Index      Introduction      Structure      Countryprofiles      Topics      Links      Comments     

KAZAKHSTAN

(Updated 2011)

1. GENERAL INFORMATION

1.1 Country Overview

Kazakhstan is a newly independent Euro-Asian republic, created in 1991 with the dissolution of the former USSR. The total length of its borders is more than 15.000 kilometres and it has an area of 2.7 million square kilometres. To the west of the country is Eastern Europe. To the east and to the south-east are the Altai and Tyan Shyan mountains. Kazakhstan borders with China in the south-east, with Ural and Siberia regions of Russia in the north and west, and with Central Asian countries, Uzbekistan, Kyrgyzstan and Turkmenistan, in the south. It has a coastline of 2.320 kilometers on the Caspian Sea.

The climate is strongly continental, but with wide variations throughout the territory. Average temperatures in January range from -18⁰C in the north to -3⁰C in the south; July averages are 19⁰C in the north and 30⁰C in the south. Levels of precipitation are equally varied with average annual rainfall in mountainous regions reaching 1.600 mm and central desert areas less than 100 mm. The lowest point is Vpadina Kaundy -132 m and the highest point Khan Tangiri Shyngy (Pik Khan-Tengri) 6.995 m.

The government had moved in December 1998 from Almaty to Astana. Now all state authorities are located in Astana. Astana is situated on the left and right bank of the river Esil the length of which within the bounds of the Republic is 1 thousand and 400 meters. Left bank district is a new district built for last 10 years. Since 1998 Astana is the capital of the Republic Kazakhstan.

The authoritative body in the sphere of atomic energy use is the Atomic Energy Committee of the Ministry of Energy and Mineral Resources of the Republic Kazakhstan. In December of 2007 Kazakhstan Atomic Energy Committee had moved from Almaty to Astana.

Kazakhstan's population according to census of enumeration of 2009 is about 15.98 million from more than 100 nationalities, but mainly Kazakh and Russian. To the beginning of 2008, the population growth rate is estimated about 7% in comparison with 2000; the population density is estimated at 5.9 people per square kilometer (Table 1).

TABLE 1. POPULATION INFORMATION

	1990	2000	2005	2008	2009	2010
Population (millions persons)	16.7	14.87	15.22	15.8	16	16.43
Population density (inhabitants/km2)	6.15	5.468	5.532	5.7	5.87	6.03
Area (1000 km2)	2724.9
Source: Statistical yearbook of Kazakhstan

1.2 Economic Indicators

Kazakhstan, the largest of the former Soviet republics in territory, excluding Russia, possesses enormous fossil fuel reserves as well as plentiful supplies of other minerals and metals. It also is a large agricultural – livestock and grain – producer. Kazakhstan’s industrial sector rests on the extraction and processing of these natural resources and also on a growing machine-building sector specializing in construction equipment, tractors, agricultural machinery, and some defense items. In 1995-97, the pace of the government program of economic reform and privatization quickened, resulting in a substantial shifting of assets into the private sector. Kazakhstan enjoyed high rate growth thanks largely to its booming energy resources sector, but also to economic reform, good harvests, and foreign investment.

The opening of the Caspian Consortium pipeline in 2001, from western Kazakhstan’s Tengiz oilfield to the Black Sea, substantially raised export capacity. For the last years the volume of mined and exported hydrocarbon raw product has tripled. The country has embarked upon an industrial policy designed to diversify the economy away from over-dependence on the oil sector, by developing light industry. The national economical development plan is focused on:

1. The increase to the year 2015 of annual oil mining up to 150 million tons and enter the top five oil producing countries;

2. The construction in Uralsk town of a plant that will produce pipes for transcontinental oil- and gas pipe lines;

3. The development of attendant mineral resources fields (sulphur, radium, bismuth etc ones);

4. The achievement in 2030 the annual uranium mining of 15 thousand tons and be the world leader in that field;

5. The intensification the cycle of uranium raw material processing – from fuel pellet production to the production and export of energy.

Historical Gross Domestic Product (GDP) data are given in Table 2.

