Resolution of the President of the Republic of Uzbekistan dated 06/08/2020 N PP-4740

Resolution

President of the Republic of Uzbekistan

On measures to organize the activities of the University of Geological Sciences in the system of the State Committee of the Republic of Uzbekistan on Geology and Mineral Resources

No.	Name of educational areas (specialties)
*Bachelor's degree*
1.	Geological survey, prospecting and exploration of mineral deposits
2.	Geology of oil and gas
3.	Hydrogeology and engineering geology
4.	Geophysical methods of prospecting and exploration of mineral deposits
5.	Geological exploration technology and techniques
6.	Mineral enrichment
7.	Economics of Geological Exploration
	*Master's degree*
8.	Geological survey
9.	GIS technologies and methods of remote sensing of the earth
10.	Geochemistry, mineralogy and petrology
11.	Search and exploration of deposits of ore and non-metallic minerals
12.	Geology of oil and gas
13.	Hydrogeology and engineering geology
14.	Geophysical methods of prospecting and exploration of mineral deposits
15.	Geological exploration technology and techniques
16.	Mineral enrichment

No.	Name of equipment and inventory	Quantity	HS code
I. Analytical equipment
1.	Inductively Coupled Plasma Mass Spectrometer	4	9027 30 000 0
2.	Laser ablation inductively coupled plasma mass spectrometer	1	9027 30 000 0
3.	Molecular Weight Particle Size Analyzer	1	9027 50 000 0
4.	Romanovsky spectrometer	1	9027 30 000 0
5.	Electric melting furnace	2	8514 10 800 0
6.	Electric cupellation furnace	2	8514 10 800 0
7.	Atomic absorption spectrometer	2	9027 30 000 0
8.	Analytical balance	8	9016 00 100 0
9.	Microanalytical balance	2	9016 00 100 0
10.	Technical scales	3	9016 00 100 0
11.	Drying cabinet	10	8419 39 000 9
12.	Microwave sample preparation system	6	8514 20 800 0
13.	Wireless Thermal Sample Digestion System (HotBlock)	12	8419 89 989 0
14.	Inductively Coupled Plasma Atomic Emission Spectrometer	6	9027 30 000 0
15.	Differential Scanning Calorimeter (DSC)/Differential Thermal Analyzer (DTA)	2	9027 80 170 0
16.	Total Carbon Analyzer for Solid Samples	1	9027 80 170 0
17.	X-ray fluorescence analyzer with furnace and press	4	9027 80 170 0
18.	Muffle furnace (1100°C)	10	8514 10 800 0
19.	Drying oven	2	8514 10 800 0
20.	Acid Purification System	3	8421 29 000 9
21.	Reverse Osmosis Ultra Water Purification System	2	8421 21 000 9
22.	Dual Beam Ultraviolet Spectrophotometer	2	9027 30 000 0
23.	Automatic titrator	4	9027 80 170 0
24.	Hot plate	22	8516 60 900 0
25.	High performance liquid chromatograph mass spectrometer	1	9027 20 000 0
26.	Total Carbon and Total Bound Nitrogen Analyzer for Water and Liquid Samples	1	9027 50 000 0
27.	Multimeter (pH meter/ion meter)	10	9027 80 110 0
28.	Laboratory turbidimeter (turbidimeter)	6	9027 50 000 0
29.	Laboratory stirrer (magnetic)	31	8479 82 000 0
30.	Mercury analyzer	2	9027 80 170 0
31.	Centrifuge	6	8421 19 200 9
32.	Chromato-mass spectrometer	2	9027 20 000 0
33.	System for combined analysis methods (TG-IR-GC/MS)	1	9027 80 170 0
34.	Carbon and Sulfur Analyzer	2	9027 80 170 0
35.	Elemental analyzer C/N/S/Cl	2	9027 80 170 0
36.	Densitometer viscometer	2	9027 80 170 0
37.	Flash point apparatus (open and closed crucible)	2	9025 19 200 0
38.	Alpha radiation spectrometer	2	9027 30 000 0
39.	Beta-radiation spectrometer	2	9027 30 000 0
40.	Gamma-ray spectrometer	2	9027 30 000 0
41.	Standard samples of isotopic composition	1	3822 00 000 0
42.	Laboratory glassware included	1	7017 90 000 0
43.	Compressor	10	8414 80 280 0
44.	Analytical calibration balance	1	9016 00 100 0
45.	Pipette calibration device	1	8479 89 970 9
46.	Calibration weights	2	8423 90 000 1
47.	Automatic complex for calibration of laboratory sieves	1	9604 00 000 0
48.	Desiccator with tap	20	7017 90 000 0
49.	Ion chromatograph	1	9027 20 000 0
50.	Electronic metrological sensor (weather station)	26	9025 80 400 0
51.	Precision air conditioner	2	8415 81 009 0
52.	Fume hood	16	8414 60 000 0
53.	Neutralization unit (scrubber) for fume hoods	8	8421 39 800 7
54.	Lead collection collector	1	8421 39 800 7
55.	Water treatment station for chemical analytical laboratory	1	8421 21 000 9
	Total	278
II. Technological devices
56.	Concentration table (table deck area 0.5 m²)	1	8479 89 970 9
57.	Concentration table (table deck area 0.2 m²)	1	8479 89 970 9
58.	Concentration table (Hallman)	1	8479 89 970 9
59.	Knelson Laboratory Centrifugal Concentrator	1	8421 19 200 9
60.	Laboratory deposition machine (12 - 20 l)	1	8479 89 970 9
61.	Scales (150 kg)	2	8423 82 900 0
62.	Scales (30 kg)	2	8423 81 900 0
63.	Scales (6 kg)	4	8423 82 900 0
64.	Laboratory flotation machine (0.1-0.5 l)	2	8474 10 000 0
65.	Laboratory flotation machine (0.5 - 1 l)	2	8474 10 000 0
66.	Laboratory flotation machine (1.5 - 3 l)	2	8474 10 000 0
67.	Laboratory flotation machine (12 - 15 l)	1	8474 10 000 0
68.	Multimeter (pH meter/ion meter)	5	9027 80 110 0
69.	Autoclave (high pressure reactor)	1	8419 20 000 0
