Tire Incineration — Solutions

TOPICS WITHIN THIS PAGE
Reuse
Rub­ber­ized Asphalt Con­crete
Devul­can­iza­tion
Monofills
Source Reduc­tion and Improve­ment of Con­tent
Foot­notes

Not only is tire incin­er­a­tion dan­ger­ous, it is also unnec­es­sary. There are a num­ber of much bet­ter solu­tions to the tire waste crisis.

Reuse and Recycling

Tires and tire mate­r­i­al can often be reused. One method of reuse is tire re-tread­ing.1 Since about 60% of the tire mate­r­i­al is in the cas­ing, re-tread­ing can make a sig­nif­i­cant impact. A qual­i­ty car tire can be re-tread­ed about three times, and larg­er vehi­cles can be re-tread­ed as many as 12 times. Unfor­tu­nate­ly only 10% of cars and light trucks are re-tread­ed. If this were to change, the result would be a major reduc­tion in tire waste.

Tires can also be uti­lized for an almost unlim­it­ed range of cre­ative uses includ­ing auto parts, sound bar­ri­ers, and rail­road ties, just to name a few. They should not be con­sid­ered safe for use in play­grounds, how­ev­er. See safehealthyplayingfields.org and the Tire­less and Non-Tox­ic Play­grounds and Fields Face­book page for infor­ma­tion on why tires should not be used in playgrounds.

Fur­ther resources on the haz­ards of ground-up rub­ber tires in play­grounds, ath­let­ic fields, or gar­den mulch can be found at Envi­ron­ment & Human Health, Inc. (Yale tox­i­col­o­gists), No Tox­ic Turf, Turf Grass Forum, and SynTurf.org.

A good place to look for ideas on tire reuse is the “Recy­cling” page of Mon­tanans Against Tox­ic Burn­ing (the source of the above sta­tis­tics).2 The Rub­ber Man­u­fac­tur­ers Asso­ci­a­tion’s report on Scrap Tire Mar­kets is anoth­er great source of infor­ma­tion on mar­kets oth­er than TDF burn­ing.3

As with all waste man­age­ment solu­tions, source reduc­tion and reuse are the high­est goals. How­ev­er, it’s also nec­es­sary to recy­cle as much as pos­si­ble, with­out “down­cy­cling” the mate­r­i­al to a low­er use that can no longer be made back into the same prod­uct. Actu­al recy­cling of scrap tires is very rare, but recy­cling tech­nol­o­gy is advanc­ing and becom­ing more of an option. For details, read the report on “Increas­ing the Recy­cled Con­tent in New Tires” pub­lished in May 2004 for the state of Cal­i­for­nia.4

The Cana­di­an province of Nova Sco­tia has banned land­fill­ing and incin­er­a­tion of tires in 1996. Nova Sco­tia has a strong tire recy­cling pro­gram. In Kemp­town, a com­pa­ny named Atlantic Recy­cled Rub­ber Inc. uses a patent­ed cryo­genic process to freeze scrap tires, remove fibers and met­al wire, and pro­duce crumb rub­ber sort­ed into dif­fer­ent mesh sizes to be recy­cled into var­i­ous rub­ber products.

Rubberized Asphalt Concrete

Rub­ber­ized Asphalt Con­crete (RAC) is a “down­cy­cling” use of scrap tires that could dras­ti­cal­ly reduce this waste stream. RAC is cre­at­ed by a process in which tires are shred­ded and ground into dust, then mixed with tra­di­tion­al asphalt. The result is a high qual­i­ty con­crete that can be used to pave roads. RAC is already in use in Cal­i­for­nia, Ari­zona, Flori­da, and around the world. Accord­ing to Joyce Eden of West Val­ley Cit­i­zens Air Watch, “Most if not all of the used tires could be used in RAC. RAC is bet­ter, longer last­ing, uses only 2” ver­sus 4″ of mate­r­i­al to make the road cov­er, is qui­eter and…the tires on the cars and trucks last longer because the sur­face is more giv­ing.” 5 The Cal­i­for­nia Inte­grat­ed Waste Man­age­ment Board not­ed in 1992 that “Rub­ber­ized asphalt has the poten­tial to use all the scrap tires in the State in the future.” 6