TABLE 2. GROSS DOMESTIC PRODUCT (GDP)

	1990	2000	2005	2007	2008	2010
GDP (millions of current US$)	40304	18292	57123.7	104896	133441	147870
GDP per capita (current US$ per capita)	2.465	1.231	3.789	6.812	8.514	8.98
Dollar rate, tenge per 1 US dollar		142.13	132.88	122.55	120.3	147.35
Source: Statistical yearbook of Kazakhstan

1.3 Energy Situation

Kazakhstan, the second largest of the former Soviet republics in territory, possesses enormous fossil fuel reserves (see Table 3) as well as plentiful supplies of other minerals and metals. It also is a large agricultural – livestock and grain – producer. Kazakhstan’s industrial sector rests on the extraction and processing of these natural resources and also on a growing machine-building sector specializing in construction equipment, tractors, agricultural machinery, and some defense items.

TABLE 3. ESTIMATED ENERGY RESERVES

	Estimated energy reserves in (Exajoule)
	Solid	Liquid	Gas	Uranium	Hydro	Total
				(1)	(2)
Total amount in place	942.20	31.16	66.28	328.31	10.60	1378.55
(1) This total represents essentially recoverable reserves.
(2) For comparison purposes a rough attempt is made to convert hydro capacity to energy by multiplying the gross theoretical annual capability (World Energy Council – 2002) by a factor of 10.
Source: IAEA Energy and Economic Database.

Power plants fuelled with coal and black oil are the basis of Kazakhstan’s electrical energy. Coal is the country’s largest industry, with planned further development if corresponding investments are secured. Coal reserves are estimated at 64 billion tons. Annual hard coal production is about 111.8 million metric tons, brown coal production is estimated at 4.6 million metric tons. Kazakhstan also has a well developed oil and gas industry. More than 1 600 oil and gas fields have been located in Tengiz and Karachaganak containing more than 2.9 billion tons of conditional fuel. Natural gas production was estimated at 5 416 million cubic metres in 1993. Kazakhstan has begun building a major oil pipeline, 1 200 kilometres from the west to the east. Construction of three new oil refineries is planned. Every year, about 25 million tons of liquid hydrocarbons and seven billion cubic meters of natural gas are extracted. About 20% of the world’s uranium reserves are in Kazakhstan.

1.4 Energy Policy

Kazakhstan is a net energy exporter, with large reserves of uranium, oil and coal. Fossil-fired power plants are the basis of the electric energy. The energy policy aims to achieve energy independence through electric power production with maximum use of cheap, low-grade coal. Introduction of nuclear power is included as the necessary option for the energy security.

There are six gas pipelines that connect Kazakhstan to other central Asian republics and Russia, but the gas producing regions in the western part of Kazakhstan are not connected to the populous southeast and industrial north parts of the country. Kazakhstan has a major need for more gas pipelines. Kazakhstan is rich in natural resources, but its power sector needs considerable rehabilitation and upgrading to improve the efficiency of energy production and use. The TRACECA Program (Transport System Europe-Caucasus-Asia) is developing an East-West corridor from Central Asia, through the Caucasus, across the Black Sea to Europe.

Kazakhstan is in the process of transition toward a free market, privatization in energy, and encouraging foreign investment to exploit oil and gas resources of the country. In 1997, the government of Kazakhstan issued a decree on privatization and restructuring in the energy sector. Through this decree, all companies in the energy sector have gone through an incorporation process and are legally prepared for future privatization and restructuring. The Ministry of Energy and Mineral Resources is the main government entity responsible for implementing the policy.

The energy policy of Kazakhstan aims to achieve energy independence through electric power production with maximum use of its cheap, low-grade coal. Table 4 shows the dynamical increase of the production of coal, oil and natural gas in the last few years.

