Infiltration Response of Adsorbent Amended Filters for Stormwater Management under Freezing/Thawing Conditions

Coastal cold climates experience frequent intermittent melting and freezing periods over the cold period. This intermittent freezing in stormwater systems affects the infiltration capacity and hence the performance. This paper investigates the infiltration capacity of engineered filter media (compos...

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Bibliographic Details
Published inWater (Basel) Vol. 11; no. 12; p. 2619
Main Authors Monrabal-Martinez, Carlos, Scibilia, Elena, Maus, Sønke, Muthanna, Tone M.
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.12.2019
Subjects
Adsorbents
Bark
Charcoal
Charged particles
Climate
Cold
Cold weather
Electric properties
Filter media
Fluid filters
Freezing
Hydraulics
Hydrogeology
Infiltration capacity
Infiltration rate
Methods
Moisture content
NMR
Nuclear magnetic resonance
Olivine
Particle size
Runoff
Sand
Stormwater
Stormwater management
Thawing
Water content
Water purification
Water quality
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Summary:Coastal cold climates experience frequent intermittent melting and freezing periods over the cold period. This intermittent freezing in stormwater systems affects the infiltration capacity and hence the performance. This paper investigates the infiltration capacity of engineered filter media (composed of sand mixed with charcoal, pine bark, or olivine) under freezing temperatures in a column-based laboratory setup. Infiltration into partially frozen filter media was replicated using a climate room. The filter media in the columns were brought to −2.5 °C, and water at +2 °C was percolated through the columns with a constant head of 5 cm. Infiltration performance was assessed by observing the time until breakthrough, and the infiltration rate 24 h after breakthrough. The results were compared to the observed hydraulic conductivity for the unfrozen filter media. A novel approach combining the unfrozen water content curves with X-ray tomographic (XRT) images of the materials was adopted to better understand the thermal and infiltration processes. Breakthrough was observed between ca. 21 and 56 h in all columns. The column with homogeneously mixed filter media with sand yielded the quickest breakthrough. The infiltration rates were higher than recommendations for infiltration-based systems in cold climates, making them a suitable option in cold climates.
ISSN:2073-4441
2073-4441
DOI:10.3390/w11122619