Pavel Talalay

Pavel Grigorievich Talalay
Pavel Grigorievich Talalay
	Pavel Talalay in Greenland, 2017
Born	October 14, 1962; St. Petersburg, Russia
Title	Professor of Engineering
Spouse	Ekaterina Talalay
Children	Grigorii Talalay, Anastasiia Talalay, Evdokiia Ostashevskaia, Kseniia Treydel, Efrosiniia Talalay

Pavel Grigorievich Talalay (Russian: Павел Григорьевич Талалай) (born October 14, 1962), is a Russian professor of drilling engineering and director of the Institute for Polar Science and Engineering in Jilin University, Changchun, China. His research interests are focused on different features of drilling technology in ice and permafrost; dynamics of ice sheets; ice properties and environmental issues in polar regions.

Career

Talalay acquired Drilling Engineer (1984), Ph.D. (1995) and Doctor of Engineering (2007) degrees at the Saint Petersburg Mining University of Russia, where he has also worked as Professor and Chair of Department of Descriptive Geometry and Engineering Drawing.^[1] Talalay was a guest Researcher in the Niels Bohr Institute of Copenhagen University, Denmark (1998-1999). In 2010, Talalay was invited to work at Jilin University within the framework of the Chinese state program “Attracting 1000 highly qualified specialists”.^[2] Later, Talalay became the Director of the Polar Research Center of Jilin University.^[3] Since 2009, Talalay is a member of Technical Assistance Board, U.S. NSF Ice Drilling Program (IDP) of the University of Wisconsin–Madison, USA.^[4] In 2023-2024 Prof Talalay was the leader of the Chinese-Russian drilling project to study the in-situ dynamics and conditions at the bed of the Northwestern Princess Elizabeth Land, East Antarctic Ice Sheet.^[5] The project succeeded in penetration through the 545 m thick ice and recovered the unique 0.48 m bedrock sample.^[6] Talalay is a member of Steering Committee of SCAR Groundwater Action Group.^[7] Talalay is the author of over 200 publication, 90 patents, and 20 books, book-chapters and textbooks, most notable of which are Mechanical Ice Drilling Technology,^[8] Thermal Ice Drilling Technology,^[9] Geotechnical and Exploration Drilling in the Polar Regions.^[10] and Mining and Construction in Snow and Ice.^[11]

Expeditions in Antarctica and the Arctic

Talalay participated in six field expeditions in Antarctica and the Arctic. In 1999-2001 he took part in the North Greenland Ice Core Project (NorthGRIP) yielded the deepest borehole in Greenland ice sheet (3085 m; 2003). He has been a part in a Russian project to create deepest borehole in ice at Vostok Station, Antarctica that contacted in February 2012 with the subglacial Lake Vostok at a depth 3769.3 m. In 2019, Talalay lead a research project that yielded the first bedrock sample beneath East Antarctica, near the Zhongshan Station, in more than 60 years.^[12]

Awards and recognition

Talalay was awarded the Second-Class Diploma of IV All-Russian context of science-popular articles “Science-Society-2005”,^[13] 2006 International Geneva Salon of Inventions Gold Medal, won the 2009 International Contest on 3D-Moldelling. In 2014, he was awarded the Chinese Government's Friendship Award for “outstanding contribution to the country's economic and social progress”.^[14] In 2024, Talalay was elected a full member of the Russian Academy of Mining Sciences^[15], and in 2025, he was elected a foreign academician of the Chinese Academy of Engineering.^[16]