TABLE 4. DOMESTIC COAL, OIL AND NATURAL GAS PRODUCTION

	Coal (million tons)	Oil (million tons)	Natural Gas (billion cubic meters)
1995	83,3	18,1	5,9
1996	76,8	21,1	6,5
1997	72,6	23,4	8,1
1998	69.8	23.8	7,9
1999	58.4	26.7	9,9
2000	74.9	30.6	11,5
2001	79.1	36.1	11,6
2002	73.7	42.1	14,1
2003	84.9	45.4	16,6
2004	86.9	50.7	22,1
2006	96.2	54.3	26.38
2008	111.07	58.6	32.89
2010	103.51	67.9	36.2
Source: Statistical yearbook of Kazakhstan

1.5 The electricity system

The total length of electric lines of all voltages is more then 460.000 kilometers. The first section of the international Siberia-Kazakhstan-Ural transmission line (1.900 kilometers) has been placed in operation. This line is expanded to the south to connect north and south Kazakhstan and the power grids in Central and Middle Asian countries. Electricity production is given in Table 5.

The biggest producers of electricity in Kazakhstan are - the "Euro-Asian Power Corporation" (in 1998 14% from total power production), the Joint-stock Company "GRES-2" Pavlodar Region (8.9%), the "Kazakhmis Corporation" (8.5%), the Closed Joint-stock Company "Almaty Power Consolidated" (7.8%), the Open Joint-stock Company "Ispat-Karmet" (6,8%), LLP, "Karaganda Power" (4.4%) and the Joint-stock Company "Aluminium of Kazakhstan" (3.9%).

TABLE 5. PRODUCTION AND DISTRIBUTION OF ELECTRICITY PRODUCTION

	2000	2001	2002	2003	2004	2006	2008	2010
Electricity production (TW.h)	51.6	55.4	58.3	63.9	66.9	71.6	80.35	82.66
Electricity production per capita (GW.h)	3.48	3.73	3.92	4.27	4.44	4.7	5.03	5.03
Source: Statistical yearbook of Kazakhstan

2.  NUCLEAR POWER SITUATION

2.1 Historical Development and current organizational structure

2.1.1 Overview

The nuclear scientific industrial complex in Kazakhstan was established as a unified part of atomic industry and science in the former Soviet Union.

Kazakhstan's uranium industry consists of uranium prospecting firms, a number of natural mines using mining and underground leaching techniques, a metallurgical plant producing fuel pellets for NPP fuel assemblies. The power plant at Aktau (MAEC) has been shut down in June 1999. It was consisted of natural gas units and a nuclear unit. The latter unit is a BN-350 fast neutron reactor with sodium coolant.

On the territory of the former Semipalatinsk Nuclear Test Site three research reactors are engaged in testing and development of nuclear space engines and safe nuclear power plants. The fourth research reactor is located at the Institute of Nuclear Physics near Almaty. In 1992 "National Nuclear Centre of the Republic of Kazakhstan" was created by the Government Decree. Now there are four Research Institutes are belonged to the Republic State Enterprise "National Nuclear Center of the Republic of Kazakhstan". They are:

Daughter State Enterprise "Institute of Nuclear Physics" Almaty; Daughter State Enterprise "Institute of Atomic Energy" situated in Kurchatov; Daughter State Enterprise "Institute of Radiation Safety and Ecology" situated in Kurchatov;

Daughter State Enterprise “Institute of Geophysical investigation” situated near Almaty.

2.2 Nuclear Power Plants: Overview

2.2.1 Status and performance of nuclear power plants

Type:	BN-350, sodium-cooled fast breeder reactor
Location:	Aktau (former Shevchenko) at the shore of the Caspian Sea, in western part of Kazakhstan
Operator:	Owned by the National Atomic Company "KAZATOMPROM" and operated by its "MAEC-Kazatomprom" LLP.
Units:	One
Total capacity:	1000 MW (thermal)
First criticality:	1972
Start of operation:	1973
Fuel:	Uranium enriched to 17%, 21%, and 26%
Status:	The plant was shut down since April 1999 and defuelling took place in October of 2000.

BN-350 reactor facility - fast neutron sodium-cooled reactor - is located near Aktau city in the part of the eastern Caspian Sea shore belonging to the Republic of Kazakhstan. It was designed and built for electricity generation and seawater desalination for the Aktau region.

The BN-350 reactor was commissioned in 1973 and operated for its design life of 20 years.

