Blue Waterfall Habitat: Apartemen High End dengan Sistem Rainwater Collects and Purifies

Suci, Putri Wulan (2018) Blue Waterfall Habitat: Apartemen High End dengan Sistem Rainwater Collects and Purifies. Undergraduate thesis, Institut Teknologi Sepuluh Nopember.

[img]
Preview
Text
08111440000003-Undergraduate_Thesis.pdf - Accepted Version

Download (5MB) | Preview

Abstract

Dalam kurun waktu terakhir Surabaya telah melakukan berbagai pengembangan untuk memenuhi kebutuhan masyarakat seiring dengan meningkatnya jumlah populasi penduduk. Pengembangan kawasan properti, terutama kelas menengah atas, di kota Surabaya bergeser ke wilayah barat. Hal ini terlihat dari makin banyaknya pengembang besar yang membangun di Surabaya Barat dan menjadikan kawasan ini sebagai kawasan premium. Sedangkan di sisi lain, dengan semakin terus bertambahnya jumlah penduduk, daya dukung lingkungan (air dan lahan) yang ada tetap sama atau bahkan lebih buruk. Kita sebagai manusia harus mampu mengikuti daya dukung lingkungan (air dan lahan) atau bahkan bisa membuatnya lebih baik untuk memenuhi kebutuhan dan keberlangsungan hidup. Melalui laporan ini di cari sebuah cara sebagai solusi untuk memenuhi kebutuhan manusia (berupa hunian) yang tidak merusak lingkungan tetapi bisa memperbaiki lingkungan tersebut dengan potensi yang dimiliki oleh kota Surabaya yaitu curah hujan yang cukup tinggi. Salah satu solusinya adalah Apartemen High End dengan sistem Rainwater Collects and Purifies. Sesuai dengan judul yang diambil yaitu Blue Waterfall Habitat, laporan ini diharapkan memberikan solusi sistem pemakaian air hujan untuk memenuhi kebutuhan air yang saat ini semakin terbatas dengan pendekatan Blue Design. Sistem daur ulang air hujan penerapannya yaitu dengan menangkap air hujan lalu disaring dan kemudian dimanfaatkan kembali untuk keperluan air sehari-hari. Apartemen tersebut akan mengatasi dan mengolah air hujan secara maksimal sehingga berdampak positif pada bangunan dan lingkungan maka konsep ekologi yang dicetuskan oleh Yeang (1994:28-31) yang biasanya didesain pada bangunan high rise dianggap sesuai untuk mendukung laporan ini.===================================================== In the last period Surabaya has been doing various development to meet the needs of the community along with the increasing number of population. Development of property area, especially upper middle class, in Surabaya city shifted to west region. This can be seen from the increasing number of large developers who build in West Surabaya and make this area as a premium area. On the other hand, as the population continues to grow, the carrying capacity of the environment (water and land) remains the same or even worse. We as human beings must be able to follow the carrying capacity of the environment (water and land) or even can make it better to meet the needs and sustainability of life. Through this report in search of a way as a solution to meet human needs (in the form of shelter) that does not damage the environment but can improve the environment with the potential that is owned by the city of Surabaya that is high rainfall. One solution is High End Apartments with Rainwater Collects and Purifies system. In accordance with the title of the Blue Waterfall Habitat, this report is expected to provide rainwater system solutions to meet the increasingly limited water demand with the Blue Design approach. The rainwater recycling system is by catching rainwater then filtered and then reused for daily water use. The apartment will tackle and cultivate rainwater optimally so that it positively impacts the building and the environment, the ecological concept introduced by Yeang (1994: 28-31) which is usually designed in high rise buildings is considered appropriate to support this report.

Item Type: Thesis (Undergraduate)
Uncontrolled Keywords: Environmental Supporting Capacity, Blue Design, High End Apartments, Rainwater Utilization, Ecology
Subjects: N Fine Arts > NA Architecture > NA2941 Facades
N Fine Arts > NA Architecture > NA6602.D6 Dormitories
T Technology > TD Environmental technology. Sanitary engineering > TD259.2 Drinking water. Water quality
T Technology > TD Environmental technology. Sanitary engineering > TD395 Reservoirs (water supply)
T Technology > TD Environmental technology. Sanitary engineering > TD418 Water harvesting
T Technology > TD Environmental technology. Sanitary engineering > TD430 Water--Purification.
T Technology > TD Environmental technology. Sanitary engineering > TD481 Water distribution systems
T Technology > TD Environmental technology. Sanitary engineering > TD646 Sewage--Purification
Divisions: Faculty of Architecture, Design, and Planning > Architecture > 23201-(S1) Undergraduate Thesis
Depositing User: Putri Wulan Suci
Date Deposited: 23 Jun 2021 08:17
Last Modified: 23 Jun 2021 08:17
URI: https://repository.its.ac.id/id/eprint/54678

Actions (login required)

View Item View Item