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| + | [[File:Aggregates Highway 7.jpg|thumb|The fines can clearly be seen on these piles of standard OPSS aggregates for road reconstruction]] |
| + | <onlyinclude>Of the standard granular materials in the standard [http://www.raqsb.mto.gov.on.ca/techpubs/ops.nsf/0/0b9aa4d966cac4f9852580820062909e/$FILE/OPSS.MUNI%201010%20Nov%2013.pdf OPSS.MUNI 1010] only '''Granular O''' is recommended as a substitute for [[reservoir aggregate| clear stone]] in LID construction. |
| + | {{Textbox|1= Where Granular O is substituted for clear stone in underground reservoir structures, the porosity used in design calculations shall be '''0.3''' unless laboratory testing proves otherwise.}} |
| + | Examples of BMPs with underground reservoirs include [[Underdrains]], [[infiltration trenches]], [[permeable pavements]], [[infiltration chambers]], [[exfiltration trenches]]. |
| + | |
| + | All other mixes must be avoided for free drainage or storage as they are permitted to contain a higher enough proportion of fines to reduce permeability below 50 mm/hr. |
| + | </onlyinclude> |
| + | ===Justification=== |
| + | |
| {| class="wikitable" | | {| class="wikitable" |
| |+ Grain size analysis, percent passing<ref>OPSS. (2013). Material Specficiation for Aggregates - Base, Subbase, Select Subgrade, and Backfill Material. Retrieved from http://www.raqsb.mto.gov.on.ca/techpubs/ops.nsf/0/0b9aa4d966cac4f9852580820062909e/$FILE/OPSS.MUNI%201010%20Nov%2013.pdf</ref> | | |+ Grain size analysis, percent passing<ref>OPSS. (2013). Material Specficiation for Aggregates - Base, Subbase, Select Subgrade, and Backfill Material. Retrieved from http://www.raqsb.mto.gov.on.ca/techpubs/ops.nsf/0/0b9aa4d966cac4f9852580820062909e/$FILE/OPSS.MUNI%201010%20Nov%2013.pdf</ref> |
− | ! Sieve size (mm) | + | !rowspan = "2" align = center| Sieve size (mm) |
| !colspan = "2" align = center| A | | !colspan = "2" align = center| A |
− | !colspan = "2" align = center| B I | + | !colspan = "2" align = center| B type I |
− | !colspan = "2" align = center| B II | + | !colspan = "2" align = center| B type II |
− | !colspan = "2" align = center| B III | + | !colspan = "2" align = center| B type III |
| !colspan = "2" align = center| M | | !colspan = "2" align = center| M |
| !colspan = "2" align = center| O | | !colspan = "2" align = center| O |
| !colspan = "2" align = center| SSM | | !colspan = "2" align = center| SSM |
| |- | | |- |
− | | || High || Low || High || Low || High || Low || High || Low || High || Low || High || Low || High || Low
| + | | High || Low || High || Low || High || Low || High || Low || High || Low || High || Low || High || Low |
| |- | | |- |
| | 150 || || || 100 || 100 || || || 100 || 100 || || || || || 100 || 100 | | | 150 || || || 100 || 100 || || || 100 || 100 || || || || || 100 || 100 |
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| | 0.15 || || 15 || || || || || || || || || || || 2 || 65 | | | 0.15 || || 15 || || || || || || || || || || || 2 || 65 |
| |- | | |- |
− | | 0.075 || 2 || 8 || 0 || 8 || 0 || 10 || 0 || 8 || 2 || 8 || 0 || 5 || 0 || 25 | + | | 0.075 || 2 || 8 || 0 || 8 || 0 || 10 || 0 || 8 || 2 || 8 || 0 || 5 || 0 ||style='color: red'|25 |
| |- | | |- |
| | d<sub>60</sub> || 13 || 6 || 35 || 0.25 || 25 || 6 || 40 || 1.2 || 10 || 5 || 15 || 7 || 35 || 0.15 | | | d<sub>60</sub> || 13 || 6 || 35 || 0.25 || 25 || 6 || 40 || 1.2 || 10 || 5 || 15 || 7 || 35 || 0.15 |