How­ev­er there are cur­rent­ly some seri­ous polit­i­cal obsta­cles to wide­spread RAC use. The cement indus­try is gen­er­al­ly opposed to RAC because it is more dif­fi­cult to apply than tra­di­tion­al con­crete and it is less prof­itable because it lasts longer. There are also some legit­i­mate health con­cerns: There is evi­dence that RAC may pose an occu­pa­tion­al haz­ard to work­ers apply­ing it. Addi­tion­al­ly, a study per­formed in 1995 by aller­gy spe­cial­ists indi­cat­ed that dust from RAC could poten­tial­ly cause seri­ous aller­gic reac­tions in motorists who are aller­gic to latex.7

Still, the ben­e­fits of RAC are entic­ing. Below is an excerpt from the tran­script of a Date­line NBC sto­ry on RAC.8


MORRISON: (Voiceover) George Way is an engi­neer with the Ari­zona Depart­ment of Trans­porta­tion. He showed us this test road. On one side, a stretch of con­ven­tion­al asphalt four inch­es thick. On the oth­er, just two inch­es of rub­ber­ized asphalt. The dif­fer­ence was strik­ing. Take a look at the rub­ber­ized asphalt. Even after sev­en years of wear and tear it’s still near­ly as good as new.


(Way and Mor­ri­son talk­ing; road)


Mr. GEORGE WAY: Vir­tu­al­ly no crack in it at all, in this sec­tion, and that’s been down sev­en years.


MORRISON: By gol­ly, it’s amazing.


Mr. WAY: It is. It’s darn amaz­ing. It’s pret­ty impressive.


MORRISON: (Voiceover) As for the oth­er stretch of road with four inch­es of reg­u­lar asphalt, the con­stant stream of traf­fic has tak­en a heavy toll.


(Cracked road)


Mr. WAY: (Voiceover) That sec­tion actu­al­ly start­ed to crack up the first year, and it’s got­ten pro­gres­sive­ly worse every year. 

As this excerpt demon­strates, RAC is an impres­sive and valu­able use of tire waste, despite its cur­rent prob­lems. For this rea­son, envi­ron­men­tal sci­en­tists like Dr. Sey­mour I. Schwartz advo­cate the use of RAC. While rec­og­niz­ing that “There are also occu­pa­tion­al health con­cerns aris­ing from RAC use…[which] should be exam­ined more ful­ly to estab­lish if the rub­ber addi­tive is capa­ble of caus­ing seri­ous health prob­lems”, Schwartz insists that “Man­dat­ing RAC use is a pol­i­cy option for real­iz­ing its poten­tial for recy­cling mil­lions of tires per year.…” Schwartz rec­om­mends that gov­ern­ment agen­cies “offer grants for RAC research that study meth­ods for enhanc­ing the gran­u­lat­ed rubber’s effec­tive­ness as an asphalt mod­i­fi­er, and the health effects on work­ers paving roads. Offer oth­er grants to train paving con­trac­tors and work­ers in appro­pri­ate appli­ca­tion meth­ods, and to pro­vide an incen­tive to local gov­ern­ments to use RAC.” 9

Devulcanization

Pos­si­bly the sin­gle most promis­ing solu­tion to waste tires is devul­can­iza­tion, a process by which cured rub­ber can be bro­ken down and recy­cled. Recent inno­va­tions in this field have opened up a whole new realm of pos­si­bil­i­ty for gen­uine tire recycling.

Vul­can­iza­tion is the process by which rub­ber is com­bined with oth­er ingre­di­ents, heat­ed, and hard­ened in order to ren­der it into a state where it can be made into prod­ucts like boots, hoses, rain­coats, and tires. It used to be thought that the vul­can­iza­tion process was irre­versible. Accord­ing to Ron Kovalak, a “mas­ter chem­i­cal tech­ni­cian” for Goodyear, “Ear­li­er meth­ods devul­can­ized by using every­thing from microwaves, cryo­genic process­es, pyrol­y­sis, ultra­son­ic waves, alka­li met­als to organ­ic sol­vents, which typ­i­cal­ly yield­ed 1 to 2 per­cent recov­ery.” 10

That has changed. Goodyear has recent­ly invent­ed a new devul­can­iza­tion process that can recov­er 80% of the rub­ber from waste tires, which can then be revul­can­ized and made into new prod­ucts (includ­ing tires).

