Are Climate Claims for Burning Renewable Trees a Smokescreen?

- by Robert McClure, April 21, 2014. Source: The Tyee/Investigate West

Nes­tled into a sea­side for­est on the Uni­ver­si­ty of British Columbi­a’s lands, amid a car­pet of sword ferns and salal, sits a gleam­ing indus­tri­al facil­i­ty that’s been hailed as a sig­nif­i­cant step toward a car­bon-neu­tral future for B.C., Cana­da and even the world.

The wood-gas fired plant just off Marine Dri­ve in Van­cou­ver, the uni­ver­si­ty boasts, “will reduce UBC’s nat­ur­al gas con­sump­tion by 12 per cent and cam­pus green­house gas emis­sions by nine per cent (5,000 tonnes), the equiv­a­lent of tak­ing 1,000 cars off the road.”

“It’s very excit­ing,” said Brent Saud­er, UBC’s direc­tor of strate­gic part­ner­ships, who helped shape plans for the plant. “It’s not a research activ­i­ty — it’s a mission.”

That mis­sion is to replace finite, cli­mate-bak­ing fos­sil fuel with renew­able wood to gen­er­ate elec­tric­i­ty. It sounds so darn cool: UBC stu­dents charg­ing their iPods on solar ener­gy stored in wood.

And indeed, if there is a state-of-the-art to turn­ing wood into pow­er, this is sure­ly it. Its very sophis­ti­ca­tion may make its accom­plish­ments dif­fi­cult to repro­duce, how­ev­er. Which is too bad, because when it comes to extract­ing ener­gy from “bio­mass”– basi­cal­ly any plant mat­ter that will burn, from switch­grass to whole trees — the impacts on the envi­ron­ment depend very much on the details.

And British Colum­bia is ramp­ing up to sell the world an awful lot of biomass.

Most dry bio­mass will burn. And just like your hol­i­day camp­fire, it will pro­duce heat, some light, smoke, and invis­i­ble gas­es that are the result of its com­bus­tion. The heat is what we’re look­ing for. But to turn the old say­ing on its head, “Where there’s fire, there’s smoke.” We want the heat, but smoke is a health haz­ard. One of the break­down prod­ucts of com­bus­tion is cli­mate-chang­ing car­bon dioxide.

The trick is to har­vest the heat, with­out cre­at­ing nox­ious smoke pol­lu­tion or green­house gases.

The tech­nol­o­gy at work in UBC’s shiny new plant is the off­spring of a part­ner­ship between Van­cou­ver’s Nex­ter­ra Ener­gy Sys­tems and Gen­er­al Elec­tric. And it’s noth­ing like heat­ing a ket­tle on your camp­fire. In a two-stage process, the facil­i­ty first con­verts chipped wood into a gas with about one-fifth the caloric val­ue of nat­ur­al gas. The gas is then burned to cre­ate steam and gen­er­ate electricity.

Nex­ter­ra’s pro­pri­etary sys­tem cleans up the tars that typ­i­cal­ly make wood com­bus­tion dirty. Burn­ing the syn­gas pro­duces none of the nitro­gen oxides found in woodsmoke that can some­times send peo­ple to the hos­pi­tal. And it pro­duces only minute traces of soot — 10 times less, in fact, than even nat­ur­al gas, itself a huge improve­ment over super-soot-spew­ing coal.

“We actu­al­ly rate this plant against Mass­a­chu­setts and the San Joaquin Val­ley, which are the two tough­est juris­dic­tions [for air qual­i­ty] in the world,” Saud­er said.

As for CO2, the plan­t’s design­ers believe they have that cov­ered too. As Nex­ter­ra engi­neer and R&D chief Cliff Mui explained, stand­ing near a cav­ernous cedar-scent­ed room where wood chips are stored at the UBC plant: “It’s renew­able because over a life­time, the car­bon is sta­ble. You release the car­bon, and you put it back in — the [grow­ing new] trees absorb it.”

“This is a nat­ur­al cycle,” Mui argued. “Trees absorb car­bon as you breathe. But when they die and they rot, they also release car­bon.” The ben­e­fit of using bio­mass for ener­gy, he argues, is that by releas­ing that CO2 in a mat­ter of sec­onds instead of over a peri­od of years or decades as wood decom­pos­es, we at least get some juice to run our street­lights and dish­wash­ers. It’s a way to turn the nat­ur­al cycle to our advantage.

That’s the promise of bio­mass ener­gy, and the rea­son that many coun­tries, espe­cial­ly in Europe, are switch­ing from fos­sil car­bons to for­est-grown ones: it’s renew­able ener­gy that, in effect, cleans up after itself.

The trou­ble with bio­mass car­bon “off­sets”: Grow­ing trees absorb car­bon from the air (1–4). Burn­ing wood releas­es it again (5); just like burn­ing coal or oil (6). “Off­sets” imag­ine that car­bon released from burn­ing wood “can­cels out” car­bon from fos­sil fuels (7). It does­n’t; it adds to them (8). In fact, it takes decades for new trees to recap­ture the car­bon released when the old ones were burned (9–12). Graph­ic by Indi­ana Joel.

For B.C., the promise is far from aca­d­e­m­ic. After dis­ap­point­ing expe­ri­ences with the oth­er “big three” of renew­able ener­gy sources — wind, solar and run-of-riv­er hydro — bio­mass is one thing the province has his­tor­i­cal­ly had plen­ty of.

