The Bionic waste treatment systems Microfuel and Bio-Elite Fertilizer come together in an integrated waste management concept. The presentation shows how an unusual high level of energy and nutrient recovery from waste can be achieved.
www.bionic-world.net
English Version, August 2012
2. AFFORDABLE ENERGY – A PILLAR OF PROSPERITY
2
Public prosperity requires economic growth, which in turn requires sufficient availability of energy.
Raising production requires more automation
and mechanization
More production requires more goods to be moved
from production sites to markets
More economic growth requires more people to be
moved from home to work
More personal prosperity raises private
expectations on quality of life
Increasing energy demands from machines
Increasing energy demands of logistic operations
Increasing energy demands of public transportation
Increasing energy demands of private transportation
Increasing energy for private housekeeping
Without enough affordable energy national economic growth is highly limited. The right sources of energy must be found for each national economy.
Solar energy Wind energy Water energy
Energy from
Waste streams
Energy based
on fossil fuels
To expensive at this time for
emerging countries, cannot
be used for all national
energy demands
Favorable, but requires back
up source of energy
depending on weather. Not
sufficient for all national
energy demands
Favorable, but requires
appropriate rivers, cannot
be used for all national
energy demands
A clear option
for the future
High and unstable prices at
world markets, continually
increasing prices in the
future
3. 3
ENERGY FROM WASTE
Valuable fuel and chemical products can be
recovered through the smart use of household and
commercial waste materials.
More than 70% of municipal solid waste can be
processed with MWDP.
The organic fraction can be converted into a stabilized
bio fertilizer*. Mixed with the bio-char fraction a highly
valuable soil amendment can be produced.
Instead of destroying waste materials in
enormously expensive and complex incineration
plants, which still produce large amounts of
greenhouse gases, the Bionic portfolio of
advanced microfuel technologies allows for a far
more cost effective, sustainable and clean
solution.
* Bionic has licensed the patented German Bio-Elite process
which produces a highly effective Bio-NPK from organic
waste combined with animal manure and a proprietary mix
of micro organisms
4. 4
MICROWAVE DEPOLYMERISATION
In 2003 Bionic initiated the development of its unique proprietary
Microfuel Technology. Two depolymerization methods working in principle
were combined into a new, revolutionary conversion process capable of
transforming any carbonaceous feedstock material into liquid and solid fuel.
Bionic merged for the first time the independent direct conversion methods
Thermal Catalytic Depolymerization (TCDP) and Microwave Pyrolysis
(MP) into a single hybrid process called Microwave Depolymerization or
MWDP. While TCDP was known for decades many hurdles for commercial
implementation where never overcome. Adding microwaves to the process did
not only eliminate all prior design issues of heat application but added also a
number of beneficial effects unique to the use of microwaves in chemical
reactions.
In 2007, after years of R&D in the lab, the first continuous reactor design
was ready. Microfuel process and reactor design proved their outstanding
capabilities in a pilot plant running 2008/2009. The current design of the
standardized commercial MF480 base model followed.
In 2013 a technology demonstrator based on the downscaled MF60 goes
online marking the final step to commercialization.
Highly effective zeolite catalysts and other additives are used in the process
assisted by the treatment with advanced, proprietary microwaves. Bionic’s
microfuel plants are the most economic and efficient way commercially
available to produce clean liquid fuels from biomass and waste materials. With
minimal upgrading the liquid product fraction can be used in even the latest
diesel engines summer and winter.
5. 5
PLASTIC WASTE TO OIL
Common plastics today derive from fossil oil,
not surprisingly the plastics fraction of municipal waste can be converted back to oil
6. MWDP extracts and concentrates the energy locked up in the complex
carbonaceous molecules contained in the chosen feedstock.
In other words:
Energy contained in biomass and waste materials is transformed into
liquid and solid fuels which are
indefinitely storable and
have a controlled consistency.
The resulting light oils can be used at a later stage for
transportation or
heating.
Toxic substances in the plastic waste are either transformed in the process
or removed from the liquid fraction.
Inert minerals contained in the feedstock remain unchanged and can be
removed from the solid char fraction if desired.
As a byproduct a combustible gas fraction is produced which fuels part of
the internal power generation.