70.	Magnetic separator	2	8474 10 000 0
71.	Stationary Densitometer	2	9024 80 900 0
72.	Portable Density Meter	2	9024 80 900 0
73.	Stirrer with heating	4	8479 82 000 0
74.	Overhead electric laboratory stirrer	10	8479 82 000 0
75.	Chemical reactor (0.5 - 1 l)	5	8479 82 000 0
76.	Chemical reactor (10 - 35 l)	2	8479 82 000 0
77.	Nutsche filter (0.3 - 1.5 l)	10	8421 29 000 9
78.	Nutsche filter (10 - 25 l)	2	8421 29 000 9
79.	Hot plate	6	8516 60 900 0
80.	ORP meter device (with calibration solutions)	6	9027 80 110 0
81.	Peristaltic pump	4	8413 82 009 9
82.	Pipette dispenser	10	8479 89 970 9
83.	Percolation plant	2	8479 89 970 9
84.	Electrolysis bath	2	8543 30 000 0
85.	Analytical balance	4	9016 00 100 0
86.	Water distiller	4	8419 40 000 9
87.	Muffle furnace (1,100°C)	6	8514 10 800 0
88.	Muffle furnace (1,800°C)	2	8514 10 800 0
89.	Sterile autoclave	2	8419 20 000 0
90.	Fermenter-bioreactor	2	8419 89 989 0
91.	Shaker incubator	2	8419 89 989 0
92.	Binocular microscope	2	9011 80 000 0
93.	Electronic microscope with photo/video output, high-resolution color digital camera, materialographic module	4	9011 80 000 0
94.	Electron probe microanalyzer	1	9027 50 000 0
95.	X-ray diffractometer	1	9022 19 000 0
96.	Automated grinding and polishing machine	2	8464 20 800 0
97.	Precision cutting machine for cutting and grinding geological samples	1	8464 10 000 0
98.	Sample pressing press	3	8479 89 970 9
99.	Automated devices and systems for conducting physical and mechanical studies of rocks and soils (Asis)	1	9024 80 900 0
100.	Automatic stone cutting machine	2	8464 10 000 0
101.	Climate chamber heat-humidity-cold	2	8419 89 989 0
102.	Automatic hydraulic press	2	8479 30 100 9
103.	Drying cabinet	5	8419 39 000 9
104.	Boehme's device (abrasion tester)	2	9024 10 130 0
105.	Automated device "Vika"	2	9024 80 900 0
106.	Grinding machine	2	8464 20 800 0
107.	Laboratory balance beam-densitometer	3	9016 00 100 0
108.	Spread cone	3	9024 80 190 0
109.	Laboratory of instruments for quality control of clay solutions	4	9027 80 990 0
110.	Device for determining the friction coefficient of the filter cake of drilling fluid	3	9027 80 990 0
111.	Hardness tester	1	9024 80 190 0
112.	Whiteness meter device	2	9027 80 170 0
113.	Technical scales	2	9016 00 100 0
114.	Hydrostatic scales	2	9016 00 100 0
115.	Automatic vibrating sieves	5	8474 10 000 0
116.	Stickiness Tester	2	9031 80 980 0
117.	Device for determining the soaking of rocks	2	9024 80 900 0
118.	Device for measuring static shear stress of clay solutions	3	9024 80 900 0
119.	Calcimeter	2	9027 80 170 0
120.	Device for determining the swelling coefficient of clays	5	9024 80 900 0
121.	Installation for determining the lubricating ability of solutions	2	9027 80 170 0
122.	Rotational viscometer	2	9027 80 170 0
123.	Viscometer	1	9027 80 170 0
124.	Surface tension device for solutions (stalagmometer)	2	9027 80 170 0
125.	Le Chagelier Volume Gauge	2	7017 90 000 0
126.	Desiccator with tap	20	7017 90 000 0
127.	Metrological sensor electronic	10	9025 80 400 0
128.	Device for determining the angle of slope of sand	3	9017 80 900 0
	Total	230
III. Crushing equipment
129.	Jaw crusher with divider	4	8474 20 000 0
130.	Roller crusher	2	8474 20 000 0
131.	Vertical Spindle Sprayer (2.1L)	1	8474 20 000 0
132.	Vibrating mill (2 l)	4	8474 20 000 0
133.	Planetary ball mill (200g)	2	8474 20 000 0
134.	Vibrating grinder IV-4	2	8474 20 000 0
135.	Ball mill for determining the grindability coefficient of ore (Bond index)	1	8474 20 000 0
136.	Rod mill for determining the grindability coefficient of ore (Bond index)	1	8474 20 000 0
137.	Wet ball mill (7 l)	4	8474 20 000 0
138.	Wet ball mill (3 l)	2	8474 20 000 0
139.	Rod mill (30 - 50 l)	2	8474 20 000 0
140.	Ball dry mill (14 l)	4	8474 20 000 0
141.	Disc mill (DM 400)	1	8474 20 000 0
142.	Slotted sample divider (3 l)	2	8479 89 970 9
143.	Slotted sample divider (15 l)	2	8479 89 970 9
144.	Slotted sample divider (30 l)	2	8479 89 970 9
145.	Automatic sifting machine (200mm)	4	8474 10 000 0
146.	Automatic sifting machine (400mm)	3	8474 10 000 0
147.	Inclined vibrating screen	2	8474 10 000 0
148.	Ultrasonic bath (Ø200 and Ø 400mm)	3	8479 89 970 9
149.	Drying cabinet	2	8419 39 000 9
150.	Bead mill	2	8474 32 000 0
151.	Porcelain mill	2	8474 20 000 0
152.	Scales (150 kg)	2	8423 82 900 0
153.	Scales (30 kg)	2	8423 81 900 0
154.	Dust collector (10,000m3 ^/ h)	1	8508 19 000 9
	Total	59
IV. Information and communication equipment
155.	Server	3	8471 50 000 0
156.	Uninterruptible power supply	3	8504 40 840 0 8504 40 880 0
157.	Software (operating system with licenses)	3	4911 99 000 0 8523 49 250 0 8523 49 910 1 8523 49 910 9 8523 49 930 0 8523 49 990 0 8523 51 910 1 8523 51 910 9 8523 51 930 0 8523 51 990 0
158.	Data storage system	1	8471 70 500 0
159.	Communication cabinet	1	9403 20 800 0
160.	Network equipment	10	8517 62 000 1
161.	Communication equipment	2	8517 62 000 1
162.	Wi-fi adapter	70	8517 62 000 1
163.	Computer	100	8471 49 000 0
	Total	193
