Grey water treatment through biofilm development and sediment accumulation in a horizontal batch-operated open reactor

B. Prajapati; M. Bergen Jensen

doi:10.1080/1573062X.2019.1687741

Grey water treatment through biofilm development and sediment accumulation in a horizontal batch-operated open reactor

Landscape Architecture and Planning

Abstract

To upgrade grey water for higher-purpose reuse in decentralized systems, simple process unit operations for mineralization of bulk organic matter and removal of non- or slowly degradable particles are required. We conducted two 16-day experiments on light grey water, using a shallow, open to the air reactor of 2 m × 0.6 m × 0.05 m, equipped with a 0.05 m thick polyamide net to support passively aerated biofilm, and applying a gravity-driven batch flow-mode at 1.44 m³/day, first with full drainage of each batch (60 L), then with only half drainage (30 L), leaving a stagnant water layer behind. Turbidity, chemical oxygen demand and total suspended solids were significantly reduced in both experiments, documenting the passive aeration to be efficient, and some sedimentation to take place. Despite 50% shorter hydraulic residence time, the biofilm developed faster and was better distributed in the half drainage experiment, endorsing this principle.

Original language	English
Journal	Urban Water Journal
ISSN	1573-062X
DOIs	https://doi.org/10.1080/1573062X.2019.1687741
Publication status	Published - 14 Sept 2019

Keywords

Biodegradation
decentralized system
dual porosity filtration
passive aeration
reuse
suspended solids

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1080/1573062X.2019.1687741

Cite this

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title = "Grey water treatment through biofilm development and sediment accumulation in a horizontal batch-operated open reactor",

abstract = "To upgrade grey water for higher-purpose reuse in decentralized systems, simple process unit operations for mineralization of bulk organic matter and removal of non- or slowly degradable particles are required. We conducted two 16-day experiments on light grey water, using a shallow, open to the air reactor of 2 m × 0.6 m × 0.05 m, equipped with a 0.05 m thick polyamide net to support passively aerated biofilm, and applying a gravity-driven batch flow-mode at 1.44 m3/day, first with full drainage of each batch (60 L), then with only half drainage (30 L), leaving a stagnant water layer behind. Turbidity, chemical oxygen demand and total suspended solids were significantly reduced in both experiments, documenting the passive aeration to be efficient, and some sedimentation to take place. Despite 50% shorter hydraulic residence time, the biofilm developed faster and was better distributed in the half drainage experiment, endorsing this principle.",

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T1 - Grey water treatment through biofilm development and sediment accumulation in a horizontal batch-operated open reactor

AU - Prajapati, B.

AU - Jensen, M. Bergen

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N2 - To upgrade grey water for higher-purpose reuse in decentralized systems, simple process unit operations for mineralization of bulk organic matter and removal of non- or slowly degradable particles are required. We conducted two 16-day experiments on light grey water, using a shallow, open to the air reactor of 2 m × 0.6 m × 0.05 m, equipped with a 0.05 m thick polyamide net to support passively aerated biofilm, and applying a gravity-driven batch flow-mode at 1.44 m3/day, first with full drainage of each batch (60 L), then with only half drainage (30 L), leaving a stagnant water layer behind. Turbidity, chemical oxygen demand and total suspended solids were significantly reduced in both experiments, documenting the passive aeration to be efficient, and some sedimentation to take place. Despite 50% shorter hydraulic residence time, the biofilm developed faster and was better distributed in the half drainage experiment, endorsing this principle.

AB - To upgrade grey water for higher-purpose reuse in decentralized systems, simple process unit operations for mineralization of bulk organic matter and removal of non- or slowly degradable particles are required. We conducted two 16-day experiments on light grey water, using a shallow, open to the air reactor of 2 m × 0.6 m × 0.05 m, equipped with a 0.05 m thick polyamide net to support passively aerated biofilm, and applying a gravity-driven batch flow-mode at 1.44 m3/day, first with full drainage of each batch (60 L), then with only half drainage (30 L), leaving a stagnant water layer behind. Turbidity, chemical oxygen demand and total suspended solids were significantly reduced in both experiments, documenting the passive aeration to be efficient, and some sedimentation to take place. Despite 50% shorter hydraulic residence time, the biofilm developed faster and was better distributed in the half drainage experiment, endorsing this principle.

KW - Biodegradation

KW - decentralized system

KW - dual porosity filtration

KW - passive aeration

KW - reuse

KW - suspended solids

U2 - 10.1080/1573062X.2019.1687741

DO - 10.1080/1573062X.2019.1687741

M3 - Journal article

SN - 1573-062X

JO - Urban Water Journal

JF - Urban Water Journal

ER -

Grey water treatment through biofilm development and sediment accumulation in a horizontal batch-operated open reactor

Abstract

Keywords

UN SDGs

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