In 1993 on the basis of estimation of actual reactor condition, qualified personnel availability and taking into consideration significant progress in fulfillment of measures by safety enhancement it was concluded about possibility of extension of BN-350 reactor facility lifetime until 2003. Thereafter it operated on the basis of annual licenses of the regulatory body - The Kazakhstan Atomic Energy Committee (KAEC) and positive conclusion of its safety level from General Designer (VNIPIET, St. Peterburg, Russian Federation), Chief Designer (OKBM, Nizhni Novgorod, Russian Federation) and research Manager (FEI, Obninsk, Russian Federation) of reactor facility.

Due to financial and technical problems it was made conclusion that the further use of reactor is not safe. In April of 1999, the Government of the Republic of Kazakhstan adopted the Decree on the Decommission of BN-350 reactor.

As the decision on the reactor decommissioning was adopted before the end of scheduled operation (2003), the plan to decommission the BN-350 reactor had not yet been developed. To determine the activities required for ensuring reactor safety and preparation for decommissioning, the Ministry of Energy and Mineral Resources of the Republic of Kazakhstan had developed and approved a "Plan of priority measures on BN-350 reactor decommissioning". This plan has the status of managerial and ruling document and defines the activity on provision the safety BN-350 and preparation to decommissioning during the period while the "Project of BN-350 Decommissioning" has not been approved. By now the following activities have been fulfilled:

1. All spent nuclear fuel if transferred from interim spent fuel storage facility at the BN-350 site to long-term spent fuel storage facility at Baikal-1 site.

2. Drainage of primary radioactive sodium has been carried out and primary radioactive sodium is in storage vessels. Secondary nonradioactive sodium is drained and utilized.

3. Technical Design for Liquid Radioactive Waste Processing Facility has been developed.

4. Technical Task for Solid Radioactive Waste Processing Facility design has been developed.

5. The main works on Combined Engineering and Radiation Survey (KIRO) of systems and components of 1 and 2 cooling circuits as well as of other reactor plant engineering systems and external communications have been completed.

Scheduled decommissioning phases

DECOMMISSIONNING PHASE	Dates
	From	To
Reactor core defuelling	1999	2000
Partial dismantling	2000	Continued
Spent fuel packaging period	1999	2001
Spent fuel store period in the reactor pool	2001	Finished November 2010

Management of fuel removal

FUEL MANAGEMENT	Dates
	From	To
Transfer to at-reactor facility	1999	2001
Storage in on-site facility	2001	Continued
Under water storage	2001	Continued
Encapsulation	1999	2001
“Cold run” with TUK-123	December of 2009
TUKs with spent nuclear fuel have been transferred to long-term spent fuel storage facility at Baikal-1 site	January of 2010	November 2010
TUKs with spent nuclear fuel are set to long-term spent fuel storage facility at Baikal-1 site	November 2010	Continued

2.2.2 Research reactors

Type:	WWR-K, water cooled, moderated and reflected tank-type reactor
Location:	Alatau, near Almaty
Operator:	Owned by the National Nuclear Centre (NNC) and operated by its Institute of Nuclear Physics (INP)
Total capacity:	10 MW
Start of operation:	1967
Fuel:	U-Al fuel with a U235 enrichment of 36%
Status	In operation

Now WWR-K is in a stage of conversion of nuclear fuel to low enriched nuclear fuel. 278 fuel assemblies were returned to Russian Federation since December 2008 to May 2009. Testing of experimental fuel assemblies with law enrichment fuel will take place after approval of Atomic Energy Committee.