Bibliography

I. Books, book-chapters and textbooks

Talalay PG (2025) Ice core methods. Ice core drilling. In: S Elias (Ed) Encyclopedia of Quaternary Science, 3rd Edition, Vol. 3, Elsevier, UK, pp 45-62. ISBN 978-0-443-29997-1
Talalay PG (2024) Mining and construction in snow and ice. From test pits to long tunnels. Springer Cham, 252 p. ISBN 978-3-031-76507-0
Talalay PG (2022) Geotechnical and exploration drilling in the polar regions. Springer Cham, 387 p. ISBN 978-3-031-07268-0
Talalay PG (2021) The technicalities of ice drilling. In: G Foscari (Ed) Antarctic Resolution. UNLESS, pp 252-255. ISBN 978-3-037-78640-6
Talalay PG (2020) Thermal ice drilling technology. Springer Geophysics, 278 p. ISBN 978-981-13-8847-7
Zacny K, Paulsen G, Bar-Cohen Y, Bao X, Badescu M, Lee HJ, Sherrit S, Zagorodnov V, Thompson L, and Talalay P (2016) Drilling and breaking ice. In: Y Bar-Cohen (Ed) Low temperature materials and mechanisms. CRC Press, pp 271-347. ISBN 978-1498700399
Talalay PG (2016) Mechanical ice drilling technology. Springer Geophysics, 284 p. ISBN 978-981-10-0559-6
Talalay PG (2014) Foundations of drilling engineering. Geological Publishing House, Beijing, China, 194 p. ISBN 978-7-116-08971-6
Talalay PG (2011) Nachertatel'naya geometriya na primerah: Uchebnoe posobie [Descriptive geometry with examples: Textbook]. Saint-Petersburg, BHV-Peterburg, 270 p. ISBN 978-5-9775-0641-0
Talalay PG (2010) Nachertatel'naya geometriya. Inzhenernaya grafika. Internet-testirovanie bazovyh znanij [Descriptive geometry. Engineering graphics. Online testing of basic knowledge]. Saint-Petersburg, Lan', 288 p. ISBN 978-5-8114-1078-1
Talalay PG (2010) KOMPAS-3D V11 na primerah [COMPAS-3D V11 with examples]. Saint-Petersburg, BHV-Peterburg, 624 p. ISBN 978-5-9775-0414-0
Talalay PG (2010) Komp'yuternyj kurs nachertatel'noj geometrii na baze KOMPAS-3D [Computer course in descriptive geometry based on KOMPAS-3D]. Saint-Petersburg, BHV-Peterburg, 608 p. ISBN 978-5-9775-0440-9
Talalay PG (2008) KOMPAS-3D V9 na primerah [COMPAS-3D V11 with examples]. Saint-Petersburg, BHV-Peterburg, 592 p. ISBN 978-5-9775-0141-5
Ueda HT and Talalay PG (2007). Fifty years of Soviet and Russian drilling activity in Polar and Non-Polar ice. A chronological history. Cold Region Research and Engineering Laboratory, Hanover, USA, ERDC/CRREL TR-07-20, 131 p. http://hdl.handle.net/11681/5303
Bobin NE, Talalay PG, and Eist YuA (2003) Inzhenernaya grafika. Nachertatel'naya geometriya: Uchebnoe posobie po resheniyu kontrol'nyh zadach [Engineering graphics. Descriptive geometry: Textbook for solving testing tasks]. Saint-Petersburg, Saint-Petersburg State Mining Institute, 73 p.
Bobin NE, Talalay PG, Galushkin SS, Muraev YuD, Onishchin VP, Pashkevich VM, and Eist YuA (2002) Inzhenernaya grafika. Osnovy nachertatel'noj geometrii, chercheniya, i mashinnoj grafiki: Uchebnoe posobie [Engineering graphics. Fundamentals of descriptive geometry, drawing and machine graphics: Textbook]. Saint-Petersburg, Saint-Petersburg State Mining Institute, 94 p.
Chistyakov VK, Talalay PG, Yakovlev AM, and Yakovlev AA (1999) Promyvochnye sredy dlya bureniya skvazhin v merzlyh porodah i l'dah [Circulating mediums for drilling in frozen rocks and ice]. Moscow, Geoinformmark, 78 p.
Talalay PG and Gundestrup NS (1999) Hole fluids for deep ice core drilling: A review. University of Copenhagen, Copenhagen, 120 p. doi.org/10.2312/report_icedrill
Litvinenko VS, Talalay PG, and Chistyakov VK (1996) Promyvochnye sredy dlya bureniya skvazhin v kriolitozone i lednikah: Uchebnoe posobie [Circulation mediums for drilling in permafrost and glaciers: Textbook]. Saint-Petersburg, Saint-Petersburg State Mining Institute, 69 p.
Kudryashov BB, Talalay PG, and Chistyakov VK (1991). Burenie skvazhin v snezhno-firnovyh i ledovyh tolshchah za rubezhom [Drilling ice and snow-firn formations abroad]. Tekhnika, tekhnol. i organizaciya geol.-razved. rabot: Obzor [Technique, technology and organization of geological exploration: An overview] Moscow, VIEMS Publishing House, 57 p.
Bobin NE. Vasiliev NI, Kudryashov BB, Stepanov GK, and Talalay PG (1988). Mekhanicheskoe burenie skvazhin vo l'du: Uchebnoe posobie [Mechanical drilling in ice: Textbook]. Leningrad, Leningrad Mining Institute, 90 p.

