Mr. Tőzsér, Béla- EU eng., Bioeng., Planner, EU REA,EACI,Eurostar expert Ms. Szabó, Réka-MSc. In Eng. And Management, environmental management Mr. Miklós,

Integrated bioenergetical- biotechnological- climate- environment

and health protection (BeBiCliEnv) complexes

for contribution to UN Millenium Development and Rio + 20 goals

Mr. Tőzsér, Béla- EU eng., Bioeng., Planner, EU REA,EACI,Eurostar expert

Ms. Szabó, Réka- MSc. In Eng. And Management, environmental management

Mr. Miklós, Gábor Károly- MSc. In Eng. And Management, energetics

Envirosan DCH-7100 Rizling str.11, POB.199.

+3674511804, [email protected], www.envizont.eu

Linked opportunities of BeBiCliEnv bioenergatical – biotechnological system

adaptability all over the world upgrading of the existing biogas, biofuel , wastewater treatment plants multifunctionality of mobile systems realising of zero carbon emission of power plants, heating centers, industrial GHG

pollutants by energy recovery implementation (in polluted localities for environmental improvment, in industrial factories for bioenergy

and biotechnological production, in agricultural farms for waste energetical conversion and biofertilizer production, in wastewater treatment plants for process intensification and bioenergy, for biofuel production (local, industrial transport, navy, aircrafts), biodiversification of aquatic ecosystems, for desertification mitigation, complex valorification of thermal, mineral and seawaters, for valorification of spoil gas wells,

R&D activity ( strains diversification, pico- and nanoalgae, archaea , combined health, food, feed products,

energy accumulation in microalgae accumulators) Specific technological equipment manufacturing Technology transfer Patenting , trading, licensing activity Integrating engineering, servicing Economical activity : CO2 – quotas trading, investment International cooperation

- BeBiCliEnv -

1: Coupling to the industrial area of CO2, the CO2 wells, introduction of the raw materials (GHG gases, water, waste water, nutrients). 2: Coupling to the biogas, biofuel plant. 3: CO2 and special gases. 4: Photobioreactor – Production of human-animal-plant-food, biochemical, medication, etc.. 5: Biotechnological cell proliferation in the fermenter, SCE unit with high pressure CO2. 6: Storing biohydrogen, biogas, syngas products. 7: Biofuel production (biogas raw materials as well) in the photobioreactor. 8: Biooil storage. 9: Bio hydrogen production in the photobioreactor, (Algae excess to Biogas). 10: Biohydrogen tank,fuel cell. 11: For biohydrogen production coupled biomethane production. 12: For biogas production coupled biomethane-, biohydrogen. 13: Trigen energy unit (electrical, heating and cooling energy production)+ steam production. 14: Biohydrogen-, biogas-,biomethane-container. 15: Storage of biofuels and other products. 16: Laboratory, office, monitoring system, test operation.17: Biohydrogen filling station.

THE OPTIMAL PARAMETERS OF THE INDUSTRIAL PRODUCTION OF MICROALGAE 

1g algae produces 1,67kg O2/day 1 algae cell multiplies to 2 million within 2 weeks, 1g culture grows to 2 tons within 2 weeks, on average 2 tons of CO2 creates 1 ton of algae, 1 m3 photobioreactor converts 80-90 kg of CO2 daily and produces 40-45 kg of algae, 100 m3 PBR alga mass created daily depending on algae species: 1500- 4500 kg, which

specifically means 15-45 kg/m3/d, 875 litre of biodiesel can be extracted from 1500 kg of algae, which is enough to cover a

distance of 17500 km by car, 100 m3 PBR produces 4 kg /d HYDROGEN, i.e. 460 MJ (128 kWh) energy, 100 m3 PBR produces 4500 kg of gasifiable energy algae daily, with a par value of 1350