Type:	IGR, impulse homogeneous uranium-graphite thermal neutron reactor with graphite reflector
Location:	Kurchatov
Operator:	Owned by the National Nuclear Centre and operated by its Institute of Atomic Energy (IAE)
Start of operation:	1961
Fuel:	Enriched to over 90% U
Capacity	in steady-state conditions – 1*106 KW; in pulse condition – 1*107 KW
Heat release:	Maximum energy-release: in steady-state conditions - 5,2 Gjoules; 1 GJ in a pulse
Neutron flux:	Maximum thermal 0.7*1017cm-2 s-1
Status	In operation

Type:	EWG-1M, thermal light water heterogeneous vessel reactor with light water Moderator and coolant, beryllium reflector
Location:	Kurchatov
Operator:	Owned by NNC and operated by its IAE
Total capacity:	60 MW (thermal)
First criticality:	1972
Fuel:	U-Zr fuel with U235 enrichment of 90%
Neutron flux:	1.7-3.4*1014cm-2 s-1
Status	In operation

Type:	RA thermal neutron high temperature gas heterogeneous reactor with air coolant, zirconium hydride moderator, beryllium reflector
Location:	Kurchatov
Operator:	Owned by NNC and operated by its IAE
Total capacity:	up to 0.4 MW
First criticality:	1986
Fuel:	Ampoule bodies with 90% U235 enrichment
Neutron flux:	Up to 5*1012cm-2 s-1
Status	Fuel is unloaded
Source: Country Information

2.3  Supply of NPPs

A joint resolution on nuclear safety and technical support for nuclear energy facilities in Kazakhstan was signed between Kazakhstan Atomic Energy Agency (KAEA) and Russian Federation's Ministry of Atomic Energy in 90-teens.

The BN-350 reactor was designed and constructed by organizations of the former Soviet Union, under the supervision of the Ministry of Atomic Energy (MINATOM). The chief scientific supervisor is the Institute of Physics and Power engineering (IPPE, Obninsk). The chief designer is the Experimental Design Bureau on Machinery Building (OKBM-N, Novgorod), and main constructor is the All Russian Scientific Research and Design Institute for Power Technologies (VNIIPIET, Moscow). The plant is operated by "MAEC-Kazatomprom" LLP, which is affiliated enterprise of the National Atomic Company "KAZATOMPROM". At the present, the regulatory body supervising the plant safety is the Kazakhstan Atomic Energy Committee (KAEC).

2.4 Operation of NPPs

The BN-350 reactor is owned by National Atomic Company "KAZATOMPROM" and operated by LLP "MAEC-Kazatomprom". The reactor was shut down according the decree of the Kazakhstan Government on April 22, 1999. The decision was taken to place it into SAFSTOR state for 50 years with subsequent final dismantling. Now the works on putting of the reactor into SAFSTOR are carrying out. The fuel is unloaded and packaged into canisters and now they are in a temporary store in the reactor cooling ponds. TUKs with spent fuel are transferred from BN-350 site long-term spent fuel storage facility at Baikal-1 site.

About 220 people are working at the power plant. There are 5 shifts. The task of these shifts is maintenance of the reactor in nuclear, radiation and fire safety.

2.5 Fuel Cycle and Waste Management

Kazakhstan has more than 50 uranium deposits in six provinces: the Kokshetau province in the north and the Pribalkhashsky province in the south have endogenetic type uranium deposits; Iliskaya, Chu-Sarysu, Syr-Dariya, and Prikaspiy provinces have endogenic type deposits. Deposits in Chu-Sayusu and Syr-Dariya provinces are located in sand penetrating sediments and are useful for in-situ leaching processes.

Waste from uranium mining and milling constitutes more than 90% of all radioactive waste in Kazakhstan. Therefore, implementation of the Republic's Concept on the radioactive waste management is the main task.

The Ulba Metallurgical Plant (UMZ) started production of UO₂ fuel pellets in 1976. Physical and chemical technologies are used at all stages of production, from treatment of UF6 material, to conversion into UO₂, production of UO₂ pellets, and sintering of the pellets. Quality control is maintained during all process stages. The design capacity of the plant is 2,000 tons of pellets per year. Fuel assemblies from UMZ are used at nuclear power plants in Russia, the Ukraine, and other countries. The U²³⁵ content is 1.6-5 %. UMZ also produces rare earth metal products and super conducting materials. Now construction of full fuel cycle joint plant on the basis of UMZ is under consideration.