V. Inventory
	Furniture, including:	1 100
164.	Laboratory fume hoods	50	8414 60 000 0
165.	Chemical table (Kottermann)	200	9403 89 000 0
166.	Metal tables	100	9403 20 800 0
167.	Wooden tables	100	9403 60 900 0
168.	Armchairs	150	9401 30 000 1
169.	Metal chairs	200	9401 71 000 9
170.	Metal cabinets (Kottermann)	100	9403 20 800 0
171.	Wooden cabinets	200	9403 60 900 0
	Laboratory glassware, including:	65
172.	Set of laboratory measuring glassware for chemical decomposition (class A)	50	7017 90 000 0
173.	Laboratory glassware (special and other classes)	15	7017 90 000 0
	Total	1 165
Total		1 925

No.	Name of measures	Mechanisms implementations	Implementation deadlines	Responsible persons
1.	Formation of the University of Geological Sciences (hereinafter referred to as the University).	1. Development, approval and state registration of the University Charter.	July 2020	State Committee on Geology (B. Islamov)
		2. Development and approval of the organizational structure and staffing schedule of the University.	August 2020
2.	Admission and organization of the student education process at the University in the 2020/2021 academic year.	1. Creation of conditions for the admission and training of University students in the 2020/2021 academic year in the buildings of the Faculty of Mining and educational laboratories of the Tashkent State Technical University named after I. Karimov until the commissioning of the University buildings and structures.	June 2020	Ministry of Higher and Secondary Specialized Education (I. Majidov), State Committee on Geology (B. Islamov), State Testing Center (M. Karimov)
		2. Conducting the student admission process to the University for the 2020/2021 academic year in accordance with the requirements.	Until September 1st 2020
		3. Development and approval of subject programs and curricula of the University.	Until September 1st 2020
3.	Formation of the University's teaching staff.	Ensuring that the University’s teaching staff is staffed with highly qualified personnel, including through research associates from research institutes.	Until September 1st 2020	State Committee on Geology (B. Islamov), Ministry of Higher and Secondary Specialized Education (I. Majidov)
4.	Construction and commissioning of buildings and structures of the University. Equipping the University with the necessary educational equipment and office equipment (furniture, interactive boards, computers, servers, printers, plotters, etc.).	1. Construction, completion of installation works and commissioning of the main educational building, residences for teachers and students, as well as other University structures necessary for the start of the educational process.	July 2020	State Committee on Geology (B. Islamov), Khokimiyat Tashkent city (Zh. Artikkhodzhaev), Ministry of Construction (B. Zakirov), Ministry of Finance (T. Ishmetov)
		2. Equipping the University with the necessary primary educational equipment and office equipment (furniture, interactive whiteboards, computers, servers, printers, plotters, etc.) to support the educational process.	August 2020
		3. Construction, full completion of installation works and commissioning of all buildings and structures (research institutes, laboratories and others) of the University.	October 2020
5.	Equipping the University’s Center for Geo-Innovative Technologies with modern laboratory and technological equipment and necessary inventory.	1. Conclusion of contracts (with manufacturers or their official dealers) for the acquisition of modern laboratory and technological equipment and inventory necessary for the Center for Geo-Innovative Technologies.	November 2020	JSC Navoi Mining and Metallurgical Combine (K. Sanakulov), JSC Almalyk Mining and Metallurgical Combine (A. Khursanov), State Committee on Geology (B. Islamov)
		2. Purchase of laboratory and technological equipment and inventory.	December 2020
		3. Ensuring the supply of laboratory and technological equipment and inventory to the Center for Geo-Innovative Technologies.	2020-2021 years
		4. Carrying out work on equipping with laboratory and technological equipment.	2020-2021 years
6.	Providing the University's educational block with integrated software for monitoring the educational process (assessing the assignment and the progress of its resolution, automatic attendance records and assessment of students' performance by subject and others).	1. Creation of a monitoring system (lectures, laboratory classes, educational and industrial practice, etc.) of the educational process at the University.	August 2020	State Committee on Geology (B. Islamov), Ministry of Finance (T. Ishmetov), Ministry for the Development of Information Technologies and Communications (Sh. Sadikov), Ministry of Higher and Secondary Specialized Education (I. Majidov)
		2. Establishing automatic attendance records and monitoring of students’ level of mastery of subjects through an electronic system.	August 2020
