Phytoarchitecture integrates hybrid onsite phytosanitation to suppress building environmental pollution

Samudro, Harida ORCID: https://orcid.org/0000-0003-2973-078X, Samudro, Ganjar ORCID: https://orcid.org/0000-0002-3028-7239 and Mangkoedihardjo, Sarwoko ORCID: https://orcid.org/0000-0003-1790-6477 (2023) Phytoarchitecture integrates hybrid onsite phytosanitation to suppress building environmental pollution. Pollution, 9 (3). pp. 1174-1189. ISSN 2383-4501

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Abstract

Efficiency of environmental resources is one of the goals of the sustainable development of a building and its sanitation. Sanitation efficiency was sought through hybrid offsite system, which was a decentralization of sanitation services. This study proposed a hybrid onsite system combining phytoarchitecture and phytosanitation, which empowers renewable building plants to improve resource efficiency, as well as sustainable building environmental health. Based on various empirical studies on sanitation management in rural and urban areas in many places, this retrospective study identified three wastewater disposal efficiencies. It was through quantity distribution, environmental media in which the greywater could be discharged, and quality treatment. The results marked the feasibility of wastewater services for greywater treatment, which served at least 75% of the wastewater quantity. Its main contribution was related to the distribution of discharge to all environmental media, and the improvement of the quality of greywater at its disposal. Building plants could be used for hybrid onsite system, thereby making these plants multifunctional to maintain the quality of the building environment. This hybrid onsite phytosanitation system covered various feasibility features compared to other existing systems. Implementation was flexible for new provisions and adaptation to existing systems for both urban and rural areas. Thus, the service maintained sustainable buildings and environmental health.

Item Type:	Journal Article
Keywords:	environment; plants; renewable; resources efficiency; sanitation management
Subjects:	12 BUILT ENVIRONMENT AND DESIGN > 1201 Architecture > 120101 Architectural Design 12 BUILT ENVIRONMENT AND DESIGN > 1201 Architecture > 120101 Architectural Design > 12010106 Eco-architecture 12 BUILT ENVIRONMENT AND DESIGN > 1201 Architecture
Divisions:	Faculty of Technology > Department of Architecture
Depositing User:	Mr Harida Samudro
Date Deposited:	08 Nov 2023 14:59

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