2.6 Research and Development

Kazakhstan has four research reactors at the National Nuclear Centre where the following research is carried out:

1. radiation material science; study of the interaction between construction materials and coolants; investigation of fission produced emission from fuel rods, its precipitation and filtration under different conditions;

2. safety of nuclear power plants; fuel assemblies and rod tests at transition and break-down modes of operation; simulation of reactor core fragment melting and interaction of melted material with coolant;

3. development and implementation of nuclear physics methods and technologies; production of isotopes for different applications, for example, thallium-201 chloride for early diagnostics of heart decease.

2.7 International Co-operation and Initiatives

Kazakhstan national projects under the program of technical cooperation with

IAEA for 2009-2011

1	Nuclear Knowledge Management and Preservation in Kazakhstan.	KAZ/0/003
2	Improving Wheat and Maize Using Nuclear and Molecular Techniques.	KAZ/5/002
3	Establishing a Nuclear Medicine Department at the East Kazakhstan Oncology Centre ? 2.	KAZ/6/009
4	High-Performance Neutron Activation Analysis for Needs of Kazakhstan Industry.	KAZ/8/006
5	Supporting Upgrades and Conversion of WWR-K Reactor to Low-enriched Uranium Fuel.	KAZ/9/010
6	Supporting Radioecological Monitoring.	KAZ/9/011

European Regional projects of IAEA for 2009-2011 in which Kazakhstan is taking part

1	Improving Educational and Training Capabilities in Nuclear Science and Applications	RER/0/028
2	Supporting the Introduction of Nuclear Energy (Phase II) ?? 2011?. ?? ??? – 300 000 ???????? ???.	RER/0/029
3	Strengthening Capabilities for Nuclear Knowledge Preservation	RER/0/030
4	Strengthening Sustainability of Nuclear Research and Development Institutes in the Modern Science and Technology Environment	RER/0/031
5	Building Country and Regional Capacity, and Assisting in Programme Planning and Monitoring	RER/0/032
6	Characterizing Seasonal Variations in Elemental Particulate Matter Concentrations in European Urban and Rural Areas under Different Climatic Conditions	RER/2/005
7	Supporting the Repatriation, Management and Disposition of Fresh and/or Spent Nuclear Fuel from Research Reactors	RER/3/006
8	Improving Quality Management of Radioactive Waste.	RER/3/007
9	Support in Planning the Decommissioning of Nuclear Power Plants and Research Reactors (Phase II).	RER/3/009
10	Supporting Preparation for Remediation of Uranium Production Legacy Sites.	RER/3/010
11	Strengthening Capabilities for Nuclear Power Plant Performance and Service Life Including Engineering Aspects (Phase II).	RER/4/030
12	Improving Quality Management and Quality Assurance in Nuclear Power Plant Constructing, Equipment Manufacturing and Maintenance Activities.	RER/4/031
13	Enhancement of the Sustainability of Research Reactors and Their Safe Operation Through Regional Cooperation, Networking and Coalitions.	RER/4/032
14	Improving Clinical Practice in Nuclear Medicine (Phase II)	RER/6/017
15	Strengthening Regional Capacity in Medical Radiation Physics (Phase II)	RER/6/018
16	Improving Clinical Practice in Radiation Oncology (Phase II).	RER/6/019
17	Quality Assurance Team in Radiation Oncology: Improving the Quality of Radiotherapy Services (Phase II).	RER/6/020
18	Developing Sustainable Strategies for National Cancer Control	RER/6/021
19	Providing Technical Support for Implementing Modern Approaches and Tools for the Assessment of Radiation Impact on Terrestrial and Freshwater Environments	RER/7/005
20	Supporting Radiation Synthesis and the Characterization of Nanomaterials for Health Care, Environmental Protection and Clean Energy Applications	RER/8/014
21	Enhancing Quality Control Methods and Procedures for Radiation Technology	RER/8/017
22	Strengthening Safety Assessment Capabilities	RER/9/095
23	Strengthening National Infrastructures for the Control of Radiation Sources (TSA1), (Phase II)	RER/9/096
24	Strengthening National Capabilities for Radiological Protection of Workers and Occupational Exposure Control	RER/9/097
25	Improving Safety Management Systems and Operation Feedback	RER/9/098
26	Strengthening the Effectiveness of Regulatory Authorities and Advanced Training in Nuclear Safety	RER/9/099
27	Developing National Arrangements and Capabilities for Preparedness and Response to a Nuclear and Radiological Emergency	RER/9/100
28	Building Competence Through Education and Training in Support of Radiation Protection Infrastructures	RER/9/101
29	Developing Human Resources in Nuclear Security	RER/9/102
30	Training in Radioactive Waste Disposal Technologies Using Underground Research Facilities	RER/9/103

