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Scientific and technical council for development of innovative clusters

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Scientific and technical council for development of innovative clusters of the region is approved by the decision of Akimat of Karaganda oblast #23/08 dated April 26, 2013.

Scientific and technical council for development of innovative clusters of the region – is a consultive and deliberative assembly forming new ways of the region and innovative clusters development in the key branches of industry of the region.

Goal of the Council activity is forming of a new way of the region and innovative clusters development in the key branches of industry in Karaganda oblast.

Primary objectives of the Council are the following:

1) detection of the main scientific and technical ways for the development of innovative clusters in the key branches of industry in Karaganda oblast;

2) examination and selection of innovative projects focused on the production modernization, output of new production with high added value for the purpose of forming of innovative clusters and enabling technologies in them, with the following purposeful point and targeted support.

3) proposal development for financial instruments of enabling technologies and innovative projects support.

4) selection of innovative projects for the further participation in the specialized exhibition “EXPO-2017”.

Labour organization responsible for the Council work and preparation of material is “Technopark Sary-Arka” LTD.

The main criteria of projects selection are:

- correspondence of the project to the priority directions for the industrial and innovative development of the region and key branches of industry;

- scientific and technical newness and performability of the project;

- possibility of the project commercialization.

To file an application on approval of Scientific and technical council for development of innovative clusters of the region, you need to appeal to the labour organization of the Council – “Technopark Sary-Arka” LTD, which is situated at: 4 Stroiteli Avenue, or by telephone: 400-960, as well as by e-mail: info@tpsa.kz.

Activity of scientific and technical council for development of innovative clusters of the region

The first meeting of scientific and technical council for development of innovative clusters of the region under the chairmanship of Akim of Karaganda oblast Abdishev B.T. took place on the 14th of May 2013.

On the first meeting of the scientific and technical council for development of innovative clusters of the region there were conformed main scientific and technical directions for the development – innovative clusters in the key branches of the industry inKaraganda oblast:

No.

PRIORITY BRANCHES

DIRECTIONS

Coal industry

Ø Coal cleaning and production of high quality energy coal concentrate;

Ø Selective coal firing technologies;

Ø Commercial production and utilization of methane gas.

Ferrousindustry

Ø Production of new kinds of alloys;

Ø Repartitions increasing of metallurgical production.

Nonferrous industry

Ø Synergetic-activation reduction and beneficiation of metallic ores and technogenic mineral formations.

Chemical industry

Ø Thin organic synthesis and polymers chemistry;

Ø Industrial chemistry;

Ø Pharmacy.

Mechanical engineering

Ø Creation of new kinds of mining and mineral processing equipment;

Ø Development of digital technologies and high-accuracy cast;

Ø Creation of extra-hard high-temperature materials.

Building materials production

Ø Receipt of nonbrick cementing and dry mixes from metallurgical technogenic waste, their use in civil and road construction.

Agriculture

Ø Advanced grain processing and products generation;

Ø Production of feeds and feed additives for all kinds of farm animals and fish.

Energy

Ø Development of alternative energy sources.

Also the following projects were considered:

Project:“High speed railway with “Berkut”train.

Applicant – Bolotnik S.A.

The project will enable to transform the main transport system of Kazakhstan cardinally and to increase essentially the traffic flow between cities. The project is relevant within the scope of the subject EXPO-2017 follows global tendency of transition to alternative energy

Cutting travelling time

- essential increase of traffic flow between the cities Astana, Karaganda, Balkhash, Almaty;

- recovery of tourist branch and economics in whole;

- attraction of foreign investors;

- transformation of look and image of Kazakhstan railways;

- receipt of a new dynamic symbol of Kazakhstan.

Project: “Research centre of alternative energy “Bionica”.

Applicant – Bolotnik S.A.

The project urgency: The project is particularly urgent within the scope of the subject EXPO-2017. The centre will be enabled during holding of the global exhibition, as an exhibition hall/press centre/lecture hall/conference centre, but its main activity will begin only after finishing of EXPO.

