Development and Application of a Low Impact Development (LID)-Based District Unit Planning Model

The purpose of this study was to develop a low impact development-based district unit planning (LID-DP) model and to verify the model by applying it to a test site. To develop the model, we identified various barriers to the urban planning process and examined the advantages of various LID-related t...

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Veröffentlicht in:	Sustainability 2017-01, Vol.9 (1), p.145-145
Hauptverfasser:	Son, Cheol, Hyun, Kyoung, Kim, Donghyun, Baek, Jong, Ban, Yong
Format:	Artikel
Sprache:	eng
Schlagworte:	Climate change Computer simulation Hydrologic cycle Land use planning Measurement methods Model testing Nonpoint source pollution Oxygen demand Pollutants Rainfall Riparian buffers Runoff Surface runoff Sustainability Sustainable development Urban planning
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creator	Son, Cheol Hyun, Kyoung Kim, Donghyun Baek, Jong Ban, Yong
description	The purpose of this study was to develop a low impact development-based district unit planning (LID-DP) model and to verify the model by applying it to a test site. To develop the model, we identified various barriers to the urban planning process and examined the advantages of various LID-related techniques to determine where in the urban development process LID would provide the greatest benefit. The resulting model provides (1) a set of district unit planning processes that consider LID standards and (2) a set of evaluation methods that measure the benefits of the LID-DP model over standard urban development practices. The developed LID-DP process is composed of status analysis, comprehensive analysis, basic plan, and sectoral plans. To determine whether the LID-DP model met the proposed LID targets, we applied the model to a test site in Cheongju City, Chungcheongbuk-do Province, Republic of Korea. The test simulation showed that the LID-DP plan reduced nonpoint source pollutants (total nitrogen, 113%; total phosphorous, 193%; and biological oxygen demand, 199%); reduced rainfall runoff (infiltration volume, 102%; surface runoff, 101%); and improved the conservation rate of the natural environment area (132%). The successful application of this model also lent support for the greater importance of non-structural techniques over structural techniques in urban planning when taking ecological factors into account.
doi_str_mv	10.3390/su9010145
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subjects	Climate change Computer simulation Hydrologic cycle Land use planning Measurement methods Model testing Nonpoint source pollution Oxygen demand Pollutants Rainfall Riparian buffers Runoff Surface runoff Sustainability Sustainable development Urban planning
title	Development and Application of a Low Impact Development (LID)-Based District Unit Planning Model
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