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HOW IT WORKS
7. 7
PROCESSING OF WASTE STREAMS
Processing of various waste streams:
Plastics, Textiles, Scrap Tyres (RDF)
conversion to -> oil und char
Organic Waste, food waste, biomass
processing to -> Bio-Elite fertilizer
Anorganic Waste, ceramics, metals
Separation and Recycling
Water
Usage as process water, cooling etc.
~ 32%
~28%
~14%
~26%
8. 8
MSW
used tyres
plastic waste
organic waste
manual
presorting
shredding and sorting
metals
PET
glass + stones
organic waste & manure
High caloric
Fractions (RDF)
Bio-Elite
composting Bio fertilizer
light oils
for power generation
char
for power generation
heating oil, electricity and heat
decentralized
generators &
power plants coal power plants
grid
BIONIC WASTE SYSTEM
9. ADVANTAGES OF BIONIC‘S NETWORK
Bionic waste system
decentralized tyre processing facilities
Input:
municipal waste streams
Output:
Oil, Char, Gas
decentralized CHP plants existing charcoal power plants
power generation
Bionic‘s innovative proprietary
catalytic microwave depolymerisation process
Germany‘s leading technologies for
waste processing and engineering & logistics
decentralized power generation
150 years of production know-how
from Czech Republic, delivery of core reactors
deep involvement of
local production industry
unique system for fertilizer production
with experience of more than 20 years
proof of concept by proof of viability
by small available units
cooperation of local partners in
the bionic network
exclusive granting of licenses from Bionic
for production and exporting the system
to support local Industry
electric energy, fuel and fertilizers to the people
out of municipal waste streams
(based on bionic‘s innovative microwave depolymerisation process)
financing provided by
international partners
following the international attempts of generating
energy from waste streams with environmental
friendly solutions
extensive know-how transfer from Germany
fertilizer production
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10. ENVIRONMENTALLY FRIENDLY
Fully contained processing system
Near emmission free technology (except exhaust gases from power generation)
Low temperature, oxygen free processing (< 400°C)
All outputs are usable – no residual waste
High conversion rate for storable fuels
Small footprint
Local industry involvment
Job creation
No water or air pollution
Decentralized implementation
Minimal transport requirements
Highly innovative technology developed in Germany
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12. The complete high tech
assembly is fully contained
in a reactor housing. A
single unit has a capacity
of up to 80 tons of
feedstock per day.
Zeolite Catalyst
oil
char
Waste containing
hydrocarbons
modulated pulsed
microwaves
12
MICROFUEL PROCESS
The microfuel system was developed by
Bionic with R&D starting as early as 2001.
Microfuel is the most sophisticated TCDP
process technology available worldwide
ready for commercial deployment.
The waste material is shredded to a
fragment size of 40 mm2 or less. Then the
shredded chips are mixed with additives
and pelletized before conversion in the
microfuel reactor into oil and char.
Valuable by-products are often found – for
example, glass & metals – which can be
sold to the respective markets.
14. Gas 264 kg
Oil 1584 kg
Char 1386 kg
Water 66 kg
Heat
preparation conversion output
3.300 kg/h
Dried feedstock separated
from municipal solid waste ~ 8,0%
~48,0%
~42,0%
~2,0%
microfuel MF 480w
1.500 kW CHP
material flow per hour for a single reactor
600 kW (el)
250 kW (therm)
~ 8 % of
liquid fuel
for internal
energy
~ 500 kW @ 90°C
(from energy recovery)
14
MASS BALANCE
15. QUALITY OF THE OIL
Oil from the microfuel process meets relevant standards for transportation and heating fuels. It
can be used for energy production in stationary diesel engines. With common blending methods
and hydro-treatment quality can be upgraded to low sulfur transportation fuels. Exact oil quality
depends on the chosen feedstock. The table shows oil analytic results from a biomass feedstock.
Oil from plastic waste has similar properties.
