The effect of temperature on zinc leaching from rubber tire mulch

School Name

Spring Valley High School

Grade Level

10th Grade

Presentation Topic

Chemistry

Presentation Type

Non-Mentored

Oral Presentation Award

1st Place

Written Paper Award

1st Place

Abstract

Scrap tires are being recycled into many products in order to bypass slow degradation in landfills. Recycled rubber tire mulch contains zinc oxide used in tire formation that can be released through the creation of leachates. This study examines the relationship between temperature environment and leachate zinc concentration. After observing rubber mulch surface temperatures in conjunction with other factors, it was hypothesized that higher temperatures would lead to increased zinc release by rubber mulch and higher leachate zinc concentrations. Leachates were created by mixing 10 grams of mulch and 200 mL distilled water and placing in 5oC, 29oC, and 71oC environments for 24 hours. Zinc content in ppm was then tested and statistically analyzed with ANOVA at alpha=0.05. A significant decrease in mean leachate zinc concentration as temperature increased was shown between the 29oC (M = 5.733, SD = 1.486) and 71oC (M = 4.133, SD = 0.516) treatments and the 5oC (M = 6.533, SD = 0.743) and 71oC treatments (F(2, 42) = 22.19, p< 0.01). Therefore, within these intervals, decreasing temperatures increased rubber mulch breakdown and leachate zinc concentration. Because tires are created at high temperatures during the vulcanization process, it is reasonable to consider that tires are strongest at higher temperatures. Studying the effect of rubber mulch leachates on soil and various organisms would provide a direct study to more accurately deduce potential environmental impacts.

Location

Wall 226

Start Date

3-25-2017 12:00 PM

Presentation Format

Oral and Written

Group Project

No

COinS
 
Mar 25th, 12:00 PM

The effect of temperature on zinc leaching from rubber tire mulch

Wall 226

Scrap tires are being recycled into many products in order to bypass slow degradation in landfills. Recycled rubber tire mulch contains zinc oxide used in tire formation that can be released through the creation of leachates. This study examines the relationship between temperature environment and leachate zinc concentration. After observing rubber mulch surface temperatures in conjunction with other factors, it was hypothesized that higher temperatures would lead to increased zinc release by rubber mulch and higher leachate zinc concentrations. Leachates were created by mixing 10 grams of mulch and 200 mL distilled water and placing in 5oC, 29oC, and 71oC environments for 24 hours. Zinc content in ppm was then tested and statistically analyzed with ANOVA at alpha=0.05. A significant decrease in mean leachate zinc concentration as temperature increased was shown between the 29oC (M = 5.733, SD = 1.486) and 71oC (M = 4.133, SD = 0.516) treatments and the 5oC (M = 6.533, SD = 0.743) and 71oC treatments (F(2, 42) = 22.19, p< 0.01). Therefore, within these intervals, decreasing temperatures increased rubber mulch breakdown and leachate zinc concentration. Because tires are created at high temperatures during the vulcanization process, it is reasonable to consider that tires are strongest at higher temperatures. Studying the effect of rubber mulch leachates on soil and various organisms would provide a direct study to more accurately deduce potential environmental impacts.