Successfully reported this slideshow.
We use your LinkedIn profile and activity data to personalize ads and to show you more relevant ads. You can change your ad preferences anytime.
Center for Development and Promotion
Technologies of Food Irradiation
R&D, Installation, Commercialization
Food Irradiation
▌eliminate the risk of dangerous foodborne infections from wide
range of produce: meat, fish, mushrooms, ...
Food Irradiation
▌Economic accessibility of services for radiation treatment (based on
contractual centers) for businesses...
Tecleor LLC
Why Tecleor?
 Many years of practical experience of production schedules, normalizing the full cycle of proce...
Pilot Center
Location Pilot Center
 67 km from the MKAD (Moscow Ring Road),
 Bordering with New Moscow (the territory of...
Commercialization
Installations in
processing
centers: meat, fish
Modular scalable installation (ready-to-use and custom s...
Our Goal is…
Short-term goals and time frames The strategic goal of 7 years
 Launch of the pilot center: Q1 2017
 Comple...
Contacts
Tecleor LLC
141700, Russia, Moscow region, Dolgoprudny, Tsiolkovskogo street 2, 27
CEO: Sergey Budnik
sbudnik@tec...
Upcoming SlideShare
Loading in …5
×

Tecleor - Center for Development and Promotion Technologies of Food Irradiation (Теклеор)

1,640 views

Published on

Food irradiation, Electron Beam Processing, Industry Solutions, Radiation Preservation, Radiation Treatment, Ionizing radiation, Radiation technologies,Sterilization,Tecleor, Теклеор

Published in: Technology, Business
  • Be the first to comment

  • Be the first to like this

Tecleor - Center for Development and Promotion Technologies of Food Irradiation (Теклеор)

