There are 5 basic requirements to design according to the DBI:.

Planning practices include and relate several approaches that are developed independently by different authors. These approaches have different names but their concepts are similar and they share similar objectives in terms of protecting water quality.

The structure of DBI practices should be planned and selected for any site, taking into consideration the land use, hydrology, soil type, climate and rainfall of the site. There are many variations on these DBI practices, and some practices may not be appropriate for the site being treated. Many are practical for site modernization or upgrade projects, and also for new construction. Frequently used practices include:

Low-impact development has multiple benefits, such as protecting animal habitats, improving runoff and flood management, and reducing impervious surfaces. DBI also improves groundwater quality and increases its quantity, which benefits the aesthetics of the site, increasing the value of the community.

This type of ID development can also be used to eliminate the need for stormwater ponds, which occupy expensive land. Incorporating DBI in terms of design allows developers to build more houses on the same land, while maximizing their profits.

Contenido

El principio básico del DBI de utilizar a la Naturaleza como modelo y gestionar las precipitaciones en la fuente misma, se logra mediante la implementación de estrategias secuenciadas de escorrentía, mitigación de esta y, por último, los controles de tratamiento para eliminar contaminantes. A pesar de que las Prácticas de Gestión Integrada (PGI's) — descentralizadas, controlan a microescala la infiltración, el almacenamiento, la evaporación y la detención de la escorrentía cercana a la fuente — obtienen la mayor parte de la atención por parte de los ingenieros, es crucial entender que el DBI es algo más que la aplicación de una nueva lista de prácticas y productos. Es un proceso de diseño estratégico para crear un sitio sostenible que imite las propiedades hidrológicas no desarrolladas del sitio. Se requiere un enfoque prescriptivo que sea apropiado para el uso del suelo tratado.

El diseño basado en los principios del DBI sigue cuatro pasos sencillos. En primer lugar, se deben determinar las condiciones previas al desarrollo del sitio e identificar los objetivos hidrológicos (algunas jurisdicciones sugieren ir a condiciones boscosas). En segundo lugar, se evalúan los objetivos del tratamiento, que dependen del uso del sitio y los contaminantes locales. En tercer lugar, se identificará el proceso que responde a las necesidades específicas del sitio. Y por último, se debe aplicar una práctica que emplee el proceso elegido, al tiempo que se ajusta a las restricciones del sitio.

Los procesos básicos utilizados para gestionar las aguas pluviales incluyen un pretratamiento, la filtración, la infiltración, el almacenamiento y la reutilización.

Pretreatment

Pretreatment is recommended to remove contaminants such as trash, debris and larger sediment. Incorporating a pretreatment system, such as a hydrodynamic separator, can prolong the longevity of the entire system by preventing premature clogging during primary treatment.

Filtration

When stormwater is passed through a filter, solids and other contaminants are removed. Most means of removing solids are through mechanical processes. The gradation of the medium, the irregularity of the shape, the porosity and the roughness of the surface are characteristics that influence the removal of solids. Many other contaminants such as nutrients and metals can be removed through chemical and/or biological processes. Filtration is a key component for DBI sites, especially when infiltration is not feasible. Filtering systems can be designed to remove primary pollutants from runoff and small-scale decentralized inlets can be configured. This allows runoff to be treated close to its source without being additionally collected or requiring infrastructure for transportation.

Infiltration

Infiltration recovers stormwater runoff and allows groundwater recharge. Runoff enters the soil and filters through the subsurface. The infiltration rate is affected by soil compaction and soil storage capacity; This will decrease as the soil becomes saturated. Soil texture and structure, vegetation type and cover, soil water content, soil temperature, and rainfall intensity are vital in controlling infiltration rate and capacity. Infiltration plays a critical role in DBI site design. Some of the benefits of infiltration include improving water quality (as water percolates through the soil) and reducing runoff. When distributed throughout a site, infiltration can significantly help maintain the natural hydrology of the site.

Storage and reuse

Capturing and reusing stormwater as a resource helps maintain the previous hydrological development of a site while creating an additional supply of water for irrigation or other purposes. Rainwater harvesting is a DBI practice that facilitates the reuse of stormwater.

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There are 5 basic requirements to design according to the DBI:.

Planning practices include and relate several approaches that are developed independently by different authors. These approaches have different names but their concepts are similar and they share similar objectives in terms of protecting water quality.

The structure of DBI practices should be planned and selected for any site, taking into consideration the land use, hydrology, soil type, climate and rainfall of the site. There are many variations on these DBI practices, and some practices may not be appropriate for the site being treated. Many are practical for site modernization or upgrade projects, and also for new construction. Frequently used practices include:

Low-impact development has multiple benefits, such as protecting animal habitats, improving runoff and flood management, and reducing impervious surfaces. DBI also improves groundwater quality and increases its quantity, which benefits the aesthetics of the site, increasing the value of the community.

This type of ID development can also be used to eliminate the need for stormwater ponds, which occupy expensive land. Incorporating DBI in terms of design allows developers to build more houses on the same land, while maximizing their profits.