Bio-Oil Analytics
comparing to ASTM specifications for low-sulphur fuel
Parameter Method Unit eucalyptus wood chips Specification ASTM D975 1-D S500
Flash point ASTMD 93 / DIN 2719 °C 56,5 52,5 min 38
Kin. Viscosity (40 °C) ASTMD 445 / DIN 3104 mm2
/s 1,126 1,319 1.1 - 2.4
Lubricity HFRR 60°C ASTMD 6079 µm 389 357 max 520
Ash content ASTMD 482 / DIN 6245 % (m/m) < 0,005 < 0,005 max 0.01
Sulfur content ASTM ASTMD 2622 % mass 0,044 0,007 max 0,05
Density (15 °C) ASTMD 1298 kg/m3
832,9 852,6 820 - 845
Distillation temp ASTMD 86 correlation °C 204,4 368,8 max 288
Cetane index ASTMD 976 - 40,1 40,3 min 40
Nitrogen content ASTMD 4629 mg/kg 2500 177 no specification
Cooper strip corrosion ASTMD 130 Corr Degree 1A 1A max No 3
PAH content (Aromates) ASTMD 1319 / DIN 12916 % (m/m) na 0,9 max 35
Cloud point ASTMD 2500 / DIN 23015 °C -16 -16 < 35°C
CFPP ASTMD 6371 / DIN 116 °C -49 -55 < - 20 °C for winter gasoil
Calorific value, lower ASTMD 240 DIN 51900 J/g 39797 37158 -
Calorific value, upper ASTMD 130 / DIN 51900 J/g 42053 39684 -
need to be adjusted by additives
15
16. QUALITY OF THE CHAR
16
Analytical Results for charcoal
Feedstock
content Unit raw material char raw material char
Ho wf kJ/kg 18720 24380 19970 26885
Hu wf kJ/kg 17530 23990 18870 26485
Cl wf Mass.-% 0,11 0,05 0,01 0,08
Cr Mass.-% 0,15 0,04 0,14 0,032
C wf Mass.-% 49,0 61,1 50,9 72,9
F wf Mass.-% < 0,005 < 0,003 < 0,005 0,009
H wf Mass.-% 5,8 2,3 5,9 2,2
H2O Mass.-% 16,5 4,4 15,6 3,4
K2O Mass.-% 14,96 5,68 10,13 3,85
MgO Mass.-% 6,08 2,09 9,8 4,01
Mn Mass.-% 0,21 0,06 0,17 0,02
N wf Mass.-% 0,8 1,3 0,2 0,9
O wf. Mass.-% 42,15 11,27 41,99 8,99
P wf Mass.-% 0,065 0,275 0,007 0,111
Pb wf Mass.-% 0,0022 0,0073 < 0,0005 0,0392
SiO2 Mass.-% 13,5 40,2 14 30,5
Wood ChipsEucalypthus
The microfuel process concentrates the energy content of the feedstock. Char,
the main byproduct, can be used replacing anthrazite coal as a solid fuel.
Exclusive use of biomass as feedstock will result in a perfect biochar for soil
enhancement. Char from waste streams is a high energy solid fuel.
17. 17
FEEDSTOCK PREPARATION
Bionic is using high quality preprocessing equipment
from German market leaders. Degree of mechanization
depends on local conditions and client preferences.
Available equipment can be integrated.
18. MANUFACTURING
18
Bionic‘s microfuel system is manufactured adhering to the highest technical standards:
- Manufacturing of core units by SMERAL a.s., BRNO, Czech Republic
- Feedstock preparation equipment, vacuum system, generators and
control units come from leading German suppliers.
- All suppliers are approved by Bionic‘s quality control.
19. Bionic‘s microfuel system complies with all major technical
standards:
DIN EN ISO 9001
ASME Div 01, Div 02 (AIA TÜV, Germany)
CE conformation declaration
ATEX 94/9/EU explosive protection conformity
Machinery directive EU 2006/42/EU
Dual radiation protection by special Faraday cages
Double insulation of all oil containing parts
Advanced fire protection system
Hazard protected electronic control equipment
Redundant process emergency control system
Automatic emergency shut down process
Unit made from high quality stainless steel
Production and installation certified by German TÜV or
SGS
19
TECHNICAL STANDARDS
20. 20
FERTILIZER FROM ORGANIC WASTE
Bionic licensed the patented Bio Elite – waste-to-fertilizer technology for its process train.
Bio Elite, with more than 20 years experience, is a composting method which allows
controlled treatment of the organic fraction of MSW. The mix of municipal waste and
specially selected bacteria and funghi under a controlled climate converts the organic
content of waste into a high value normalized Bio-NPK fertilizer.
Contaminations of the organic waste, such as germs, antibiotics or virusus will be
destroyed during the process. All types of animal manure can be added to improve
quality for direct use on field as a soil-enhancer. Bionic Char can be added for innovative
soil improvement products.