3.  NATIONAL LAWS AND REGULATIONS

3.1 Safety Authority and the Licensing Process

The Kazakhstan Atomic Energy Committee (KAEC) is the Nuclear Regulatory Body of the Republic of Kazakhstan. The following laws and regulations determine the procedure for licensing:

1. Law on licensing;

2. Law on use of atomic energy;

3. Regulation on licensing rules and qualifying requirements claimed to licensable kinds of activities in the sphere of atomic energy use

The licensing stages for nuclear installations can be briefly represented as follows:

1. Application for the License;

2. Analysis of application materials;

3. Inspection at the nuclear installation;

4. Conclusion on application materials examination;

5. Conclusion on nuclear installation inspection;

6. General conclusion on obtaining license; License.

3.2 Main National Laws and Regulations

The following laws are relevant for nuclear energy:

1. Law on use of atomic energy;

2. Law on radiation safety of population;

3. Law on licensing;

4. Ecology Code

5. Regulation on licensing rules and qualifying requirements claimed to licensable kinds of activities in the sphere of atomic energy use

6. Regulation on the Atomic Energy Committee of the Republic of Kazakhstan.

7. Technical requirement “Nuclear and radiation safety of research nuclear facilities”, adopted by the Government Decree, July 1, 2010

8. Technical requirement “Nuclear and radiation safety of NPP”, adopted by the Government Decree, July 1, 2010

9. Technical requirement “Nuclear and radiation safety”, adopted by the Government Decree, July 30, 2010

All regulating documents have been compiled into a "List of main technical documents of the Republic of Kazakhstan in the field of atomic energy use”.

4.  CURRENT ISSUES AND DEVELOPMENTS ON NUCLEAR POWER

4.1 Energy Policy

The current policy in the field of atomic energy emphasizes:

1. maintenance of existing facilities in accordance with international safety standards;

2. support of scientific, technical, design and construction connections with Russian Federation and other CIS countries and establishing contacts with international organizations;

3. creation of state system of accountancy and control of nuclear materials in accordance with Non-Proliferation Treaty obligations and Agreement on Safeguards that is expected to be ratified by Presidential Decree in the near future;

4. improvement of regulations for congruence with other CIS regulations;

5. liquidation of results of nuclear explosions;

6. creation of a radioactive waste storage and disposal system.

APPENDIX 1: INTERNATIONAL, MULTILATERAL AND BILATERAL AGREEMENTS

INTERNATIONAL AGREEMENTS

NPT related agreement INFCIRC/504	Entry into force:	11.08.1995
Additional protocol	Signed	6.02.2004
Supplementary agreement on provision of technical assistance by the IAEA	Entry into force:	25.03.1997
Agreement on privileges and immunities	Entry into force:	9.04.1998
NPT	Entry into force:	14.02.1994
Convention on the physical protection of nuclear material	Signed	22.12.2004
Convention on early notification of a nuclear accident	Entry into force	08.04.2010
Convention on assistance in the case of a nuclear accident or radiological emergency	Entry into force	08.04.2010
Convention on nuclear safety	Entry into force	08.06.2010
Joint convention on the safety of spent fuel management and on the safety of radioactive waste management	Entry into force	08.06.2010
Vienna Convention on Civil Liability for Nuclear Damage	signed	10.02.2011
ZANGGER Committee	member	18.11.2008
Nuclear Export Guidelines	Signed	13.05.2002
International Convention on Struggle with Acts of Nuclear Terrorism	Ratified	14.05.2008

BILATERAL AGREEMENTS

1. The Agreement between the Russian Federation and the Republic of Kazakhstan on the Peaceful use of Atomic Energy.

2. The Agreement between the Russian Federation and the Republic of Kazakhstan on Transportation of fission materials.

3. Agreement of KAEA and GAN of the Russian Federation on co-operation in the field of nuclear safety.

4. Agreement of KAEA and NRC of the USA on technical information exchange and co-operation in the field of nuclear safety.