		3. Providing the University’s educational block with integrated software.	August 2020
7.	Establishing the educational process at the University.	1. Creation of faculties, departments and educational laboratories corresponding to the educational specialties of the University.	August 2020	State Committee on Geology (B. Islamov), Ministry of Finance (T. Ishmetov), Ministry of Higher and Secondary Specialized Education (I. Majidov)
		2. Development and approval of interactive teaching methods, curricula and programs for each specialty.	August 2020
8.	Organizing the selection of students for the University, participation in the processes of training mid-level personnel for the industry.	1. Participation, from the point of view of methodology, in the training of mid-level personnel in vocational schools, colleges and technical schools of the vocational education system in the relevant sectors.	Starting from the 2020/2021 academic year on a permanent basis	State Committee on Geology (B. Islamov), Ministry of Higher and Secondary Specialized Education (I. Majidov), Ministry of Finance (T. Ishmetov)
		2. Development of proposals for education from the 2022/2023 academic year of the Academic Lyceum at the University.	November 2021
9.	Improving the system of advanced training for workers in the geological industry.	1. Critical review of the current system of advanced training for workers in the geological industry and preparation of proposals for its improvement.	July 2020	State Committee on Geology (B. Islamov)
		2. Adoption of an updated system for improving the qualifications of workers in the geological industry.	August 2020
10.	Accommodation of research institutes of the State Committee on Geology in the buildings and structures of the University.	1. Placement of research institutes in the buildings and structures of the University, based on the areas of their activities.	September 2020	State Committee on Geology (B. Islamov)
		2. Providing research institutes with the necessary furniture and equipment.	December 2020
		3. Full support for the activities of research institutes in the new conditions.	January 2021
11.	Development of fundamental, applied and innovative research in geological sciences in close connection with the current tasks of the geological industry within the framework of annual state programs for the development and reproduction of the mineral resource base.	1. Formation of a list of fundamental, applied and innovative research projects based on the current tasks of the geological industry.	Annually, until October 15	Ministry of Economic Development and Poverty Reduction (D. Kuchkarov), Ministry of Finance (T. Ishmetov), State Committee on Geology (B. Islamov), industry research institutes
		2. Inclusion of projects in annual state programs for the development and reproduction of the mineral resource base.	Annually, until December 31st
		3. Ensuring the inclusion and participation of faculty and students in the process of preparing these projects.	According to schedule
		4. Establishing financing for projects with the aim of their effective implementation.	Monthly
12.	Implementation of additional measures for digitalization of geological data.	1. Development of a unified electronic platform for mineral resources.	Until March 1, 2021	State Committee on Geology (B. Islamov)
		2. Organization of advanced training courses at the University for personnel on remote sensing of mineral deposits using digital aerospace images.	Based on the approved schedule
13.	Strengthening measures to commercialize the results of fundamental, applied and innovative research projects carried out on the basis of deepening cooperation between the research institutes of the University and organizations of the geological industry, JSC Navoi MMC, JSC Almalyk MMC, JSC Uzbekneftegaz, JSC Uzbekgidroenergo, Uzsanoatkurilishmateriallari Association, the Ministry of Innovative Development, the Ministry of Housing and Public Utilities and others.	1. Formation of a system for the implementation of effective cooperation between the research institutes of the University and organizations of the geological industry, JSC Navoi MMC, JSC Almalyk MMC, JSC Uzbekneftegaz, JSC Uzbekgidroenergo, Uzsanoatkurilishmateriallari Association, the Ministry of Innovative Development, the Ministry of Housing and Public Utilities and others.	December 2020	State Committee on Geology (B. Islamov), JSC Navoi Mining and Metallurgical Company (K. Sanakulov), JSC Almalyk Mining and Metallurgical Company (A. Khursanov), JSC "Uzbekneftegaz" (M. Abdullaev), JSC "Uzbekhydroenergo" (A. Sanginov), Association "Uzsanoatkurilish-materiallari" (B. Zaripov), Ministry of Innovative Development (I. Abdurakhmanov), Ministry of Housing and Public Utilities (M. Saliev), University
		2. Ensuring the implementation of individual measures for the implementation of each joint project, the introduction of expected results and their commercialization.	Within the specified timeframe