Several studies from public institutes have validated the process and demonstarted that
Bio Elite fertilizer can substitute synthetic fertilisers.
A license model allows for the production of sufficient amounts of fertilizer at low cost.
Sale of biologically produced fertilizer from municipal waste generates additional income
instead of loading up landfills. The Bio-Elite composting system is also available for
processing of animal manure as a standalone system with many advantages.
22. CONTINUOUS SOIL IMPROVEMENT
22
Eroded soil
Soil stabilization
with agro-forestry
Recovery and continuous improvement of eroded soils to valuable farmland can counter the current
global desertification trend
With continuous soil improvement
farming becomes sustainable again:
• 2-3 time faster growth of bio mass
• up to 3 crops under irrigation
Continuous addition
of Bio-Elite
No synthetic
fertilizers required
23. RECLAMATION OF DEPLETED SOILS
23
Raising the amount of biomass grown CO2
absorption volume will be constantly
increased from the very beginning
of farming on formerly depleted
soils
Significant positive overall CO² footprint
Eroded savanna soil depleted
through unsustainable farming
or mining activities
Soil stabilization through
agriforestry backbones
Growing high value
foodcrops between
hedges
Growing maize and other
grains between hedges
Low impact clearing
No-till farming
Organic fertilizer, bio-char
24. DECENTRALIZED POWER GENERATION
The Finnish company Wärtsilä is a world leader for large stationary Diesel and Gas Engines
and CHP Power Plants. Ready concepts have been developed for Bionic fuelled decentralized
power generation providing electricity and heat to municipalities.
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25. 25
REQUEST FOR INFORMATION
To prepare an orientation offer the following information is needed:
Client contact details
Detailed information about client‘s intentions and background
exact geographical location of the project
annual expected waste streams including monthly deviations
feedstock analysis reports (plastics, synthetics, organics, mineralic)
local climate conditions
description and plan of location
description of available waste processing technology
description of available waste collection logistics
Pictures/video of available waste processing technology and landfill
local wholesale price for heating oil (per liter, low-sulphur,> 40 MJ/kg cal. value)
local supplier price for electric power(per kWh, electric load 500 kWh)
local wholesale price for NPK fertilizer
recycling facilities for PET, PVC, glass and metall near location (<80km)
distance to next cement factory or solid fuel power plant
distance to next oil refinery
type of operator: municipal, public or private company
All information in German or English please.
26. 26
INVESTMENT BUDGETS
Project planning:
Project pre-feasibility, qualification and calculatio 25.000 €
Original feestock, in/output qualification (excl. Shippi 75.000 €
Detailed feasibility study approx. 350.000 €
Typical turn-key facility single reactor:
(semi-automatic sorting equipment, reactor,
1,2 MW genset, composting facility, oil-condensation)
MSW capacity: 220 MT/day input, > 25 to oil output approx. 17.500.000 €
> 100 to fertilizer output
> 45 to char output
Typical turn-key facility 4-reactor cluster:
(sorting equipment, 4 reactors, 3 x 1,5 MW generators
composting facility, oil-condensation)
MSW capacity: 880 MT/day Input, > 100 to oil output approx. 57.000.000 €
> 400 to fertilizer output
> 140 to char output
Budgets listed above are for standard MSW and for orientation only. Not included are expenses for land, infrastructure and
product upgrading. Capacity is highly dependent on actual feedstock composition.
27. FINANCIAL FEASIBILITY - EXAMPLE
27
Business Plan (condensed) Bionic mf480KR Municipal Waste processing rev 35 20.08.2012
Input Capacity Municipal Waste 73.100,00 [ tons / year ] Annual calculation assuming 7310 Hours operating time per year
Investment volume: 17.401.871 €
Outputs
Output of Oil 7.953 [ tons / year ] Process lost ( water ) 15.205 [ tons / year ]
Output of char 13.567 [ tons / year ]
Output of usable fertilizer 33.158 [ tons / year ]
Valuable Byproducts (metals & glass) 3.216 [ tons / year ]
Income
Income from municipality for waste (Germany ~ 150€) 25,00 € [ €/t ] 1.827.500 €
Sale of Oil (Heating Oil quality, 1% Sulphur) 350,00 € [ €/t ] 2.783.648 €
Sale of Char ( 22MJ/KG ) 40,00 € [ €/t ] 542.694 €
Sale of fertilizer (similar NPK) 60,00 € [ €/t ] 1.989.490 €
Sale of heat, metal & glass waste 562.870 €
7.706.202 €
Costs
operation costs, including addons, employment costs, office and maintenance 3.357.289 €
financing costs, including repayment, interest & debriviation, Base 10 years 1.183.327 €
4.540.616 €
EBIT 3.165.586 €
Based on standard municipal waste: ( 26% water / 28% organics / 6% sand / 5% glass / 3% metals / 32% plastics )
Calculation hardly dependet on contents of feedstock.
