000	02001nam  2200349zi 4500
001	9.868725
003	CaOODSP
005	20221107162650
006	m     o  d f
007	cr |||||||||||
008	190222s2004    onc    #ot   f|0| 0 eng d
040	|aCaOODSP|beng|erda|cCaOODSP
043	|an-cn---
086	1 |aEn13-5/04-172E-PDF
100	1 |aRoss, Nathalie, |eauthor.
245	12|aA biobarrier concept for the remediation of groundwater in fractured rock / |cby Nathalie Ross.
264	1|a[Burlington, Ontario] : |bEnvironment Canada, Water Science and Technology Directorate = Environnement Canada, Direction générale des sciences et de la technologie, eau, |c[2004]
300	|a1 online resource (10 pages) : |bfigures.
336	|atext|btxt|2rdacontent
337	|acomputer|bc|2rdamedia
338	|aonline resource|bcr|2rdacarrier
490	1 |aNWRI contribution ; |v04-172
500	|aDigitized edition from print [produced by Environment and Climate Change Canada].
500	|aTitle from cover.
520	|a"Fractured rock aquifers are the most complex sites to remediate. To date, no known technologies have been proven to be successful in this setting. Complexity is attributable to the fracture framework, which governs groundwater flow to the diffusion of contamination in the rock matrix, which is followed by a back diffusion that may last for decades, and to the challenge of delivering a remediation technology, which includes the cost of excavating. Recent work on a biobarrier concept showed potential for the control of contaminant transport in fractured environments"--page [1].
692	07|2gccst|aGroundwater
692	07|2gccst|aWater management
710	1 |aCanada. |bEnvironment Canada.
710	2 |aNational Water Research Institute (Canada)
830	#0|aNWRI contribution ;|v04-172.|w(CaOODSP)9.844121
856	40|qPDF|s860 KB|uhttps://publications.gc.ca/collections/collection_2019/eccc/en13-5/En13-5-04-172-eng.pdf