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Risilica. Presentation for APEC
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Transcript of Risilica. Presentation for APEC
RISILICATransforming waste into profitable products
Unrelated Challenges
• High cost
• High energy consumption
• Harmful to the environment
• Bulk waste: 145 mln tons of husk, 750 mln
tons of straw annually worldwide
• Rice husk combustion causes CO2
emission
• Waste putrefaction causes methane
emission
Rise husks utilization Amorphous silicon dioxide
(ASD) production
Preparation of rice husk/straw
Fermentation
Thermal processing,
pyrolysis
Ethanol
Organic Acids
ASD
Purity 99.9%
Risilica technology
Risilica’s
Waste
Utilization
Demand for amorphous silicon dioxide (ASD):
Market of amorphous
silica
CAGR > 5% 10++ years
(Source: Milestone
analytics);
2016 forecast for ASD world consumption
$ 6,4 B
55%of consumption
in Tire Industry
Our Initial Target Market: Tires
The tire industry is relying heavily on amorphous silica. Mainstream manufacturers (such as Pirelli) promote this application in there annual reports.
Adhesives, sealants
• Many applications
Сonstruction
• New materials
Additional markets
Competitors and advantagesCompetitors Risilica technology advantages
Utilization of rice
husks
Rice Husk is typically burned
and resulting heat converts
into thermal and electricity
energy.
5 ton of rice husk = 140 USD
Higher economic efficiency.
5 ton of rice husk yields 1200 USD at a cost of 400 USD
for a profit of 800 USD
5 tons of rice husks can get finished products only to 140
USD (according to the prices of electricity in Russia)
Production of ASD
• Low cost of the primary raw material;
• 6 to 8 times reduction of capital costs for construction
of a-Si production facilities;
• The production process is completely eco-friendly
(clean) which allows to minimize the environmental
safety costs
• reducing the self cost of both products
Strategy of the Company Development Stage I
2011-2013
• R&D
• Assembly of a large-scale experimental laboratory facility (a technological site) to work out the technology
Stage II
2014-2017
• Creation of first Proof-of-Concept factory with production volume of 3,500 tons/year ASD and Bioethanol
Stage III
2017
• Rollout of technology worldwide
• Going public
Financials assumptions
Production Profitability Analysis
Product type YieldSales
$
Costs
$Profit $
5 T
on
s R
ice
Hu
sks
Risilica
Process
1 ton of
ASD1200 400 800
Waste
utilization
1 ton of
BioEthanol300 100 200
Combined Profit 1000
Net Sales 5,25 mln USD
Costs 1,75 mln USD
In 2018 we start
to build 5
factory
Investment
Need:
15 mln
USD/factory
Net Sales by 2022
ASD:
120 mln USD
Bioethanol:
30 mln USD
2018 our proof on concept plant produces and sells
3,500 tons ASD
Capacity:
20 000 tons
ASDannually / per factory
We are looking for:
10 million USD as the 2nd round investment
for construction of a
plant and production of
high-quality
ASD & Bioethanol
Strategic partners in
each world region
1 2
Sergey Pisarenko
CEO
business angel and private investor in the project .
Responsibilities in theproject: strategic andoperational management ofthe company; search, selection and personnelmanagement; attractinginvestment in the project.
Leonid Zjubin
TEO
author and key developer of the technology.
Responsibility in theproject: technical supportand supervision; settingtargets and guidance forsubcontractors; organization andmanagement of research
and development.
AleksandrKomarov
Member of the Board of Directors,business angel andprivate investor inthe project.
Responsibilities: financialand business planning; relationships with stateinstitutions and privateinvestors; promotion &
marketing research.
Arkady Sinitsyn,
Scientific Advisor
Professor, Dr. Sciences, Ph.D.
Specialist in bioconversion of renewable raw materials and production of useful products (biofuels, organic acids, biopolymers), he is responsible for complimentary technology of biofuel production.
Kirill Kandyrin
Consultant
Assistant Professorof chemistry andphysics ofpolymers andpolymeric materials.
Responsible for preparation of formulas and test material for the tire industry enterprises.
Thank you for your attention
+7 910 454 6349
Sergey Pisarenko
Risilica
Investment
into a
better
Future!
Technology
- The experimental technological line is designed, assembled, tested and is operated;
- Technology is developed, scalability is proven, other technological risks are removed;
- The manufactured samples of amorphous silicon dioxide have been successfully laboratory tested
Team
- Consists of 7 professionals: CEO, experts in the field of chemistry, physics, tire industry and engineers.
- For construction of an experimental production plant we’ll attract an experienced manager and an engineering company
Intellectual property
- The technology is protected (patent No. 2488558)
- The draft patent for an invention (mode of production) is ready
- Details of the process are protected as know-how
Opportunities
- Feedstock: 750 million tons of rice produced worldwide annually give us more than 150 million tons of rice husks
- Biofuel: it is possible to combine ASD production with bioethanol production , taking byproducts of the 1st technology as the feedstock for the 2nd
We Can
Supplement 1. Green tires
• Pirelli, one of the leading world tire producers, actively promotes tires manufactured with silicone fillers from rice husk
Pirelli Annual Report for 2012, p. 86-87
Supplement 1. Green tires
Supplement 2. Possible technological schemes and byproducts
Amorphous silicon
dioxide, 99,9%
Fumed silica,
Analogous to FS-120
Bioethanol
Pyrolysis gas/heat
Liquid fertilizers
with microelements
Launching a new product.
Price: 30 000 – 50 000 RUB/ton
Price: 45 000 – 50 000 RUB/ton
Output of 1 ton of rice husk: 250 l
Price for 1 l in the EU: €1,4-1,7
With production capacity of 5000+
tons silica per year, gas can be sold
Production in proportion 1:1 to ADS.
Price: 12 000 – 15 000 RUB/ton
Current Status of the Technology
Experimental technological line
is designed, assembled and
tested
Technology is developed,
scalability is proven, other
technological risks are removed
The manufactured samples of
amorphous silicon dioxide have been laboratory tested