II. Peer-reviewed journal articles

2026

Talalay PG, Zhang N, Fan X, Li Y, Gong D, and Li B (2026) Borehole geophysical studies in glaciers. Part I: Borehole logging. Earth-Science Reviews 273, 105357. doi.org/10.1016/j.earscirev.2025.105357.

2025

Abdrakhmanov I, Leitchenkov G, Skublov S, Talalay P, Salimgaraeva L, Zhang N, and Li B (2025) Neoproterozoic crustal evolution of Rayner province, East Antarctica: New insight from subglacial drilling. Polar Science, 101314. doi.org/10.1016/j.polar.2025.101314.
Abdrakhmanov IA, Leitchenkov GL, Skublov SG, Talalay PG, Salimgaraeva LI, and Zhang N (2025) First data on the composition and age of subglacial rock from a magnetic anomaly zone (Princess Elizabeth Land, East Antarctica). Transactions of the Karelian Research Centre of the Russian Academy of Sciences 5, 44-48. doi.org/10.17076/geo2186.
Talalay PG and Sysoev MA (2025) Geoengineering interventions in the Antarctic ice sheet: A potential solution to the effects of global warming, or a scientific utopia? Arctic and Antarctic Research 71(3), 334–345. doi.org/10.30758/0555-2648-2025-71-3-334-345.
Sysoev MA, Talalay PG, Fan X, Zhang N, Gong D, Hong J, Yang Y, and Wang T (2025) Hot-point ice thermal drills: Design parameters, recommendations, and examples. Water 17, 2650. doi.org/10.3390/w17172650.
Zhang J, Shan X, Zhang N, Talalay P, Wei C, Wang Y, Tang S, and Li Y (2025) Distinct P–T evolution of Pan-African HT–LP metamorphism recorded by paragneisses from the Larsemann Hills, East Antarctica, and tectonic implications: Phase equilibria and geochronological constraints. Lithos 514–515, 108202. doi.org/10.1016/j.lithos.2025.108202.
Wei X, Talalay PG, Gong D, Li Y, Fan X, and Zhao G (2025) Thermal Sidewall Ice Corer (TSIC) to recover samples from boreholes drilled in glaciers and ice sheets. J Glaciol 71, e63, 1–9. doi.org/10.1017/jog.2025.11.
Hong J, Xu J, Wang T, Han Z, Chi Z, Talalay P, Gong D, and Fan X (2025) Strength and deformation behavior of snow-sintered ice under coupled cyclic-monotonic loading. Eng Fract Mech 324, 111266. doi.org/10.1016/j.engfracmech.2025.111266.
Deng Z, Sun Y, Fan X, Talalay P, Yang Y, Liu X, Gong D, Li B, Wang T, Wu W, Zhang N, and Wei X (2025) Experimental study on the hole-forming process at the borehole bottom during hot water drilling in ice and its influence mechanisms. J Mar Sci Eng, 13, 817. doi.org/10.3390/jmse13040817.
Cui H, Han J, Li B, Sun Y, Gong D, Fan X, Talalay P, Zhang D, Gao L, and Jiang H (2025) Bacterial distribution in the glacier borehole meltwater on the Eastern Broknes Peninsula of the Larsemann Hills and adjacent lakewater, East Antarctica. Microorganisms 13, 679. doi.org/10.3390/microorganisms13030679
Talalay PG, Leitchenkov G, Lipenkov V., Sun Y, Zhang N, Gong D, Liu Y, Li Y, Sun Y, Abdrakhmanov I, Vorobyev M, Khalimov D, Fan X, Salamatin A, Ekaykin AA, and Bing Li B (2025) Rare ice-base temperature measurements in Antarctica reveal a cold base in contrast with predictions. Commun Earth Environ 6, 189. doi.org/10.1038/s43247-025-02127-1
Sysoev MA, Talalay PG, Fan X, Zhang N, Gong D, Yang Y, Wang T, and Deng Z (2025) A steerable system for the RECoverable Autonomous Sonde (RECAS) to access and study subglacial lakes. Geosci Instrum Method Data Syst 14, 29–43. doi.org/10.5194/gi-14-29-2025.
Deng Z, Sun Y, Fan X, Talalay P, Li B, Wang T, Li Y, Yu H, Wang D, Xu J, Xu L, An C, Peng S, Zhang N, Chang C, Chen Y, Liu Y, Yang Y, Wang Y, Wei X, Wang R, Wang Z, Ni X, Wu W, and Gong D (2025) Environmentally friendly sampling and observation system for exploration of Antarctic subglacial lakes. Water 17, 696. doi.org/10.3390/w17050696.
Fan X, Li C, Chu D, Li B, Gong D, Li A, Yang Y, Liu X, Zhang N, Talalay P (2025) Analysis of the factors influencing the drilling tilt of a recyclable hot melt sonde in the access borehole to subglacial lake. Journal of Jilin University (Earth Science Edition), P634.7. doi.org/10.13278/j.cnki.jjuese.20240196. [In Chinese]