That’s one rea­son why for­mer pre­mier Gor­don Camp­bell made it a cen­tre­piece of the province’s 2007 com­mit­ment to become car­bon-neu­tral, with a 2020 goal of slash­ing green­house gas emis­sions by a third. The province had a big head start: it already relied heav­i­ly on elec­tric­i­ty gen­er­at­ed by dams on its major rivers. Hydro reser­voirs emit a small frac­tion of the green­house gasses of ther­mal pow­er plants, and pro­vide 86 per cent of B.C.‘s electricity.

But there is that oth­er 14 per cent. Of the renew­able fuels required to close the gap, the BC Bioen­er­gy Strat­e­gy declared that more than half would come from some form of bio­mass. Nine-tenths of that would come out of the forests.

That works out to wood-based ener­gy pro­vid­ing rough­ly six or sev­en per cent of B.C.‘s total elec­tric­i­ty needs.

Triple ben­e­fits for remote communities

For some 80 remote com­mu­ni­ties off the BC Hydro grid, there may be more to gain than cli­mate cred. Today, many rely for win­ter heat on elec­tric heaters fed from gen­er­a­tors run on diesel that’s trucked or barged in. In addi­tion to the high cost, burn­ing all that diesel pro­duces its own trail of tox­ic air pol­lu­tants and green­house gases.

For those com­mu­ni­ties, bio­mass ener­gy makes great sense from every stand­point, argues David Dubois, who leads the Wood Waste To Rur­al Heat project based in Cache Creek, near Kam­loops. His alter­nate vision: burn­ing the bio­mass grow­ing at the doorstep of many such com­mu­ni­ties in high-effi­cien­cy burn­ers direct­ly for so-called “dis­trict heat­ing” that serves sev­er­al buildings.

Dubois notes that bio­mass met only about five per cent of B.C.‘s heat needs in 2008. Tripling that to 15 per cent by 2025, he esti­mates, would save $240 mil­lion a year and cre­ate more than 600 jobs, most of them in rur­al areas where they’re bad­ly need­ed. Total up all the CO2 emis­sions from the cur­rent sys­tem, he argues, and it would also reduce B.C. car­bon emis­sions by 830,000 tonnes a year — 166 times the amount claimed for UBC’s pow­er plant.

Much the same think­ing, on a scale much larg­er than UBC’s, is behind plans to con­vert a 46-year-old dis­trict heat­ing sys­tem sup­ply­ing heat to the Van­cou­ver Pub­lic Library, the Queen Eliz­a­beth The­atre and more than 200 oth­er down­town build­ings from nat­ur­al gas to bio­mass. The facil­i­ty’s pri­vate own­er, Cre­ative Ener­gy Cana­da Plat­forms Corp., sug­gests the switch would cut 14 times more emis­sions from the atmos­phere than UBC’s pow­er plant.

That’s assum­ing, of course, that bio­mass is car­bon-neu­tral: that burn­ing what can grow back does­n’t change the over­all bal­ance of car­bon in the atmosphere.

This con­vic­tion traces to the Kyoto Pro­to­col, the glob­al pact adopt­ed in 1997 that was meant to put the world back on the path to a sta­ble cli­mate by reduc­ing car­bon diox­ide emissions.

The pro­to­col’s frame­work con­sid­ered all fos­sil fuels — nat­ur­al gas, coal, basi­cal­ly any­thing extract­ed from under­ground — as con­trib­u­tors to desta­bi­liz­ing the cli­mate. It also assumed that all biofuels, includ­ing wood, were car­bon-neu­tral. As a result, for coun­tries try­ing to reach their Kyoto com­mit­ments (Cana­da for­mal­ly repu­di­at­ed the agree­ment in 2011), burn­ing bio­mass rep­re­sents vir­tu­ous ener­gy: a fuel that does­n’t add to their emis­sions total. Sell­ing B.C. bio­mass to some of those coun­tries has made the province a glob­al-scale exporter, earn­ing about $194 mil­lion per year.

But here’s what both Kyoto, and today’s bio­mass buy­ers and ship­pers, large­ly over­look. Yes, the car­bon we burn today gets absorbed back into trees even­tu­al­ly. “Over a life­time,” as Nex­ter­ra’s Mui put it. But trees take a long time to grow. And even­tu­al­ly can be many decades into the future. If the forests felled now don’t grow back, it may be never.

Kyoto’s account­ing how­ev­er, not only regards the car­bon that is sup­posed to be sucked up by trees grow­ing in the future as a sort of “cred­it” against fos­sil-fuel car­bon “debt”; it also allows that cred­it to be “cashed,” so to speak, as soon as the bio­mass is burned — not when the released car­bon is ful­ly sequestered back in tim­ber at some time in the future.

Crit­ics argue that’s like say­ing a fam­i­ly car­ry­ing a 30-year mort­gage is free of debt, because the debt will be repaid eventually.

Mean­while, guess what? UBC’s $34-mil­lion Bioen­er­gy Research and Demon­stra­tion Facil­i­ty will not reduce the amount of plan­et-warm­ing gasses actu­al­ly being emit­ted on the cam­pus at all. In fact, it will put out just about as much as was pre­vi­ous­ly pro­duced by burn­ing nat­ur­al gas: at least 5,000 tonnes of car­bon diox­ide every year, Saud­er said.

“What actu­al­ly comes out of the tailpipe or smoke­stack is exact­ly the same,” said Tim­o­thy Searchinger, a researcher at Prince­ton Uni­ver­si­ty and co-author of an ear­ly arti­cle point­ing out the flaw in Kyoto’s assumption.

So, is B.C.‘s bio­mass the green bonan­za its gov­ern­ment, its pel­let-mak­ers, Dave Dubois and the Uni­ver­si­ty of British Colum­bia think it is? Or is it a form of car­bon kit­ing: spew­ing emis­sions, while claim­ing cred­it today for car­bon that won’t be soaked up in future trees for decades to come?


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