  1. 1. Center for Development and Promotion Technologies of Food Irradiation R&D, Installation, Commercialization
  2. 2. Food Irradiation ▌eliminate the risk of dangerous foodborne infections from wide range of produce: meat, fish, mushrooms, vegetables and fruit ▌extend the shelf life and transportability of highly perishable products ▌provide a quarantine treatment of exported and imported goods ▌exterminate insects in grains, cereals, flour, nuts, fresh and dried fruit or vegetables ▌prevent germination during storage (potatoes, onions, garlic) ▌prepare food for people with weakened immune systems or those working in special conditions (military, emergency, astronauts, polar explorers) Application Scope Technological Advantages ▌Processing does not require significant temperature increase, so the food will not change the taste, flavor, or texture ▌Ionizing radiation safely disinfects through packaging, lowering risk of post-processing contamination ▌The technology provides high degree of microbiological purity, sterility, and safety for the consumer. Electron beam processing may be used for the following purposes: ▌Safety: reduce the incidence of foodborne disease by destroying pathogenic organisms; ▌Quality: 25-40% decrease in product loss due to insects, bacteria and mold; ▌Economy: extended shelf life and reduce loss of foodstuffs by premature ripening, germination, or sprouting; ▌Ecology: reducing the dependence on chemical pesticides ▌Global loss of agricultural commodities and food products: 1.3 billion tons per year, or 30% of the total amount ▌ Foodborne and waterborne diarrhea diseases kill approximately 2.2 million people annually, including 1.9 million children ▌Reported annual increase in food poisonings in industrialized: 30% ▌Global increase in allergic reactions and pathologies due to metabolic disruptions from insufficient safety of agricultural and processed food. The Innovative SolutionThe Problem 2
  3. 3. Food Irradiation ▌Economic accessibility of services for radiation treatment (based on contractual centers) for businesses of all sizes Minimum batch of products: 1 ton Price per treatment: $0.15/kg ▌Development and selection of optimal treatment regimens for each of the types of agricultural products and foodstuffs ▌Our team combines years of experience in processing/applications reliable accelerator manufacturing with Leading edge R&D (in conjunction with leading industry Institute of Agricultural Sciences) Factors of Success Food processing with ionizing radiation technology has been known since 1950s, it is commercialized in more than 50 countries. Technology introduction requires an integration center for manufacturers of accelerator technology and specialists of ionizing treatment. Existing manufacturers of accelerator technology are focused on applications of selective technology, direct sales of accelerators (import contracts) and military orders from the Ministry of Defense Advantages of the technology using an electron accelerator: ▌proven and tested technology that is absolutely safe ▌no chemical, biological and radioactive waste ▌production scalability by customer request (up to 12 tons / hour) ▌variable processing speed to match specific products ▌high accuracy of the processing time estimation and delivery ▌compact hardware, long service life ▌low maintenance cost, competitive processing price to the client Competitive spaceKey Advantages 3 ▌The global market of services for radiation processing of food products in 2012 exceeded $ 2.3 billion. ▌ The projected level in the long term (after 2030) is $ 22.5 billion, including Russia’s $ 1 billion, with growth forecast of about 10% per year. We offer Electron beam processing more than 100 kinds of food products. The Market
  4. 4. Tecleor LLC Why Tecleor?  Many years of practical experience of production schedules, normalizing the full cycle of processing, depending on the type of the product  The electron accelerator suitable for industrial production  The production base with a capacity of 10 processing facilities per year  Support for the project from local regulating agencies, VNIIPP (poultry processing), VNIIKOP (canning and vegetable drying industry), VNIIZ (grains and by-products)  Extensive potential client base for processing services Vyacheslav Abrosimov Doctor of Physical and Mathematical Sciences, Professor and one of the founders of the Faculty of Physical and Quantum Electronics of MIPT. In the 1987- 1992 as deputy director of the Institute for Electrification of Agriculture studied the issue of implementation in practice of various decontamination agricultural products. Author of more than 90 scientific publications. Vladislav Trofimov Doctor of Chemistry, Professor. Developed the optimal modes of radiation treatment to reduce microbial contamination, disinfection and disinfestation. More than 300 scientific publications, including the monograph. The participation of more than 30 scientific conferences. About 30 patents. Sergey Budnik Corporate finance executive, MS(MIPT), MBA and CIMA Dip PM offering over 16 years of experience building, leading and advising corporations through complex restructurings, international expansion, and startup processes. Strong IT expertise. Excellent leader to improved financial performance, productivity, and enhanced internal controls. The Team 4 Artur Pakhomov Candidate of Economic Sciences. Author of several papers and articles on the theme of modernisation and restructuring of real estate management system. More than 30 years of experience in projects of restructuring, liquidation, modernisation and development of various enterprises in Russian Federation and in EU.
  5. 5. Pilot Center Location Pilot Center  67 km from the MKAD (Moscow Ring Road),  Bordering with New Moscow (the territory of the city of Moscow was increased 2,5 times South West in 2012);  45 km from airport Vnukovo;  Direct road connection to the M3 Moscow-Kiev and the Moscow big transport ring A108; access to M1 via A108;  Adjacent to the airport Ermolino;  an industrial area, offering direct access to two or more modes of transport (with a minimum road and rail transport)  access to shared facilities, equipment and services (e.g. container storage, handling areas and warehouses, customs services, truck cleaning, post office, conference and training facilities and other services and amenities), helped to reduce costs and time. 5 Cost to launch Cost to launch a pilot center as estimated:  The budget - $5 mln  Investment period - 2 years  Payback period (PP) - 4 years  Revenue - $3 mln  EBIT - $2 mln  FCF - $1,8 mln Products are fed by the conveyor belt into the chamber where a strong high energy electron steam sterilize them. How does the device work?
  6. 6. Commercialization Installations in processing centers: meat, fish Modular scalable installation (ready-to-use and custom solutions). Guaranteed on-time, complete, and ready to use implementation of a professionally engineered fully tested production line Contractual service centers Multi-functional high-performance industrial systems to handle different types of food. The first centers will be created in the Moscow region, as well as in cities with population over one million, in major ports, customs terminals, and at the bases of the Ministry of Defense and Emergencies. Mobile and compact low power installations Modular scalable installation (ready-to-use and custom solutions). Guaranteed on-time, complete, and ready to use implementation of a professionally engineered fully tested production line 6
  7. 7. Our Goal is… Short-term goals and time frames The strategic goal of 7 years  Launch of the pilot center: Q1 2017  Completion of ‘customer ready’ complex for electronic processing: Q4 2017  Begin production of mobile and compact units: Q4 2018  Multifunction contractual centers: at least 5  Plants in the food industry: at least 5  Share of services in the revenue: at least 75%  Sales share in the international market: at least 30%  Market Value: $70 mln 7 Our Center helps  To demonstrate the effectiveness, efficiency of ecological technology  To open the market for food irradiation  To attract an interest of commercial companies and the government To establish an effective, inexpensive, and environmentally friendly technology to improve the food quality and to extend products shelf life
  8. 8. Contacts Tecleor LLC 141700, Russia, Moscow region, Dolgoprudny, Tsiolkovskogo street 2, 27 CEO: Sergey Budnik sbudnik@tecleor.com www.tecleor.com www.facebook.com/tecleor 8

×