2024

Bai H, Zhang N, Talalay P, Chen Y, Liu Y, Fan X, Gong D, and Han B (2024) High precision measurement method and device optimization design for the cross sectional shape of borehole walls in polar ice caps. Chinese Journal of Polar Research 3, 563-573. doi.org/10.13679/j.jdyj.20230070. [In Chinese]
Sysoev MA, Talalay PG, Fan X, Gong D, Wang T, and Liu Y (2024) Autonomous ice-core drilling system based on polar rover. Advances in Polar Science 35 (4), 482-486. doi.org/10.12429/j.advps.2024.0034.
Wang,Y, Sun Y, Liu L, Li X, Li B, Li Y, Gong D, Talalay P, and Fan X (2024) Study on ice temperature fields and borehole closure rates during thermal ice drilling. Water 2024, 16, 3460. doi.org/10.3390/w16233460.
Leitchenkov GL, Talalay PG, Zhang N, Abdrachmanov IA, M. A. Vorobyov MA, Gong D, Liu Y, Li Y, Sun Y, Lavrentiev II, Ekaykin AA, Khalimov DR, Li B, and Lipenkov VY (2024) Ice drilling on Princess Elizabeth Land (East Antarctica) aimed to study bedrock and Late Quaternary paleoclimate. Led i sneg [Ice and Snow] 64(2), 293-298. doi.org/10.31857/S2076673424020125. [In Russian]
Talalay PG and Fan X (2024) Alternative clean approaches to accessing subglacial Lake Vostok. Arctic and Antarctic Research 70 (Supp), 39-53. doi.org/10.30758/0555-2648-2024-70-4-499-513.
Talalay PG, Zhang N, Fan X, Li B, Li Y, Yu H, Zuo H, Li L, Shi G, Shi W, Guo M, Yang Y, Wang T, Gong D, Hong J, and Li Y (2024) General concept of a deep hot water drilling system and drilling strategy to access Subglacial Lake Qilin, East Antarctica. Arctic and Antarctic Research 70 (Supp), 54-64. doi.org/10.30758/0555-2648-2024-70-4-514-524.
Leitchenkov GL, Talalay PG, Zhang N, Abdrakhmanov IA, Gong D, Liu Y, Li Y, Sun Y, and Vorobyev M, Li B (2024) First targeted geological sampling beneath the East Antarctic Ice Sheet: Joint Russian-Chinese Drilling Project. Exploration and Protection of Mineral Resources, Spec Issue: July, 75-78.
Sun Y, Тalalay PG, Li Y, Wang D, Li G, Xu L, Gong D, Wang J, Wang J, Wang T, Zhang N, Wang Z, Chen Y, Liu Y, Li Y, Peng S, Shi J, An C, Ge Q, Xu J, Ni X, Cui Q, Jiang Q, Sysoev MA, Yang Y, Wang R, Wei X, Wang Y, Zhu T, Deng Z, Markov AN, Li B, and Fan X (2024) Exploring Antarctic subglacial lakes with RECoverable Autonomous Sonde (RECAS): Design and first field tests. Sci China Technol Sci 67, 1866–1878. doi.org/10.1007/s11431-023-2620-3.