28. viability in detail
28
business calculation (sample) municipal waste processing rev 35 20.08.2012
year 0 1 2 3 4 5 6 7 8 9 10 Total
figures setup startup year full production
number of reactors 1 ( production period) 50% 100%
runtime [hrs] (85% availability) 7310 h
input capacity feedstock total (German standard contents) 10,00 t / h
Input capacity Total per year t / h 36.550,00 73.100,00 73.100,00 73.100,00 73.100,00 73.100,00 73.100,00 73.100,00 73.100,00 73.100,00 694.450
input capacity feedstock / hr for depolymerisation 3,2 t / h - 1,60 3,20 3,20 3,20 3,20 3,20 3,20 3,20 3,20 3,20
input capacity dry per year for depolymerisation t / a - 11.696 23.392 23.392 23.392 23.392 23.392 23.392 23.392 23.392 23.392 222.224
Output capacity fertilizer per year t / a 16.579 33.158 33.158 33.158 33.158 33.158 33.158 33.158 33.158 33.158
output oil per hr 34% kg / h 0,54 1,09 1,09 1,09 1,09 1,09 1,09 1,09 1,09 1,09
output capacity oil per year t / a 3.977 7.953 7.953 7.953 7.953 7.953 7.953 7.953 7.953 7.953 75.556
output capacity char per year 58% t / a 6.784 13.567 13.567 13.567 13.567 13.567 13.567 13.567 13.567 13.567 128.890
investment
Engineering & Permissioning ( German Engineers ) € 1.071.343 € 1.071.343
Feedstock preparation, Sorting & Fertilizer Production € 3.471.038 € 3.471.038
Feedstock mixing & separation € 174.416 € 3.471.038
molecule disintegrator & housing € 3.766.632 € 174.416
residue handling € 271.362 € 271.362
distillation, petro separation € 1.967.007 € 1.967.007
control system € 1.013.014 € 1.013.014
fire protection € 243.050 € 243.050
post processing, tanks € 806.957 € 806.957
petro laboratory € 367.500 € 367.500
chp/power generation, 1.5 MWh € 2.474.304 € 2.474.304
Licenses, Installation, Insurance, Transportation, Misc. € 1.775.250 € 1.775.250
total € 17.401.871 € 17.401.871
operating costs rip 3,00%
rent of real estate for operation & office 250.000,00 € € / a - 250.000 257.500 265.225 273.182 281.377 289.819 298.513 307.468 316.693 326.193 2.865.970
company operating costs 150.000,00 € € / a 75.000 150.000 154.500 159.135 163.909 168.826 173.891 179.108 184.481 190.016 195.716 1.794.582
salaries (3 shift) 24 15.000 € 360.000,00 € €/MA/a 72.000 180.000 360.000 370.800 381.924 393.382 405.183 417.339 429.859 442.755 456.037 3.909.278
energy costs, transporting & fertilizer addons 1.462.000 0,08 € € / kWh 58.480 116.960 120.469 124.083 127.805 131.640 135.589 139.656 143.846 148.161 1.246.689
production costs of fertilizer 33.158 22,06 € €/t 365.792 731.584 768.163 806.571 846.900 889.245 933.707 980.393 1.029.412 1.080.883 8.432.650
catalyst 0,50% 23.392 4.250,00 € €/t 248.540 497.080 521.934 548.031 575.432 604.204 634.414 666.135 699.441 734.414 5.729.625
residue handling (water&tar) 15.205 10,00 € 76.024 152.048 159.650 167.633 176.015 184.815 194.056 203.759 213.947 224.644 1.752.591
maintenance 6,25% % / a - - 1.087.617 1.120.245 1.153.853 1.188.468 1.224.122 1.260.846 1.298.671 1.337.632 1.377.761 11.049.216
total 147.000 1.328.836 3.357.289 3.485.622 3.619.185 3.758.206 3.902.919 4.053.572 4.210.422 4.373.741 4.543.809 36.780.600
capital / interest
capital investment / loan 100,00% % 17.401.871 15.661.684 13.921.497 12.181.310 10.441.122 8.700.935 6.960.748 5.220.561 3.480.374 1.740.187 0 0