kWh, specifically 13,5 kWh/d value, 825 kg of omega 3 fatty acid can be extracted from 1500 kg of algae, the RDA of omega 3 fatty acid for an adult is 1,15 g, a 100 m3 reactor PBR can provide for 715 000 people, 1 ton of algae mass contains 750-900 kg of organic material with 300 kW bio-energetic

potential, the energy features of 1 ton of algae: 30- 35 GJ or 8,33 – 9,72 MWh, utilisable max. energy value (cogen, trigen): 7,50-8,75 MWh/ton algae, of which

electricity: 3 -3,5 MWh, utilisable max. output:

kogen 0,30 MWel+th, 0, 125 MWel, 0,175th, trigen 0,30 MWel+th+co, 0,125 MWel, 0,088th, 0,087co.

PRODUCTSa) Gases produced from microalgae: biogas (CH4 + CO2), synthesis gas (CO + H2), biohydrogen (H2).

b) Bioenergetics:  algae biodiesel from algae mass with the bioconversion of the produced

carbon dioxide, algae bioethanol from algae mass with the bioconversion of the produced

carbon dioxide, biogas from the processing waste, surplus increase and other organic

materials (sewage sludge, municipal, agricultural organic waste), with the bioconversion of the carbon dioxide content of the biogas into algae mass, the increase of the marketable power generation,

biogas improvement into biomethane, syngas, biohydrogen, bioelectrochemical energy storage with micro algae batteries, butanol, JP-8, electricity, heat energy, cooling energy, other algae based motor propellants and biorefinery products.

PRODUCTSc) Biotechnology:

c.1.) Food supply and foraging:  foodstuffs and food complements (unicellular proteins, -acids,

isosugars, algae starches, vitamins, enzymes, microelements in easily uptakeable forms),

animal fodders and complements (special cattle and ruminant fodders with by- pass proteins and acids, organic poultry fodders, small and farm animal functional, specific fodders),

young fish- fish- and crayfish fodders (fast growth, healthy animals, increase in fish pigmentation, increase in fish roe production),

food biocolourings (chlorophyll, carotene), flavour and aroma concentrates made with supercritical

extraction, algae wines and vermouth, algae soft drinks, ice creams.

PRODUCTSc.2.) Health industry:  medicine base materials, algae, fungus and medicinal herb extracts

(healing cancer, Parkinson-, Alzheimer-diseases, strengthen the immune system, super E- vitamin, antidotes for nuclear radiation, complex, holistic therapeutic agents),

surgical and dental algae silk, fine chemicals, biopolymer production, balneotherapy, wellness dermatological and dental hygiene products,

cosmetics (rheumatic and skin therapy algae packs, thalassotherapy products, massage oils, micro algae soap, dental- and oral hygiene additives, alginates),

auxiliary materials for hospitals and microbiology laboratories (agar-agar, halo- halo, alginates),

medical leach feed. c.3.) Other products:  algae, plant- and fungus cell propagating matters, microorganism and

algae stocks, fine biochemicals (plant-and hypha progeny SCE- extracts) biosynthetic

PRODUCTSd) Environment- and climate protection:  water-, soil and air protection products (sewage cleansing

additives, heavy metal sorbents, bio filter charges for GHG – gases),

bio- and organic agricultural auxiliary materials (biofertilisers, biomanures, compost additives, biopesticides),

oxygen production (photosynthetic activity) and the increase of the decomposition of pollutants,

decrease of radioactivity with micro algae absorption, the use of radioactive isotopes,

decrease of the hormone and steroid pollution of waters, heavy metal uptake (e.g. Chlorella uptakes cadmium), acclimatisation, production, sewage treatment in spaceships

and submarines, waste management, hazardous waste neutralisation, environment rehabilitation, air pollution reduction, absorption of CO2- and other green house gases.

Related themes:

technological and configuration development of microalgae reactors,

research on new species, active molecules and effective agent combinations,

technological transfer, EU integrated programmes, operation of laboratories, research centres and

background institutions, trade and logistics development, market

research, international cooperation,

education.