2023

Zhang N, Wang Y, Talalay P, Fan X, Gong Da, Wang T, Han B, Wei X, Bai H, and Wang L (2023) Influence of meltwater on CO2 laser ice melting. Journal of Jilin University (Earth Science Edition) 53(6), 1854-1863. doi.org/10.13278/j.cnki.20230280. [In Chinese]
Talalay P, Xian T, Fan X, Li B Li Y, and Gong D (2023) Vibrocorer for undisturbed sampling of firn aquifer layers in Greenland: general concept. Advances in Polar Science, 34(3): 232-235. doi.org/10.12429/j.advps.2023.0001.
Talalay PG, Gong D, Fan X, Li Y, Leitchenkov G, Li B, Zhang N, Wang R, Yang Y, and Hong J (2023) Geothermal heat flow from borehole measurements at the margin of Princess Elizabeth Land (East Antarctic Ice Sheet). J Glaciol 69(277), 1524–1528. doi.org/10.1017/jog.2023.43.
Colgan, W, Shields C, Talalay P, Fan X, Lines AP, Elliott J, Rajaram H, Mankoff K, Jensen M, Backes M, Liu Y. Wei X, Karlsson NB, Spanggård H, and Pedersen AØ (2023) Design and performance of the Hotrod melt-tip ice-drilling system, Geosci Instrum. Method Data Syst, 12, 121–140. doi.org/10.5194/gi-12-121-2023.
Talalay PG (2023) Deep drilling in Antarctic ice: Methods and perspectives. Earth Sci Rev 243, 104471. doi.org/10.1016/j.earscirev.2023.104471.
Liu A, Talalay PG, Fan X, Yang Y, Gong D, and Wang R (2023) Theoretical and numerical simulation research about annual nozzle parameters influence on heat transfer in hot-water ice-coring drilling. Case Stud Therm Eng 47: 103122. doi.org/10.1016/j.csite.2023.103122.
Sun Y, Li B, Fan X, Li Y, Li G, Yu H, Li H, Wang D, Zhang N, Gong D, Wang R, Li Y, and Talalay PG (2023) Brief communication: New sonde to unravel the mystery of polar subglacial lakes, The Cryosphere 17, 1089–1095. doi.org/10.5194/tc-17-1089-2023.
Li Y, Talalay PG, Fan X, Li B, Xu L, Ye Y, and Wang Y (2023). New approaches to modeling the critical refreezing length of a Philberth. Polar Science 100926. doi.org/10.1016/j.polar.2023.100926.

2022

Wang R, Lv X, Liu A, Talalay P, Fan X, and Li X (2022) Theoretical and experimental research to remove hot water out of drill hose of deep hot-water drilling system. Polar Science 31, 100747. doi.org/10.1016/j.polar.2021.100747.
Liu A, Fan X, Talalay P, Wang R, and Li X (2022) Hot-water rescue ice drilling system to recover subglacial lake exploring sonde: General concept. Polar Science, 100919. doi.org/10.1016/j.polar.2022.100919.
Li Y, Talalay PG, Fan X, Gong D, Li B, Ye Y, Wang Y, and Wang T (2022) Heat transfer modelling of thermal anti-freezing method for ice hot-point drilling. Case Studies in Thermal Engineering 40, 102508. doi.org/10.1016/j.csite.2022.102508.
Talalay PG and Zhang N (2022) Antarctic mineral resources: Looking to the future of the Environmental Protocol. Earth Sci Rev 232, 104142. doi.org/10.1016/j.earscirev.2022.104142.
Zhang N and Talalay P (2022) Antarctic oil and mineral resources: A subject off limits or future reality? Authorea Preprints. doi.org/10.1002/essoar.10505822.1
Hong J, Talalay P, Man T, Li Y, Fan X, Li C, and Zhan N (2022) Effect of high-pressure sintering on snow density evolution: Experiments and results. J Glaciol 68(272), 1107-1115. doi.org/10.1017/jog.2022.11.
Zhao G, Talalay PG, Fan X, Zhang N, Liu Y, Wang T, and Chen Y (2022) Optimization of hot-water drilling in ice with near-bottom circulation. Water 14, 127. doi.org/10.3390/w14010127.

