1 / 25

DESCRIPTION OF TECHNOLOGY FOR WASTE MANAGEMENT

DESCRIPTION OF TECHNOLOGY FOR WASTE MANAGEMENT. GOALS. ZERO WASTE = Divert BDW from landfilling Return nutriens from BDW to soil = Compost and fertilizer production Use waste as energy substitution = Bio fuel production

blainee
Download Presentation

DESCRIPTION OF TECHNOLOGY FOR WASTE MANAGEMENT

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. DESCRIPTION OF TECHNOLOGY FOR WASTE MANAGEMENT

  2. GOALS • ZERO WASTE = Divert BDW from landfilling • Return nutriens from BDW to soil = Compost and fertilizer production • Use waste as energy substitution = Bio fuel production • If BDW ispolluted (plastic etc.) = Fuel preparation for co-combustion

  3. AEROBIC FERMENTATION • Composting is the process ofcontrolledaerobicdecomposition ofbiodegradableorganic matter • During composting, microorganisms break down organic matter into carbon dioxide, water, heat, and compost: USED FOR DRYING OFF THE MATTER

  4. TEMPERATURES Commoncomposting process - longer time; lowtemperatureEWA - shortertime; highertemperature

  5. TEMPERATURES AND pH

  6. EWA EcologicalWasteApparatus

  7. SLUDGE FOOD ANIMAL MANURE FISH MUNICIPAL WASTE GREEN WASTE POWER PLANTS THE PROCESS COMPOST BIOFUEL

  8. Input material limits: Humidity max. 60% pH 4.5 – 8 Biomass and BDW must be shredded to the max. size 50 x 50 x 50mm Paper max. 100 x 100mm EWA

  9. RESULTS • Within maximum 48hours bacteria stabilize and thermally hygienize the entire container space volume • Output from the fermentor is certified product – compost for agricultural or energy use • Bad odour elimination during waste processing • Low operating expenses (OPEX) • Low space requirements • WASTE FREE TECHNOLOGY

  10. WASTE EXAMPLES • Waste-free technology for processing biodegradable waste • Waste from forestry, waste bark and cork • Animal manure, sludge from digestion tanks and cesspools • Biologically decomposable waste from the cellulose and paper production • Biologically decomposable waste from paper, pasteboard and wood • Sludge from communal waste water treatment • Sludge from the biological treatment of industrial waste waters • Waste from the milk industry, bakeries and, sweets • Waste from gardens and parks • Waste from processing fruit, vegetables, cereal grains, edible oils, yeast… • Waste from the production of alcoholic and non-alcoholic beverages • Biologically decomposable waste from kitchens and cafeterias • Edible grease and oil

  11. BDW » FRESH COMPOST Separate collection EWA Fresh Compost Agriculture Power plants

  12. UNDERSIZED FRACTION Municipal waste sorting Undersizedfraction EWA Power plants

  13. Patron with defined microorganisms Cartridges position in bioreactor HYGIENIZATION FUNCTIONALITY ProoF using wandering patrons Contamination of cartridges with injected microbs: TCB, enterococcus, salmonella, clostridium 109 for each indicator

  14. PROCESSRECORD EWA FERMENTATION PROCESS PROTOCOL - TEMPERATURE RECORD

  15. PATENTS AND AWARDS Gold Medal from the International Fair EWA Technology patent Aerobic fermentor EWA certificate

  16. INSTALLATIONS Sweden-Eskilstuna Thailand Vimperk Vsetín Chomutov Zlín Stará Turá Lučenec

  17. EXEMPLE OF REALIZATION SWEDEN, horse manure and green waste, output biofuel and compost Our business partners in Sweden, treat horse manure and green waste to produce compost and biofuel. They have built the first boiler for heating schools, kindergartens and homes for the disabled, Reka boiler equipped with an output 490 kW.

  18. EXEMPLE OF REALIZATION Agro-Eko output biofuel We use biofuel from fermentor to heat the assembly hall with an area ​​app. 3,000 m2 using the biomass boiler with output of 240kW.

  19. EXEMPLE OF REALIZATION THAILAND, BDW and Undersized fraction, output compost Solbien started the pilot project in Thailand with main goals: • Odour removal at local landfills • Undersized fraction processing • Processing water hyacinth

  20. EXEMPLE OF REALIZATION NEW CALEDONIA, BDW and paper, output compost Solbien started the pilot project in New Caledonia in order to enable BDW waste processing in the place of origin in ecological way and to get marketable compost from processed waste.

  21. EXEMPLE OF REALIZATION ISRAEL, different types of waste One aerobic fermentor EWA was delivered to Israel in December 2014 in order to proceed fermentation tests of different types of waste. So far, there three loads has been tested with positive results and fast temperature increase.

  22. UNDERSIZED FRACTION Co - Combustion

  23. PROCESS SUMMARY UNDERSIZED FRACTION BDW » Fresh Compost Separatecollection Sorting Undersizedfraction EWA FreshCompost EWA Powerplants Agriculture Power plants

  24. BENEFITS

  25. THANK YOU FOR YOUR ATTENTION www.solbien.com ; http://youtu.be/tvZpB4xn4IA Dvorakova 15, 702 00 Ostrava, Czech RepublicKaterina Elisova; +420 702 070 263; elisova@solbien.com

More Related