5. The Agreement for Co-operation between the United States of America and the Republic of Kazakhstan concerning Peaceful uses of nuclear energy.

6. The Agreement for co-operation between European Atomic Energy Community and the Republic of Kazakhstan in the field of nuclear safety.

7. The Agreement for co-operation between European Atomic Energy Community and the Republic of Kazakhstan in the field of guided nuclear fusion.

8. The Agreement for cooperation between the Republic of Korea and the Republic of Kazakhstan concerning Peaceful uses of nuclear energy.

APPENDIX 2: MAIN ORGANIZATIONS, INSTITUTIONS AND COMPANIES INVOLVED IN NUCLEAR POWER RELATED ACTIVITIES

DIRECTORY OF THE MAIN ORGANIZATIONS, INSTITUTIONS AND COMPANIES INVOLVED IN NUCLEAR POWER RELATED ACTIVITIES

NATIONAL ATOMIC ENERGY AUTHORITIES
Atomic Energy Committee of the Ministry of Industry and New Technologies of the Republic of Kazakhstan Orynbor St. 10, House of Ministries Astana, 010000	Tel: 7 7172 50 29 53 Fax: 7 7172 50 30 73 E-mail: adm@kaec.kz http://www.kaec.kz
OTHER RELEVANT ORGANIZATIONS
Nuclear Technology Safety Centre Lisa Chaikinoi St. 4 Almaty, 050020	Tel: 7 7272 646 801 Fax: 7 7272 646 803 http://www.ntsc.kz
Republican State Enterprise “National Nuclear Center of the Republic of Kazakhstan” Lenin St. 6, Vostochno-Kazakhstanskaya oblast, 071100	Tel: 7 722-51-2-33-33, Fax: 7 722-51 2-38-58
Institute of Radiation Safety and Ecology of the National Nuclear Centre of the Republic of Kazakhstan” Krasnoarmejskaya St. 4 Vostochno-Kazakhstanskaya oblast, 071100	Tel./Fax: 7 7225 123 413
Institute of Atomic Energy of the National Nuclear Centre of the Republic of Kazakhstan” Krasnoarmejskaya St. 10 Vostochno-Kazakhstanskaya oblast, , 071100	Tel: 7 7225 123 202 Fax: 7 7225 123 125
Institute of Nuclear Physics of the National Nuclear Centre of the Republic of Kazakhstan” Ibragimova St.1, Almaty , 050032	Tel: 7 7272 546 467 Fax: 7 7272 546 517
"MAEC-Kazatomprom" LLP Aktau Mangistauskaya oblast, 130000	Tel: 7 7292 564 821 Fax: 7 7292 334 364
State Corporation for Atomic Energy and Industry "KATEP" LLP Prigorodnaya St. 9 Almaty, 050052	Tel: 7 7272 788 829 Fax: 7 7272 920 487
National Atomic Company "KAZATOMPROM" Bogenbai Batyr St. 168 Almaty, 050012	Tel: 7 7272 615 425 Fax: 7 7272 503 541 http://www.kazatomprom.kz
“Institute for High Technologies” LLP Bogenbai Batyr St. 168 Almaty, 050012	Tel: 7 727 226 93 31 Fax: 7 727 226 93 61
Joint Stock Company ”Volkovgeologiya” Bogenbai Batyr St. 168 Almaty, 050012	Tel: 7 727 250 13 59 Fax: 7 727 250 13 59
Joint Stock Company "UMZ" Abai St. 102 Ust-Kamenogorsk, 071100	Tel: 7 7232 298 009 Fax: 7 7232 240 683 http://www.pjsc-ulba.com/eng/index.htm

Attachments

Kazakhstan_2011.pdf