water requirement of 3,970 liters/day, with a maximum design flow rate of 3.96 l/s and a watering interval of 15 minutes per zone. hydraulic modeling using epanet shows that 50 mm diameter riser pipes experience the highest head loss (4–34 m/km). to maintain pressure stability in the vertical network, optimization was carried out by increasing the pipe diameter and installing a pressure reducing valve (prv) on the lower floor. the simulation shows that the network pressure can be kept stable in the range of 1.0–3.5 bar, with minimum pressure on the highest floor and maximum pressure on floors 2–3 due to the influence of elevation and pump head.iot integration through the rainbird esp-me controller, rainbird 100 peb solenoid valve, and rainbird rain sensor enables automatic irrigation settings based on clock time, water availability in the tank, and weather conditions. pump curve and tank volume curve settings ensure that the pump works according to actual pressure and water volume requirements. meanwhile, control rules regulate the opening and closing of solenoid valves so that watering does not overlap and the flow rate on each floor remains controlled. overall, the modern iot-based irrigation system that has been designed has been proven to increase water use efficiency, reduce pressure fluctuations, maintain head stability in the piping network, and support the concept of sustainable green buildings in urban high-rise buildings.
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