		3. Strengthening the participation of professors, teachers and students of the University in the implementation of projects.	According to the project implementation schedules
14.	Taking measures to stimulate the implementation of research projects within the framework of interdepartmental cooperation through the adoption of the Regulation on separate remuneration of employees of research institutes of the University.	1. Preparation and approval in accordance with the established procedure of a draft Regulation providing for incentives for employees of research institutes at the University through separate payment for their work.	July 2020	State Committee on Geology (B. Islamov), industry research institutes
		2. Strengthening the implementation of research projects by employees of research institutes within the framework of interdepartmental cooperation and establishing incentives for project participants.	Annually, December
15.	Formation and establishment of the activities of the Interdepartmental Scientific and Technical Council to find practical solutions to current issues through geological study of mineral resources, consideration of problematic issues of their use and protection, as well as the formation and implementation of a portfolio of short-term, medium-term and long-term promising projects in priority areas of scientific research at the University.	1. Formation and establishment of the activities of the Interdepartmental Scientific and Technical Council in scientific areas at the University.	September 2020	State Committee on Geology (B. Islamov), JSC Navoi GMK (K. Sanakulov), JSC Almalyk GMK (A. Khursanov), JSC Uzbekneftegaz (M. Abdullaev), JSC Uzbekgidroenergo (A. Sanginov), Association Uzsanoatkurilish-materiallari (B. Zaripov), Ministry of Innovative Development (I. Abdurakhmanov), Ministry of Housing and Public Utilities (M. Saliev), University
		2. Formation of a portfolio of short-term, medium-term and long-term promising projects in priority areas.	December 2020
		3. Ensuring that discussions are held at the University and the Interdepartmental Scientific and Technical Council on each current issue, projects and their implementation according to jurisdiction.	According to the work schedule of the scientific and technical council
16.	Development of the scientific potential of the University by increasing the number of international grants implemented by research institutes.	1. Preparation and approval of a long-term plan for cooperation between research institutes and foreign organizations.	December 2020	State Committee on Geology (B. Islamov), Ministry of Innovative Development (I. Abdurakhmanov), Ministry of Investments and Foreign Trade (Sh. Vafaev), industry research institutes
		2. Organization of integration with higher educational and research institutions in the geological field that have high ratings in the world.	April 2021
		3. Implementation of projects aimed at solving urgent scientific problems of global scale through funds that finance international grants in the areas of geology.	In the agreed deadlines
		4. Increasing the scientific potential of the University by publishing scientific articles in publications included in the list of databases of international scientific journals, as well as increasing participation in international scientific events (congresses, conferences, seminars, etc.).	On a systemic basis
17.	Ensuring effective operation of the University on a permanent basis.	1. Organization of the University’s activities in accordance with the goals and objectives defined in the Charter.	On an ongoing basis	State Committee on Geology (B. Islamov), Ministry of Higher and Secondary Specialized Education (I. Majidov)
		2. Implementation of measures necessary to ensure the effective operation of the University on an ongoing basis.	Weekly
18.	Ensuring the effective operation of the State Geological Museum within the University.	1. Construction of a new building for the State Geological Museum based on modern experience with the involvement of foreign specialists.	March 2021	State Committee on Geology (B. Islamov)
		2. Ensuring that the museum and its exhibits are equipped in accordance with international requirements.	June 2021
		3. Preparation of a concept for the museum’s activities, linking it to the educational process.	August 2020
		4. Ensuring the effective operation of the museum in accordance with its objectives.	On an ongoing basis

1.	A.N. Aripov	—	Prime Minister of the Republic of Uzbekistan, Chairman of the Board of Trustees
2.	B.A. Musaev	—	Deputy Prime Minister of the Republic of Uzbekistan, Deputy Chairman of the Board of Trustees
3.	B.F. Islamov	—	Chairman of the State Committee on Geology and Mineral Resources , Deputy Chairman of the Board of Trustees
4.	I.U. Majidov	—	Minister of Higher and Secondary Specialized Education, Deputy Chairman of the Board of Trustees
