Bioenergy Pipelines?

- August 14, 2014, Waste Man­age­ment World

[The lat­est bad idea com­ing out of the pol­lut­ing bioen­er­gy industry.]

A sci­en­tist at the Uni­ver­si­ty of Alber­ta, Cana­da is research to deter­mine whether it’s effec­tive to use pipelines to trans­port agri­cul­tur­al waste used in biofuels.

Accord­ing to the uni­ver­si­ty, Mah­di Vaezi, a PhD stu­dent in the Fac­ul­ty of Engi­neer­ing, is look­ing at agri­cul­tur­al wastes such as straw and corn stover which are used as feed­stock for bio-based ener­gy facilities.

Vaezi’s lab is claimed to be the only one in the world con­duct­ing this kind of research on bio­mass slurries.

The uni­ver­si­ty explained that bio­mass mate­r­i­al derived from food and non-food organ­isms has tra­di­tion­al­ly been trans­port­ed by truck, at great expense. How­ev­er, when done at a large scale, trans­port­ing bio­mass mate­ri­als by slur­ry pipeline could help make the cost of biore­finer­ies competitive.

The pipeline puzzle

When Vaezi began pre­sent­ing his research papers in 2010, he had many skep­tics. No one could be sure whether pipeline trans­port of agri­cul­tur­al waste bio­mass was even mechan­i­cal­ly fea­si­ble, and there were ques­tions about how much water would be required to cre­ate a slur­ry that would flow well, and how much ener­gy the whole process would consume.

Vaezi, whose master’s degree focused on ener­gy con­ver­sion, has answered most of the mechan­i­cal ques­tions he set out to answer.

He knows how much water and ener­gy are required and how agri­cul­tur­al waste bio­mass slur­ries behave. He has con­duct­ed stud­ies on the vis­cos­i­ty of sol­id bio­mass-liq­uid mix­tures, the pres­sure drop behav­iour of the sol­id bio­mass-liq­uid mix­ture in the pipeline, and the per­for­mance of cen­trifu­gal slur­ry pumps han­dling bio­mass slurries.

He has also devel­oped a numer­i­cal mod­el to pre­dict the loss of fric­tion in the bio­mass slur­ry, which pre­dicts how long it takes for a mix­ture to lose its pres­sure inside a pipeline. Vari­a­tion in chem­i­cal spec­i­fi­ca­tions of bio­mass slur­ry through a pipeline is anoth­er area he has inves­ti­gat­ed in co-oper­a­tion with the U of A’s Biore­fin­ing Con­ver­sions Net­work.

When he first arrived, his lab, the Large-Scale Flu­ids Lab in the Mechan­i­cal Engi­neer­ing Build­ing, need­ed con­sid­er­able modification.

He need­ed a closed-loop pipe 25 metres long and two inch­es in diam­e­ter. He also need­ed to assem­ble much of the equip­ment and instru­ments used to mea­sure flow spec­i­fi­ca­tions of the bio­mass slur­ry. It took months to deter­mine what was need­ed, put in orders, await deliv­ery, then install and cal­i­brate the equipment.

On top of that, he has had count­less dis­as­ters such as an over­flow that had peo­ple in the offices below him a lit­tle dis­traught when water began to leak through the ceil­ing, as well as pump and pres­sure gauges that didn’t work and clogged pipes. 

Per­se­ver­ance pays off

But per­se­ver­ance paid off with a num­ber of suc­cess­es. Vaezi has had two papers pub­lished, and has three in review and anoth­er in progress. In Novem­ber 2013, he received the prize for the best poster pre­sen­ta­tion at the Biore­fin­ing Con­ver­sions Network’s annu­al con­fer­ence in Banff.

Vaezi is now ana­lyz­ing the tech­ni­cal eco­nom­ics of mov­ing agri­cul­tur­al waste bio­mass by pipeline. He is far enough along to know that trans­porta­tion costs are con­sid­er­ably low­er by pipeline than by truck.

“Trans­porta­tion is a major com­po­nent of the cost of both agri­cul­ture and forestry pro­duc­tion, and there­fore it mer­its look­ing at alter­nate trans­porta­tion meth­ods,” par­tic­u­lar­ly at a time when so many peo­ple are ques­tion­ing the use of pipelines,” com­ment­ed Steve Price, exec­u­tive direc­tor of Alber­ta Inno­vates – Bio Solutions.

The research is being led by Vaezi under the super­vi­sion of mechan­i­cal engi­neer­ing pro­fes­sor Amit Kumar, the NSERC/Cenovus/Alberta Inno­vates Asso­ciate Indus­tri­al Research Chair in Ener­gy and Envi­ron­men­tal Sys­tems Engi­neer­ing. Vaezi’s research is fund­ed by the Nat­ur­al Sci­ences and Engi­neer­ing Research Coun­cil of Cana­da, Alber­ta Inno­vates – Bio Solu­tions and the Biore­fin­ing Con­ver­sions Network.


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