| |- | | |- |
− | | d<sub>10</sub> || 0.7 || 0.1 || 1 || 0.08 || 1.2 || 0.075 || 1.2 || 0.085 || 0.6 || 0.09 || 2.5 || 0.3 || 1.2 || NN | + | | d<sub>10</sub> || 0.7 || 0.1 || 1 || 0.08 || 1.2 || 0.075 || 1.2 || 0.085 || 0.6 || 0.09 || 2.5 || 0.3 || 1.2 ||style='color: red'|NaN |
| |- | | |- |
| | Content Uniformity || 19 || 60 || 35 || 3 || 21 || 80 || 33 || 14 || 17 || 56 || 6 || 23 || 29 || | | | Content Uniformity || 19 || 60 || 35 || 3 || 21 || 80 || 33 || 14 || 17 || 56 || 6 || 23 || 29 || |
| |- | | |- |
− | | n (Vukovic) || 0.26 || 0.26 || 0.26 || 0.40 || 0.26 || 0.26 || 0.26 || 0.27 || 0.27 || 0.26 || 0.34 || 0.26 || 0.26 || | + | | Porosity (Vukovic) || 0.26 || 0.26 || 0.26 || 0.40 || 0.26 || 0.26 || 0.26 || 0.27 || 0.27 || 0.26 || 0.34 || 0.26 || 0.26 || |
| |- | | |- |
− | | Mean n (Vukovic) || 0.26 || || 0.33 || || 0.26 || || 0.26 || || 0.26 || || 0.30 || || 0.26 ||
| + | ! Mean porosity (Vukovic) |
| + | !colspan = "2" align = center| 0.26 |
| + | !colspan = "2" align = center| 0.33 |
| + | !colspan = "2" align = center| 0.26 |
| + | !colspan = "2" align = center| 0.26 |
| + | !colspan = "2" align = center| 0.26 |
| + | !colspan = "2" align = center| 0.3 |
| + | !colspan = "2" align = center| 0.26 |
| |- | | |- |
− | | K<sub>(Hazen)</sub>(mm/hr) || 1764 || 36 || 3600 || 23.04 || 5184 || 20.25 || 5184 || 26.01 || 1296 || 29.16 || 22500 || 324 || 5184 || NN | + | | K<sub>(Hazen)</sub>(mm/hr) || 1764 ||style='color: red'|36 || 3600 ||style='color: red'|23 || 5184 ||style='color: red'|20 || 5184 ||style='color: red'|26|| 1296 ||style='color: red'|29|| 22500 || 324 || 5184 ||style='color: red'|NaN |
| |- | | |- |
− | | Mean K<sub>(hazen)</sub>(mm/hr) || 900 || || 1812 || || 2602 || || 2605 || || 663 || || 11412 || || NN ||
| + | ! Mean K<sub>(hazen)</sub>(mm/hr) |
| + | !colspan = "2" align = center| 900 |
| + | !colspan = "2" align = center| 1812 |
| + | !colspan = "2" align = center| 2602 |
| + | !colspan = "2" align = center| 2605 |
| + | !colspan = "2" align = center| 663 |
| + | !colspan = "2" align = center| 11412 |
| + | !colspan = "2" align = center style='color: red'|NaN |
| |} | | |} |
| + | |
| + | Porosity values were calculated based on the coefficient of uniformity (''C<sub>U</sub>'')<ref>Vuković, Milan and Soro, Andjelko Determination of hydraulic conductivity of porous media from grain-size composition. Water Resources Publications, Littleton, Colo, 1992.</ref><ref>Odong, J. (2007). Evaluation of Empirical Formulae for Determination of Hydraulic Conductivity based on Grain-Size Analysis. Journal of American Science, 3(3). Retrieved from http://www.jofamericanscience.org/journals/am-sci/0303/10-0284-Odong-Evaluation-am.pdf</ref><ref>Zhang, S. (2017). Relationship between Particle Size Distribution and Porosity in Dump Leaching. the University of British Columbia. Retrieved from https://open.library.ubc.ca/collections/ubctheses/24/items/1.0357233</ref>: |
| + | <math>n=0.255\left ( 1+0.83^{C_{U}} \right )</math> |
| + | Where coefficient of uniformity is the ratio of the 60th and 10th percentile grain sizes: |
| + | <math>C_U=\frac{d_{60}}{d_{10}}</math> |
| + | |
| + | Permeability (''K'') was estimated from the 10th percentile grain size using the [[Hazen]] formula. |
| + | ---- |
| + | [[Category: Materials]] |