5.	B.S. Yuldashev	—	President of the Academy of Sciences
6.	I.Yu. Abdurakhmanov	—	Minister of Innovative Development
7.	T.A. Ishmetov	—	Minister of Finance
8.	By agreement	—	representative of the Saint Petersburg Mining University (Russian Federation)
9 .	K.S. Sanakulov	—	General Director of JSC Navoi Mining and Metallurgical Combine
10 .	A.Kh. Khursanov	—	Chairman of the Board of JSC Almalyk Mining and Metallurgical Combine
1 1 .	M.R. Abdullaev	—	Chairman of the Board of JSC Uzbekneftegaz
1 2 .	By position	—	Rector of the University of Geological Sciences, Secretary of the Board of Trustees

No.	Topics of scientific projects	Deadlines	Volumes and sources of financing	Expected Key Points results
JSC Almalyk Mining and Metallurgical Complex
1.	A detailed study of the material composition and forms of formation of gold, copper and other associated elements by solving technological problems of ore dumps (dump No. 1).	2020 - 2024	1,450 million soums, JSC Almalyk Mining and Metallurgical Combine	Detailed study of the material composition and forms of formation of gold, copper, molybdenum and other associated elements to determine the technological properties. As a result of the technological assessment, the possibility of processing off-balance ores is recommended.
2.	Study of attraction zones of linear and tubular ore rocks in the structures of the Uzun and South-East Uzun sites with the aim of identifying zones of gold mineralization.	2020 - 2023	1,650 million soums, JSC Almalyk Mining and Metallurgical Combine	Study of the petrographic composition of the argillizite formation wallrock alterations and the mineralogical and geochemical composition of the ore formations paragenetically associated with them. Determination of the distribution pattern of elements associated with gold to assess the complexity of ores. Development of petrographic criteria for mineralogical and geochemical exploration and assessment, as well as hidden gold mineralization.
3.	Comprehensive in-depth forecasting of gold-silver, copper and rare metal mineralization in the Almalyk-Angren mountain region.	2020 - 2022	1,450 million soums, JSC Almalyk Mining and Metallurgical Combine	Study of near-ore alterations of quartz-feldspar, beresite-listvenite and argillizite formations and mineralogical and geochemical composition of ore formations, paragenetically related to them. Development of prospecting and evaluation, mineralogical and geochemical and petrographic criteria of hidden gold mineralization.
4.	Development of a geological and oil and gas model of the Aktepa-Chadak fluid-magmatic ore-generating system specializing in rare and rare earth metals.	2020 - 2022	1,550 million soums, JSC Almalyk Mining and Metallurgical Combine	Determination of the conditions of formation and nature of the placement of ore-bearing fluid-magmatic formations at the Oktepa silver deposit and the Chodak gold-silver deposit. Development of a geological and petrological model of the “Aktepa-Chadak” fluid -magmatic ore-generating system, specializing in gold and rare metals. Development of recommendations for a set of petrological, mineralogical and geochemical criteria, as well as conducting subsequent exploration and evaluation work to search for silver and gold-silver mineralization.
5.	A detailed study of the material composition and form of formation of gold, copper and other associated elements by solving technological problems of ore dumps (dumps No. 2 and 3).	2021-2022 years	1,550 million soums, JSC Almalyk Mining and Metallurgical Combine	A detailed study of the material composition and forms of formation of gold, copper, molybdenum and other binding elements to determine the technological properties. As a result of the technological assessment, the possibility of processing off-balance ores is recommended.
6.	A detailed study of the material composition and form of formation of gold, copper and other associated elements by solving technological problems of oxidized ore dumps.	2022-2023	1,650 million soums, JSC Almalyk Mining and Metallurgical Combine	A detailed study of the material composition and forms of occurrence of gold, copper, molybdenum and other associated elements to determine the technological properties. As a result of the technological assessment, the possibility of processing off-balance ores is recommended.
7.	Ecological and geochemical assessment of the impact of mining enterprises on the environment. Development of indicators for assessing the condition of soil, plants and water.	2022-2023	1,650 million soums, JSC Almalyk Mining and Metallurgical Combine	Compilation of maps of anomalies in the distribution of heavy metal content in the Almalyk mining region, identification of ecologically hazardous forms of heavy metals (Hg, Pb, Zn, Cd, As, etc.), assessment of biodiversity and tolerance of soil microorganisms, and development of recommendations for reducing the negative impact of heavy metals.