UN statistical datasMicroalgaes-2010

Name Market Production -billion USD- -tonns-

Microlge as foodMicroalgae oilCosmeticsBiochemicalsFertilizerEnzyms

What to utilize??? Carbon dioxide Greenhouse gases Wastewater from several facilities Microalgae, micro-organisms, yeasts, fungus medicinal, aromatical plant cells strains, species suitable composition, high purity water

(thermal, mineral, food industry wastewater) specific growth mediums biohydrogen internal wastewater fermentable organical waste, fermentable household-,

restaurants-, hotels-, hospital wastes crop production wastes, food and feed industry wastes,

slaughterhouse fermentable wastes, fish processing fermentable wastes

wastewater treatment sludges slurry, liquid manure

Technological process photobiocatalitical conversion of pollutant gases; artificial photosynthesis enhanced biological treatment of wastewater enzymatical algae oil recovery and estherification, ethanolation and refinery , physico- mechanical transformation process of algae biomass enhanced biotechnological site depollution photobiocatalitical growth of microalgae and microorganisms, fermentation growth of yeasts, mushrooms, fungus, plant cell growth supercritical fluid extraction of active substances physico- mechanical transformation (pellets, powder, nanoparticules,

suspensions) raw materials pretreatment anaerobical digestion biogas purification and membrane separation biohydrogenation digestat post treatment to liquid and solid biofertilizer plasmolyse of non- used biofertilizer gaseous fuel cell process trigeneration (electricity, heat, cool) energy cycle trigen unit flue gas purification and cooling

Bioreactors and auxiliary equipments photobioreactors algae (PBRA) CO2 and GHG bioabsorbtion reactors, photosynthetical reactors (OPSR), activated sludge reactors microalgae straines duplicators medium, chemicals dosing equipment microalgae thickeners,deshydraters, dryers storage tanks (strains, chemicals, medium, gases, biofuels) biofuels auxiliary ( enzymatical oil recovery equipment and

esteriphication for biodiesel; ethanolation and refinery equipment for bioethanol )

instrumentation , control and automation equipment laboratory containers logistical equipment industrial buildings mobile containers equipments for biotechnological depollution photobioreactor for biohydrogen Hydralg (PBRH)

Bioreactors and auxiliary equipments photolythic microorganisms fermenters for yeasts, mushrooms, fungus fermenters for plant callus cell growth (HTF) SFE ovens (SCE) enzymatic oil extractors, dryers mechanical pretreatment equipments intensified pre- and postdigesters (BR) thickeners,deshydraters, dryers storage tanks for biofertilizer membrane filters gas purification and cooling equipments gazometers fuel cell (FC) enhanced biomethan reactor (BMR) bioenergetical auxiliary (trigen unit, plasma unit) electrical auxiliary ( network feeding) heat energy auxiliary, cooling energy auxiliary, pneumatical auxiliary (compressors, feeding

in gas network)

Summary

realization of industrial high efficiency complexes for poverty reduction

sustainable environmental and climate protection development

sustainable bioenergetical development innovative, competitive and integrated solutions

for zero carbon emission with high economical efficiency

efficient use of local resources: water, organical waste, pollutant emissions (greenhouse gases, wastewater, sludges)

Summary sustainable biotechnological production of specific foods,

feeds, biopharmaceuticals for combating of cancer, AIDS, tropical diseases, enzimes, ferments, biopolimers, plant care protection, biocare products

provision of affordable energy for productive use and income generation

improvement of soil fertility, combating the desertification very short ROI (1,5 - 3 yrs)

sustainable contribution to realization of Millenium Development Goals of UN as well as end poverty and hunger, education of sustainable and integrate climate- environment- health protection(child, maternal health)

environmental sustainability (water,air, soil protection) global partnership(multidisciplinarity) and sustainable

development

Thank You for Your honorific

attention!