1 / 19

CO 2 capture at the incinerator

CO 2 capture at the incinerator. Canadian Municipalities leadership in Environment. Greenhouse gases in Quebec City Municipality. Municipal waste incinerator, 28 % Landfill site Ste-Tite des Caps , 32 % Landfill site Beauport , 9 % Waste water treatment facility, 6 % Vehicles, 7 %

Melvin
Download Presentation

CO 2 capture at the incinerator

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. CO2 captureat the incinerator Canadian Municipalitiesleadership in Environment

  2. Greenhouse gases in Quebec City Municipality • Municipal waste incinerator, 28 % • Landfill site Ste-Tite des Caps, 32 % • Landfill site Beauport, 9 % • Waste water treatment facility, 6 % • Vehicles, 7 % • Buses, 13 % • Buildings, 5 % • Citizens and businesses

  3. GHG reduction plan2004-2010 • Municipal waste incinerator, 28 % • Request for bid for massive CO2 capture at the stack • Following a successful evaluation test in winter 2005 with CO2 Solution • Potential for 200,000 t/year GHG reduction • Landfill sites, 41 % • Reduction target of 50,000 tonnes/year by 2010 • Implementation of landfill material management plan - 10,000 t/year • Biogas flaring – GHG reduction of 40 % - 40,000 t/year • Waste water treatment facility, 6 % • Vehicles, 7 % • 10 % GHG reduction – 2,200 t/year • Training, purchases, maintenance, fuels, stop’n’go • Buses, 13 % • 16 % GHG reduction – 6,800 t/year • Training, purchases, maintenance, solar wall • Buildings, 5 % • 14 % GHG reduction – 1,550 t/year • Energy efficiency, geothermal energy, waste water heat recovery, northern design, etc.

  4. Community-oriented incentives

  5. CO2 captureat the incinerator Canadian Municipalitiesleadership in Environment

  6. Our atmosphere is warming up • One more type of air pollution • Toxic gas pollution (acid rain) • Industries, local impacts, short term • Ozone layer depletion (CFC) • Industries, households, regional impacts, mid-term • Air temperature is rising (Greenhouse gases) • Industries, transportation, agriculture, homes, individuals • Global impacts on nature and humans, long-term • Greenhouse Gases (GHG) • Carbon dioxyde (CO2) • Methane (CH4) • N2O, HFCs, SF6 and other anthropogenic gases • Water vapor (H2O), non anthropogenic

  7. Nature is hurt byClimate Change • Nature itself wants to negotiate !! • CO2 is the most abundant GHG LISTEN !! Nature can help human beings • To capture and sequestrate CO2 • In order to slow down global warming • Sustainable Development technologies • Alternative to reduce the amount of GHG emitted in the atmosphere • Let us do something for our children

  8. Nature does capture CO2 • Forests inhale atmospheric CO2 • Not enough trees for man-made CO2 • CO2 capture in human muscles • Cellular CO2 transformed into bicarbonate • Carbonic anhydrase enzyme • A new industrial bio-catalyst • Genetically engineered enzyme • Allows industrial CO2 capture

  9. A powerful bio-catalystmanufactured through genetic engeneering C1374H2600N368O652S7 - Zn Human Carbonic Anhydrase type II (267 amino-acids)

  10. Your Car Sensible driving immediate Switch fuel Mid-term Catalytic muffler Significant Hybride car Long-term An Industrial Plant Fine tuning immediate Switch fuel Mid-term CO2 capture Significant New design Long-term Massive CO2 capture

  11. A successful demonstration • CO2 capture at a large municipal waste incinerator (Quebec City) • CO2 Solution’s Industrial prototype • 5 weeks non-stop, 7/24 • 50% CO2 capture • Permanent sequestration • Sound basis for larger scale-up

  12. Column packing with bio-catalyst

  13. CO2 Solution Inc. offers an innovative alternative • CO2 gas is converted into an unharmful aqueous by-product, inside the reactor • Low energy process • Captured Carboncan be recycled

  14. Sustainable Development • CO2 Solution’s bio-catalysis treatment unit: • instantaneously converts harmful CO2 gas • into unharmful bicarbonate ion (HCO3--) solution Offers flexible alternatives for CO2 sequestration Fossil carbon for energy production can be reused for chemicals

  15. Industrial CO2 Capture • Clean Energy production • Coal thermal plants - electricity • Natural gas reformers – hydrogen • Boilers for industrial processes – fossil carbon dependancy • Industrial process CO2 emissions • Lime factories • Steel furnaces • Cement kilns • Biogas – « waste to energy »

  16. At the end of the process CO2 capture module

  17. CO2 Solution’s Bio-catalysis • Technology platform combination • Genetic engineering – bio-catalyst • Large scale biochemistry process • Traditional gas purification technologies • The power of bio-catalysis • Low cost catalyst manufacture • High CO2 conversion rate • Bio-catalyst durability

  18. Biochemical CO2 capture • First commercially available biochemical process • Overcomes chemical catalyst limitations • A sustainable development technology CO2 Solution inc. offersA powerful tool for adressingclimate change challenges

  19. CO2 Solution Inc.CST – [TSX Venture] • Contact: Jo Lanoë Vice president, business development CO2 Solution Inc. 2300, rue Jean-Perrin Quebec, QC, G2C 1T9Canada (+1) (418) 842-3456, ext. 203 • Jo.lanoe@co2solution.com CO2 Solution, a partner of choicein climate changes

More Related