8.	Improving the technology for extracting valuable components from the material composition of ores at the Khandiza and Chinorsoy deposits based on their study.	Starting from July 2020	1,100 million soums, JSC Almalyk Mining and Metallurgical Combine	Study of the material composition of ores and the forms of occurrence of valuable components in the composition of ores with the development of an effective technology for their extraction.
9.	Development of technology for extracting a complex of precious metals from the ores of the Yoshlik-1 deposit and pyrite concentrate based on the study of their forms of occurrence.	2020-2021 years	950 million soums, JSC Almalyk Mining and Metallurgical Combine	Development of technology for processing ores and pyrite concentrate from the Yoshlik-1 deposit.
10.	Development of technology for extracting the element indium from zinc production solutions.	2020-2021 years	2,000 million soums, JSC Almalyk Mining and Metallurgical Combine	Achieving the associated extraction of the element indium from zinc production solutions and waste.
11.	Technological studies of gold-bearing ores at the facilities of the Angren Mining Administration.	2020-2021 years	820 million soums, JSC Almalyk Mining and Metallurgical Combine	Based on comparison with the existing one, development of a new technology for ore processing by determining the gold and silver extraction rates.
12.	Study and analysis of reliability, as well as the selection of the most optimal testing method in the process of ore mining at the Kalmakyr and Yoshlik-1 deposits.	2020-2021 years	1,040 million soums, JSC Almalyk Mining and Metallurgical Combine	Ensuring the highest reliability of analytical results during ore mining.
13.	Comparison of geological exploration and production data at the Guzaksay and Pirmirab gold deposits.	2021 year	500 million soums, JSC Almalyk Mining and Metallurgical Combine	Creating the possibility of increasing the efficiency of production during mining operations by optimizing the reserves of the deposit.
14.	Division into zones of classification of drilling types and categories of difficulty of mining rocks from quarries.	2022 year	2,100 million soums, JSC Almalyk Mining and Metallurgical Combine	Achieving efficient use of mining equipment during mining operations.
15.	Creation of a 3D model of structural faults and lithology at the combined quarry "Kalmakyr" and "Yoshlik-1".	2022 year	4,500 million soums, JSC Almalyk Mining and Metallurgical Combine	Creating the ability to predict the impact of the lithological composition of formations and structural faults in them on the production process.
16.	Consideration of the conditions of the technical and economic justification of the options for indicators of 2.0 g/t, 1.5 g/t and 1.0 g/t at the Kauldy deposit.	2021 year	600 million soums, JSC Almalyk Mining and Metallurgical Combine	Increasing the possibility of efficient development of the raw material base of the Kauldy deposit.
17.	Development of a technological regime for enrichment of stale tailings of copper processing plant No. 1.	2022 - 2023	500 million soums, JSC Almalyk Mining and Metallurgical Combine	Study of the material composition of accumulated stale tailings and development of technological regulations for their processing.
JSC Navoi Mining and Metallurgical Combine
18.	Conducting research in the poorly studied territory of the Ziaetdin -Zirabulak mining region with the aim of identifying potential gold mineralization sites .		800 million soums, JSC Navoi Mining and Metallurgical Combine	Expansion of the raw material base of GMZ-1.
19.	A detailed study of the composition and form of determination of gold and other associated elements in the ore of the Karakutan deposit and the products of its technological processing.	2020 year	450 million soums, JSC Navoi Mining and Metallurgical Combine	Study of the material composition of ores, forms of gold and silver occurrence, and identification of factors of raw material resistance. Improvement of technological processes of gold mining based on in-depth study of its composition.
20.	Study of the material composition and forms of gold and other associated elements, development of technology for processing waste from hydrometallurgical plant No. 2, as well as preparation of solutions to technological and environmental problems	2021 year	1,000 million soums, JSC Navoi Mining and Metallurgical Combine	Development of technology for processing industrial waste from GMZ-2, expansion of the plant’s raw material base.
21.	A detailed study of the material composition and forms of gold and other associated elements, development of technology for processing waste from hydrometallurgical plant No. 1, as well as solutions to technological and environmental problems.	2021 year	800 million soums, JSC Navoi Mining and Metallurgical Combine	Development of technology for processing waste and off-balance ores of GMZ-1, expansion of the plant's raw material base. Reduction of groundwater pollution and negative anthropogenic impact on the atmosphere.
22.	Study of geological and geochemical indicators of micromineral associations and various mineralization formations of the Central Kyzylkum as a basis for determining the technological properties, geological and industrial types of ores.	2021 year	1,000 million soums, JSC Navoi Mining and Metallurgical Combine	Identification of the most important paragenetic associations of gold and associated metals, determination of the physicochemical conditions for the formation of gold ore mineralization, determination of its main types.
23.	Ecological and geochemical assessment of the impact of mining enterprises on the environment. Development of indicators for assessing the condition of soil, plants and water.	2022 year	2,000 million soums, JSC Navoi Mining and Metallurgical Combine	Assessment of the impact of enterprises on the environment, determination of criteria for regulatory parameters for regulating atmospheric pollution.