The project goals:

- increase of science level in KazakhstanRepublic;

- realization of intellectual property;

- attraction of the youth to the theoretical and practical science;

- research and inventive activity;

- attraction of foreign investors;

- transformation of the city look due to a unique architectural structure.

Project: “Palm – power station”.

Applicant – Bolotnik S.A.

The project urgency: the project is urgent within the scope of the subject EXPO-2017 and follows global tendency of transition to alternative energy.

The project goals:

- receipt of an additional source of ecological energy;

- attraction of foreign investors;

- transformation of the city look due to a unique power station look.

Project: “Development of recommendations for the construction of high-performance slatted foundations of residential and industrial buildings and structures”.

Applicant – “Institute Gradient Project” LTD

Development and implementation of a new technology of foundations construction allows to implement saving of materials and man-hours to 60% of the current foundations constructions cost.

Slatted foundations are competitive in comparison with strip monolithic and ready-made ferroconcrete foundations.

However, at the present time because of absence of normative documents it is impossible to use slatted foundations for multi-storey residential and industrial buildings in practice.

In connection with this the project is directed to the development of recommendations and normative documents for slatted foundations construction.

Slatted foundation represents one or two narrow concrete (ferroconcrete) parallel walls in the ground, joint by a grid into general construction. The process of the walls arrangement includes scoring of the narrow slits in the ground of width from 100 to 300 mm, depth from 1 to 3 m with their following reinforcement and filling with concrete mixture.

1-concrete wall in the ground;

2-mattress;

3-basement overlap;

4-basement floor.

Project: “Development of technical documents for the serial production of ecologically clean hydrodynamic heaters (HDH) of liquid medium with high coefficient of efficiency”.

Applicant – “Temir men Mys” LTD.

Hydrodynamic heaters can be an alternative to the traditional means of liquid medium heat, in which clean heating of liquid medium occurs without usage of fire and heating elements of filament type (turbular electric heating elements).

This is a comparatively simple and at the same time quite effective device, which operating principle is based on energy conversion of whirling current moving in it under pressure of liquid into heat energy using cavitation effect.

HDH plants are autonomous technological aggregates, allowing consumers to assign a mode of operation without assistance.

HDH do not pollute the atmosphere with the combustion products. Explosion and fire hazard is ruled out. Heater tank does not refer to the high-pressure vessels.

Absence of expenses for heating mains construction, for water conditioning, minimal service. Ultralow expenses for production of 1kW of heat energy. Service life is not less than 15 years.

On the 23rd of July, 2013, the second meeting of the Scientific and Technical Council on the development of innovative region clusters took place under the chairmanship of Akim of Karaganda region Abdishev B. T.

This session focused on the following projects:

Project: “Processing and use of methane from ventilation and degasification of coal mines”

Applicant - Baimukhametov S. K.

The project urgency: In the process of production of coal on JSC “ArcelorMittal Temirtau” Coal Department mines more than 300 million cubic meters of methane are evolved, 50 million cubic meters of which are extracted by means of degassing with methane concentration over 25%. 10-15% of methane recovered by degassing is used as fuel in the boilers of 4 mines to heat the airsupplied to the mine. The rest amount of methane emits into the atmosphere creating the greenhouse effect.

Therefore, the project on electricity production with using the methane from degassing of mines and thermal energy production from ventilation mine methane is relevant in terms of the secondary resources usage and of reducing greenhouse gas emissions.

The project purpose is the rationale of economic efficiency of electricity and heat production from mine methane, search for investors for the design, construction and operation of power and heat production plant with coal mine methane using.

The project novelty for the Karaganda coal basin is fuller use of methane secondary resources and the reduction of greenhouse gases emissions into the atmosphere.

The project uniqueness is the use of low concentration methane in mine ventilation for electricity and heat producing.

The functionality of the technology:

- electricity and heat production using coal mines methane and the reduction of greenhouse gas emissions.

Project “Industrial production of heat exchange module – TOM-1 and TOM-2 boiler”

Applicant - Voronov E. N.

The novelty of this heating boiler is fundamentally new location of heat takeoff elements allowing provision unsurpassed large heat takeoff area and thus to achieve high efficiency, as well as competitive operational characteristics. Operated working model of 500 kW (the heating area is 5,000 sq. meters) has given not less than two-time fuel economy.