interest loan 8,50% % 1.479.159 1.331.243 1.183.327 1.035.411 887.495 739.580 591.664 443.748 295.832 147.916 0 8.135.375
subsidizing& grants (repayment after 10 years) 0,00% % - - - - - - - - - - - -
interest subsidizing loan 0,00% % - - - - - - - - - - - -
banking fees 2,00% % 348.037 348.037
repayment of capital/loan (10 years) 10 years 1.740.187 1.740.187 1.740.187 1.740.187 1.740.187 1.740.187 1.740.187 1.740.187 1.740.187 1.740.187 17.401.871
linear depreciation 10 years 1.740.187- 1.740.187- 1.740.187- 1.740.187- 1.740.187- 1.740.187- 1.740.187- 1.740.187- 1.740.187- 1.740.187- 17.401.871-
total 1.827.196 1.331.243 1.183.327 1.035.411 887.495 739.580 591.664 443.748 295.832 147.916 - 8.483.412
income rip 5,00%
payments for feedstock (raw material, comparung Germany 140€) 25,00 € €/t 913.750 1.827.500 1.918.875 2.014.819 2.115.560 2.221.338 2.332.405 2.449.025 2.571.476 2.700.050 21.064.796
fertilizer production
sale of fertilizer production (comparing to NPK) 33.158 60,00 € €/t 994.745 1.989.490 2.088.964 2.193.412 2.303.083 2.418.237 2.539.149 2.666.106 2.799.412 2.939.382 22.931.980
oil & char depolymerisation
oil (crude to raffinerie, heating oil quality, 1%sulphur) 7.953 350,00 € €/t 1.391.824 2.783.648 2.922.830 3.068.972 3.222.421 3.383.542 3.552.719 3.730.355 3.916.872 4.112.716 32.085.898
char (char to powerplant, ~22 MJ/kg) 13.567 40,00 € €/t 271.347 542.694 569.829 598.321 628.237 659.648 692.631 727.262 763.626 801.807 6.255.402
heat balance and additional contents
sale of heat 3.655.000 [kWh] 0,08 € 146.200 292.400 307.020 322.371 338.490 355.414 373.185 391.844 411.436 432.008 3.370.367
sale of separated glass 1.023 [ t / year ] 50,00 € 25.585 51.170 53.729 56.415 59.236 62.197 65.307 68.573 72.001 75.601 589.814
sale of separated metals 2.193 [ t / year ] 100,00 € 109.650 219.300 230.265 241.778 253.867 266.561 279.889 293.883 308.577 324.006 2.527.776
total - 3.717.866 7.706.202 8.091.512 8.496.088 8.920.892 9.366.937 9.835.284 10.327.048 10.843.400 11.385.570 88.690.798
Profit/Loss 1.974.196- 1.057.787 3.165.586 3.570.479 3.989.407 4.423.107 4.872.354 5.337.964 5.820.794 6.321.743 6.841.761 43.426.786
% from income 28,45% 41,08% 44,13% 46,96% 49,58% 52,02% 54,27% 56,36% 58,30% 60,09% 48,96%
Based on standard municipal waste: ( 26% water / 28% organics / 6% sand / 5% glass / 3% metals / 32% plastics ) final repayment of loan after 10 years 0 €
Calculation hardly dependet on contents of feedstock. ROI after 10 years 43.426.786 €
29. 29
GLOBAL PARTNER NETWORK
Bionic is developing a global partner network to accelerate its presence worldwide:
- Sales partner with a strong position in a relevant industry
- Project development and installation
- After sales customer care, maintenance and supply of expendables
- Local sourcing and procurement
- Joint Venture for manufacturing
If/when certain conditions are met exclusivity will be granted for a defined area.
30. Bionic Group of Companies
represented by:
Bionic Laboratories BLG GmbH, Germany
For more information visit us at www.bionic-world.net
THANK YOU FOR YOUR
ATTENTION
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