24.	Comprehensive analysis of basic geological exploration data by identifying sites with oxidized ores for the needs of hydrometallurgical plant No. 3.	2022 year	3,500 million soums, JSC Navoi Mining and Metallurgical Combine	Preparation of geological and structural sections with identification of the boundaries of zones of oxidized ores, cementation and sulfidization.
25.	Identification of the relationship between intrusive rocks of different ages, study as a basis for a petrometallogenic platform for searching and forecasting the mineralization of metasomatites and mineralized heterogenes in Central Kyzylkum.	2023 year	3,500 million soums, JSC Navoi Mining and Metallurgical Combine	Identification of the metallogenic potential of the Central Kyzylkum areas.
26.	Determination of the mineral composition, main and associated components of ores and their multicomponent composition by substantiating the results obtained on the basis of modern theoretical developments and the application of high-precision methods for studying the Turbay deposit.	2023 year	3,500 million soums, JSC Navoi Mining and Metallurgical Combine	Identification of promising areas for gold mineralization, preparation of a detailed geological map of the deposit at a scale of 1:10,000.
27.	Study of ore-bearing capacity of small intrusions and petrogenesis of dykes of gold deposits of Central Kyzylkum.	2023 year	4,000 million soums, JSC Navoi Mining and Metallurgical Combine	Determination of the search direction for gold mining under the sedimentary cover.
28.	Conducting geophysical research in the Western Tamdytau area to search for Muruntau-type deposits.	2023 year	4,000 million soums, JSC Navoi Mining and Metallurgical Combine	Compilation of a forecast map of mineral resources at a scale of 1:100,000 based on materials from Western Tamdytau
29.	Study of mineralization of uranium and fluorite deposits in Eastern Uzbekistan with the aim of assessing their potential for rare and rare earth metals (Nb, Ta, REE and others).	2023 year	4,200 million soums, JSC Navoi Mining and Metallurgical Combine	Study of typification and formation of magmatic, post-magmatic formations in the formation of rare metal ores and rare earth mineralization at uranium ore and fluorite sites in Eastern Uzbekistan.
30.	Re-evaluation of gold and associated mineralization in the Kyzylkum and Samarkand mining regions with the identification of promising sites.	2023 year	4,000 million soums, JSC Navoi Mining and Metallurgical Combine	Preparation of a forecast map for gold mineralization at a scale of 1:200,000 with the identification of promising areas for gold.
31.	Study of alkaline metasomatism with rare earth mineralization in granitoids of Uzbekistan.	2024 year	4,000 million soums, JSC Navoi Mining and Metallurgical Combine	Study of the petrological structure of the formation of rare earth paragenesis in accordance with the types of granitoid magmatism.
32.	Determination of the relationship between intrusive rocks of different ages, metasomatites and mineralization as a basis for a petrometallogenic platform for the search and prediction of heterogeneous mineralization in Western Uzbekistan.	2024 year	3,500 million soums, JSC Navoi Mining and Metallurgical Combine	Establishing a genetic link between mineralization and various types of intrusions and metasomatites. Developing a petrometallogenetic basis for determining metallogenic potential with the distribution of promising objects for individual types of mineralization.
33.	Study of gold mineralization for the continuation of known deposits, ore-bearing structures covered by Meso-Cenozoic deposits, a combination of geological-geochemical and remote sensing methods.	2024 year	3,500 million soums, JSC Navoi Mining and Metallurgical Combine	Development of forecasting criteria and maps of prospective areas at a scale of 1:100,000 and 1:200,000 of the location of known gold ore deposits.
34.	Factors of formation and regional distribution of Central Kyzylkum ore-magmatic systems as a basis for predicting hidden mineralization (fundamental).	2020 - 2025	9,000 million soums, JSC Navoi Mining and Metallurgical Combine	Evaluation of the prospects of the Central Kyzylkum mountain-magmatic system of Uzbekistan. Allocation of forecast areas for prospective mineralization.
35.	Selection, study and analysis of the reliability of the most optimal testing method during operational exploration and mining of ores from small-scale deposits of the Auminzo-Amantaytay ore field.	2020 year	500 million soums, JSC Navoi Mining and Metallurgical Combine	Ensuring the highest reliability of results and reducing labor costs.
36.	Comparison of exploration and production data at the Charmitan gold deposit, assessment of its reserves.	2020 year	235 million soums, JSC Navoi Mining and Metallurgical Combine	In accordance with the requirements of the Resolution of the Cabinet of Ministers of the Republic of Uzbekistan dated November 9, 2007 No. 232, the creation of an opportunity to organize the write-off of mineral reserves
37.	Study of the material composition of ores from the Nukrakon deposit.	2020 year	800 million soums, JSC Navoi Mining and Metallurgical Combine	Study of the material composition of ores, forms of gold and silver occurrence, volumes of selenium, tellurides and carbonaceous substances in the ore.