If necessary, the boiler can operate without additional sources of energy, but in the basic version it is equipped with modern appliances providing its automatic effective functioning.

The modular structure of the “Heat Exchange module” makes it extremely maintainable in comparison with similar products. That is very important in our climate. Also the use of the modular principle allows us to increase or decrease the capacity of the boiler without any major investment, labor effort and changes of the principle diagram. While a slight change in the principle diagram it turns into a single-flow steam boiler. That means that the product can be used as a heating, water heating or steam boiler.

Industrial production of heat exchange module intended for heating of industrial and non-production premises covering an area of ​​1,000 to 10,000 sq. m.

The project was successfully implemented:

12 boilers of different capacities produced and sold:

300 kW - 2 units, 1 boiler, heated area of ​​3,000 m2.

400 kW - 2 units, 1 boiler, heated area of ​​4,000 m2.

600 kW - 2 units, 1 boiler, heated area of ​​6,000 m2.

1000 kW - 1 unit, 1 boiler, heated area 10,000 m2.

These boilers were effective while their operation during the heating season.

Production capacity is 12 boilers of different capacities per month.

Project: “Professor Alimkhanova R. S. Orthopedic Clinic”

Applicant - Alimkhanova R. S.

This project involves the creation of the orthopedic clinic for treatment and diagnostic services of orthopedic diseases for child population of the Republic of Kazakhstan, the CIS and other foreign countries on the basis of its innovative technology.

Innovative technologies of new ways, new methods and various design of traction devices for its implementation are used for the treatment of congenital and acquired diseases of the musculoskeletal system of children.

Alimkhanova’s innovative methods of treatment are a new trend in orthopedics based on the use of traction devices. They are extremely low cost in comparison with the existing traditional conservative and surgical methods of treatment of both domestic and foreign counterparts and have more highly qualitative parameters for the treatment of orthopedic patients. The use of innovative methods designed by Alimkhanova R. S. makes it possible to fulfill complete and consistent correction of all elements of the deformation at any degree of the severity of disease, has no complications and no relapse of deformation and all principles of orthopedic treatment are kept: non-traumatic, gentle, the used methods are functional and provide full recovery, at the same time avoiding errors. Any kind of surgical treatment and prolonged hospital stay are excluded, a long time consuming plaster immobilization is not used, orthopedic shoes and orthesis products are not used, medical and social rehabilitation is not required, and there is no disability of children.

Project: “Establishment of industrial prototype plant (UIT-1) for measuring of the thermal conductivity of building materials and products for metrological construction support of “Passive houses”

Applicant - Perkov I. P.

The project urgency: the introduction of the “Passive house” technology in the Republic of Kazakhstan, allowing reducing power inputs for heating of buildings and structures up to 20 times, is impossible without equipment for high-precision measurement of the thermal conductivity of the enclosure constructions.

At present, the world produced devices are capable of measuring the thermal conductivity of homogeneous samples of small size (100x100x15 mm). Considering the climatic conditions of the Republic of Kazakhstan and the absence on the market of building materials and of materials suitable for building houses without batteries, the most acceptable variant for solving the problem may be the use of the anisotropic enclosing structures (the anisotropic wall stones).

Devices that are able to measure the thermal conductivity of the anisotropic enclosing structures of sizes larger than 200x400x350 mm are not produced.

In this regard, the establishment of such systems becomes relevant.

The purpose of the project is the creation of an industrial high-precision plant prototype for thermal conductivity measurement of the anisotropic enclosing structures of sizes more than 200x400x300 mm. The plant is necessary for the metrological support of the construction of “Passive houses” in Kazakhstan.

The novelty of the project is to create a plant that does not need calibration devices for calibrating of the measuring circuits. The measurement of thermal conductivity will occur directly on the amount of energy passing through the building enclosing structures. The device allows measuring the thermal conductivity of the wall stones of various sizes including the anisotropic and homogeneous types before their delivery to the site. This is a prerequisite for the construction of Passive Houses in which the heating costs are reduced to 20 times in comparison with ordinary buildings.

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