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Radiation Technologies of Cement Clinker and other Energy-intensive Products

Radiation Technologies of Cement Clinker and other Energy-intensive Products. Iosif ABRAMSON and Lev BERNSTEIN, Research & Testing Center “Giprocement –Science”. Research and Practical Conference “Accelerators and Radiation technologies for the Futures of Russia”.

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Radiation Technologies of Cement Clinker and other Energy-intensive Products

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  1. Radiation Technologies of Cement Clinker and other Energy-intensive Products Iosif ABRAMSON and Lev BERNSTEIN, Research & Testing Center “Giprocement –Science” Research and Practical Conference“Accelerators and Radiation technologies for the Futures of Russia” 28-29 September 2012, Saint-Petersburg

  2. Discovery the Phenomenon and Novelty of the Way • The phenomenon of radiation-thermal activation the hard phase reactions in non-organic systems opened in 1970-80thby the group of the scientists from Leningrad, Novosibirsk, Alma-Ata and Yerevan allows to intensify cardinally and to make much more friendly to the environmentthe production of many energy-intensive, high temperature materials. • The beam of high energy (1,5 – 2 MeV)electrons transfers the energy to all volume of irradiated matter simultaneously excluding heat conduction factor that limits process speed. • Beside purely thermal effect of speed burning the phenomenon of radiation-thermal activation takes the place too. • RT-activation applying to clinker formation means: • - temperature reduction of physical-chemical transformations on 150-200°С; • - completion of Portland cement clinker formation from dry raw mix by the power of absorbed dose 200-400 W/g during 5 -15 s (in rotary kilns it continues more than hour). • The fundamentals of radiation technology of cement clinker have been developed in1970-1980th by the Institute Giprocement (Leningrad) in the cooperation with NIIEFA (Leningrad) and Institute of Nuclear Physic (Novosibirsk). • The Building Materials Industry Ministry of USSR through its special program realized the financing of these works. • Scientific and Practice Conference “Accelerators and Radiation Technologies for the Future of Russia”, St.Petersburg, 28-29 of September, 2012 Research and Practical Conference“Accelerators and Radiation technologies for the Futures of Russia” 28-29 September 2012, Saint-Petersburg

  3. Radiation-thermal apparatus A number of constructions of radiation- thermal apparatus (RTA) for the clinker synthesis in an electrons beam have been tested. Shaft type for RTA has been proved as most effective. It provides the translocation material particles from the surface into the depth of radiation zone: electrons beam and materials flow are co- axial. As a result we receive the product with uniform properties by minimal energy consumption. Research and Practical Conference“Accelerators and Radiation technologies for the Futures of Russia” 28-29 September 2012, Saint-Petersburg

  4. From Technology Fundamentals to Semi-industrial Realization Main advantages of the technology consist inthe exclusion technological use of thehydrocarbon fuel and in cardinal reduce of harmful gas and dust emissions in the atmosphere. Revival of the development needs the investment of $4.5-5.0Mln. It can be expect with big probability the interest in RT in the countries where hydrocarbon power does not play determining role in national total power. China also displayed the interest to RT. The global problem is the struggle against greenhouse effect. The last one is obliged to constantly growing techno-gene allocations of carbon dioxide. RT excludes fuel carbon dioxide. And high concentrated technological СО2 can be used in principle as favorable product (without emission in the atmosphere). 2013 – the development of demo pilot line design, order on the equipment, montage and launching the line, the development of the program and experience procedures with the materials high temperature synthesis of which does not allow reduction-oxidation medium (exclusive white cement, titanates, tungsten carbide, exclusive valuable alloys, for example - Ti-Ta-Nb, and so on). 2014 –carrying out the experimental series along the developed program, their data processing and the development of industrial lines designs. Research and Practical Conference“Accelerators and Radiation technologies for the Futures of Russia” 28-29 September 2012, Saint-Petersburg

  5. The Market • Market segments on which the project products are orientated: building materials, building, electronics, nuclear power industry. • Key distinctions of proposed technology: ecological purity, high products quality, exclusion the hydrocarbons from their production. Research and Practical Conference“Accelerators and Radiation technologies for the Futures of Russia” 28-29 September 2012, Saint-Petersburg

  6. Possible Economic Effect on Pilot Line Stage • Gas emissions consist of concentrated technological СО2 , “greenhouse” СО2 emissions reduce themselves in 1,5 times. The cost of one СО2 emission ton is established to-day in EU on the level of 30 еurо. So each ton of the clinker received by RT way gives 10 euro of income. • The cost of one compressed СО2 ton consists now of 100 еurо. It means that organizing СО2take-off on pilot line, can man to receive addition income not less than 400000 euro/year. • The cost of super white cement consists to-day of $250/t. Therefore pilot line, by year productivity of 4000 t, could bring income of $1,0Mln., if it will orientateon the receiving only this product. In this case the viability of pilot line will not exceed 5 years. • The cost of alkalic metals titanates consists in average not less than $900/t. In this case, by the orientation on the receiving titanates, the viability of pilot line will not exceed 1,4 years. Research and Practical Conference“Accelerators and Radiation technologies for the Futures of Russia” 28-29 September 2012, Saint-Petersburg

  7. Investor of the Project • In developers opinion among companies and state organizations for which the project could present commercial (and not only) interest, must be named: • СBMA (China Building Materials Academy), China • Électricité de France, France • Rosatom, Russia Research and Practical Conference“Accelerators and Radiation technologies for the Futures of Russia” 28-29 September 2012, Saint-Petersburg

  8. Project Team • Research & Testing Center “Giprocement –Science”, Saint-Petersburg • Scientific & Research Institute for Electro-Physical Apparatus, Saint-Petersburg Research and Practical Conference“Accelerators and Radiation technologies for the Futures of Russia” 28-29 September 2012, Saint-Petersburg

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