Dr. Aavram I. Isayev of the Uni­ver­si­ty of Akron explains UA’s own patent­ed devul­can­iza­tion process:

“When tires and waste rub­bers are devul­can­ized, they can be reprocessed, shaped and revul­can­ized in much the same as vir­gin rub­ber. Our novel…technology is based on the use of high pow­er ultrasonics…The scope of mate­ri­als with this state-of-the-art tech­nol­o­gy includes all kinds of rub­bers such as GRT (Ground Rub­ber Tire), SBR, NR, Sil­i­cone rub­ber, EPDM, etc. and crosslinked ther­mo­plas­tics like crosslinked PE, EVA, etc. their blend sys­tems, and ther­mosets such as polyurethane, SMC, etc…This new tech­nol­o­gy will rev­o­lu­tion­ize the way rub­ber and crosslinked plas­tics are recy­cled.” 11

Dr. Sey­mour I. Schwartz com­ments fur­ther on the impact that devul­can­iza­tion will have:

Eco­nom­i­cal­ly, the mar­ket poten­tial of devul­can­ized rub­ber should be strong because it is capa­ble of replac­ing vir­gin rub­ber and polypropy­lene in high-val­ue prod­ucts at a recy­cled con­tent of up to 40 per­cent. Thus, mar­kets will come to it – to the high qual­i­ty recy­cled rub­ber – rather than need­ing mar­ket devel­op­ment efforts to cre­ate or pro­mote end uses that often must be sub­si­dized. Nat­ur­al rub­ber imports and polypropy­lene pro­duc­tion are each mul­ti-bil­lion dol­lar com­po­nents of the U. S. econ­o­my, sug­gest­ing that the mar­ket poten­tial for sub­sti­tute devul­can­ized tire rub­ber prod­ucts is huge. Per­haps the most imme­di­ate uses for devul­can­ized rub­ber are in asphalt for­mu­la­tions and in pas­sen­ger tires.12

Devul­can­iza­tion is clear­ly prefer­able to tire incin­er­a­tion and may very like­ly be the key to solv­ing the waste tire cri­sis if the tech­nol­o­gy becomes prac­ti­cal for wide­spread use. Duro­plas, a cor­po­ra­tion in north­east­ern Mary­land, is already paving the way with new chem­i­cal devul­can­iza­tion tech­nol­o­gy that can use scrap SBR (the rub­ber used in tires).13

Monofills

Until devul­can­iza­tion and gen­uine recy­cling process­es are ful­ly devel­oped, a prac­ti­cal short-term alter­na­tive to tire incin­er­a­tion is the use of monofills. Monofills are dis­pos­al sites for shred­ded tires. They dif­fer from nor­mal land­fills because they only con­tain waste tires and can be retrieved at a lat­er date to be ground into Rub­ber­ized Asphalt Con­crete or can be devul­can­ized and recy­cled into new tires.

Accord­ing to the Cal­i­for­nia Inte­grat­ed Waste Man­age­ment Board, “Shred­ding reduces the vol­ume and elim­i­nates oth­er prob­lems asso­ci­at­ed with land­fill­ing and stor­age” and “…shred­ding and monofill­ing tires is a method to safe­ly store this valu­able resource…”. Dr. Schwartz adds that “Retriev­able stor­age pro­vides an essen­tial com­po­nent of a tran­si­tion­al strat­e­gy capa­ble of bridg­ing the gap between the present and a long-term future that fea­tures true recy­cling in an envi­ron­men­tal­ly sound man­ner.“9

Monofills are only a tem­po­rary solu­tion, but when com­bined with oth­er tech­nolo­gies like devul­can­iza­tion, they present a real and per­ma­nent alter­na­tive to tire incineration.

Source Reduction

Aside from the afore­men­tioned alter­na­tives, anoth­er impor­tant goal is source reduc­tion, that is curb­ing the quan­ti­ty of tires pro­duced and the tox­ic sub­stances with­in them.

Accord­ing to the West Val­ley Cit­i­zens’ “In 1999, Ford Wind­stars are using Miche­lin tires which use 5% recy­cled rub­ber. Miche­lin’s tests show that they could use 10% used tire rub­ber mate­r­i­al in new tires and get the same results — per­for­mance and last­ing time same as 100% new rub­ber mate­r­i­al. If all tire man­u­fac­tur­ers did this, this alone would reduce the amount of used tires by mil­lions of tires per year.“14

Dr. Schwartz sug­gests a strat­e­gy to make this hap­pen. Although his pro­pos­al is geared toward the state of Cal­i­for­nia, the same con­cept should apply any­where. To quote him at length:

Miche­lin and Yoka­hama already sell tires with a tread­wear rat­ing of 620, which trans­lates to approx­i­mate­ly 124,000 miles of expect­ed use, and Goodyear sells a tire with a rat­ing of 540 (approx­i­mate­ly 108,000 miles) so there is no ques­tion about the nec­es­sary tech­nol­o­gy being avail­able. The only ques­tion is how to get the largest num­ber of long-lived tires on vehi­cles as quick­ly as pos­si­ble. Edu­cat­ing con­sumers to buy long-lived replace­ment tires at a pre­mi­um price is the wrong answer. These tires must be installed on new cars as orig­i­nal equip­ment, so it will only be nec­es­sary to con­vince or require auto mak­ers to install them. The extra cost rel­a­tive to today’s orig­i­nal equip­ment tires is small, prob­a­bly less than $100 per car – a rel­a­tive­ly insignif­i­cant amount on the aver­age $20,000 price of a new car. Fur­ther­more, the buy­er does not see the cost of tires item­ized, so the extra cost will not be a fac­tor in the consumer’s deci­sion or cause a prob­lem for the auto mak­er. Dri­ving their new cars more than 100,000 miles on a sin­gle set of tires will be the best mar­ket­ing device to con­vince vehi­cle own­ers to buy long-lived replace­ment tires.

I believe that state law should man­date that all new cars sold in Cal­i­for­nia be equipped with tires that have a min­i­mum tread­wear rat­ing of 500 (equiv­a­lent to 100,000 miles of expect­ed wear). Sure­ly, if the [Cal­i­for­nia Inte­grat­ed Waste Man­age­ment] Board can make the case on pub­lic health grounds that it is nec­es­sary to burn 22 mil­lion tires per year as fuel, it can make the case that new pas­sen­ger vehi­cles be equipped with long-lived tires in order to reduce the neg­a­tive health impacts of both uncon­trolled fires and con­trolled burn­ing using TDF.12

List of Tire Burn­ing Facilities


Foot­notes:

  1. Tire Retread Infor­ma­tion Bureau. www.retread.org
  2. “Tire Recy­cling,” Mon­tanans Against Tox­ic Burn­ing. www.notoxicburning.org/recycling.html
  3. “U.S. Scrap Tire Mar­kets 2005,” Rub­ber Man­u­fac­tur­ers Asso­ci­a­tion, Nov 2006.
    https://www.rma.org/getfile.cfm?ID=894&type=publication (796 KB PDF file) [Local copy]
  4. “Increas­ing the Recy­cled Con­tent in New Tires,” Cal­i­for­nia Inte­grat­ed Waste Man­age­ment Board, May 2004.
    www.ciwmb.ca.gov/Publications/Tires/62204001.pdf
  5. Joyce Eden. Let­ter. www.portaec.net/local/tireburning/california_integrated_waste.thml.html
  6. Cal­i­for­nia Inte­grat­ed Waste Man­age­ment Board. Annu­al Report. 1992.
  7. P. Brock Williams et. al., “Latex aller­gen in res­pirable par­tic­u­late air pol­lu­tion.” JOURNAL OF ALLERGY AND CLINICAL IMMUNOLOGY Vol. 95, No. 1, Part 1 (Jan­u­ary 1995), pgs. 88–96.
    Also see www.rachel.org/bulletin/bulletin.cfm?Issue_ID=686
  8. Nation­al Broad­cast­ing Co. Inc. DATELINE NBC. (8:00 PM ET) Octo­ber 23, 1998. http://www.portaec.net/local/tireburning/used_tires.html
  9. Dr. Sey­mour I. Schwartz. Let­ter to Cal­i­for­nia Inte­grat­ed Waste Man­age­ment Board. Jan­u­ary 21, 1998.
    www.portaec.net/local/tireburning/dr_schwartz.html [Local copy]
  10. AOL News. “Goodyear Patents Process to Recov­er Rub­ber from Tires.” Wednes­day, Sep­tem­ber 8, 1999. www.energyjustice.org/files/tires/files/goodyeardevulc.html
  11. “Dr. Isayev’s rub­ber and plas­tic recy­cling home” www3.uakron.edu/isayev/
  12. Dr. Sey­mour I Schwartz, Let­ter to Cal­i­for­nia Inte­grat­ed Waste Man­age­ment Board. August 31, 1999. http://www.ejnet.org/files/tires/files/schwarts2ciwmb.pdf
  13. Duro­plas. www.duroplas.com/technology.html
  14. West Val­ley Cit­i­zens’ Air Watch, “Tire Derived Fuel Issues Sum­ma­ry.” March 1999. www.portaec.net/local/tireburning/tire_derived_fuel_issues_summary.html

EJ Communities Map

Map of Coal and Gas Facilities

We are mapping all of the existing, proposed, closed and defeated dirty energy and waste facilities in the US. We are building a network of community groups to fight the facilities and the corporations behind them.

Related Projects

Watch Us on YouTube