2021

Fan X, Zhang N, Hu Z, An C, Shi G, Gong D, Li B, Yang C, Li C, Liu K, Yu J, Liu B, Lu S, Ma T, Sun Y, Talalay P, and Li Y (2021) Progress of the deep ice core scientific drilling project of China at Kunlun Station in Antarctica. Drilling Engineering 48(9), 1-9. doi.org/10.12143/j.ztgc.2021.09.001. [In Chinese]
Wang Q, Li B, Talalay P, Sun Y, Zhang N, Gong D, Yang Y, and Fan X (2021) Drilling technology for deep ice and the subglacial lake at Vostok Station, Antarctica. Drilling Engineering 48(9), 35-46. doi.org/10.12143/j.ztgc.2021.09.004. [In Chinese]
Markov A, Talalay P, Sysoev M, Miller A, and Cherepakhin A (2021) Borehole multi-functional logger for geophysical high-precision monitoring in Antarctic and Greenland ice sheets and glaciers. Ann Glaciol 62(85-86), 374–384. doi.org/10.1017/aog.2021.17.
Li Y, Talalay PG, Fan X, Li B, and Hong J (2021) Modeling of hot-point drilling in ice. Ann Glaciol 62(85-86), 360–373. https://doi.org/10.1017/aog.2021.16.
Hu Z, Shi G, Talalay P, Li Y, Fan X, An C, Zhang N, Li C, Liu K, Yu J, Yang C, Li B, Liu B, and Ma T (2021) Deep ice-core drilling to 800m at Dome A in East Antarctica. Ann Glaciol 62(85-86), 293–304. doi.org/10.1017/aog.2021.2.
Yu H, Zhu T, Jiang X, Tang Y, Li X, Li C, Huang S, Shi J, Sun Y, Talalay P, Fan X, Li X, Li Y, and Peng S (2021) Recoverable Autonomous Sonde for subglacial lakes exploration: Heating control system design. Ann Glaciol 62(85-86), 280–292. doi.org/10.1017/aog.2021.5.
Peng S , Jiang X, Tang Y, Li C, Li X, Huang S, Zhu T, Shi J , Sun Y, Talalay P, Fan X, Zhang N, Li B, Da D, and Yu H (2021) Recoverable autonomous sonde for subglacial lake exploration: Electronic control system design. Ann Glaciol 62(85-86), 263–279. doi.org/10.1017/aog.2021.1.
Talalay PG, Zhao G, Gong D, Hong J, Fan X, Li Y, and Sysoev MA (2021) Ice drilling system with near-bottom hot water circulation. Polar Science 28, 100676. doi.org/10.1016/j.polar.2021.100676
Zhang N, Liu H, Talalay P, Sun Y, Li N Fan X, Li B, Gong D, Hong J, Wang T, Liu A, Li Y, Liu Y, Wang R, Yang Y, and Wang L (2021) New synthetic fiber armored cable for freezing-in thermal ice probes. Ann Glaciol 62(85-86), 179-190. doi.org/10.1017/aog.2020.74.
Li Y, Fan X, Talalay PG, Dou Y, Lu S, Kang S, Li X, and Hong J (2021) Shallow hotpoint drill system for active layer temperature measurement along Zhongshan–Dome A traverse, Antarctica. Ann Glaciol 62(84-85), 157-165. https://doi.org/10.1017/aog.2020.87.
Talalay PG and Hong J (2021) Perspectives for development of ice drilling technology: Continuation of the discussion. Ann Glaciol 62(84-85), 143-156. doi.org/10.1017/aog.2020.81.
Alemany O, Talalay P, Boissonneau P, Chappellaz J, Chemin JF, Duphil R, Lefebvre E, Piard L, Possenti PJ, and Triest J (2021) The SUBGLACIOR drilling probe: Hydraulic considerations. Ann Glaciol 62(84-85), 131-142. doi.org/10.1017/aog.2020.79.
Liu A, Wang R, Yang Y, Wang L, Li X, Li Y, and Talalay P (2021) Optimization of hot-water ice-coring drills. Ann Glaciol 62(84-85), 67-74. doi.org/10.1017/aog.2020.63.
Shi J, Huang S, Wang B, Li C, Peng S, Sun Y, Talalay P, and Yu H (2021) Design and analysis of deepwater tension sensors for ice drill application. Ann Glaciol 62(84-85), 46-52. doi.org/10.1017/aog.2020.71.
Zhang N, Talalay P, Liu J, Fan X, Kong Q, Yu H, Liu Y, Liu B, Gong D, Li X, Wu W, Hong J, and Sysoev M (2021) Antarctic subglacial drilling rig: Part IV. Electrical and electronic control system. Ann Glaciol 62(84-85), 34-45. doi.org/10.1017/aog.2020.40.
Fan X, Talalay P, Sun Y, Li X, Zhang N, Markov A, Yang Y, Cao P, Wang R, Liu Y, Liu Y, Wang T, Wu W, Yang C, Hong J, Gong D, Zhang H, Sysoev M, Li X, Liu A, and Li Y (2021) Antarctic subglacial drilling rig: Part III. Drilling auxiliaries and environmental measures. Ann Glaciol 62(84-85), 24-33. doi.org/10.1017/aog.2020.39.
Talalay P, Li X, Zhang N, Fan X, Sun Y, Cao P, Wang R, Yang Y, Liu Y, Liu Y, Wu W, Yang C, Hong J, Gong D, Zhang H, Li X, Chen Y, Liu A, and Li Y (2021) Antarctic subglacial drill rig. Part II: Ice and Bedrock Electromechanical Drill (IBED). Ann Glaciol 62(84-85), 12-22. https://doi.org/10.1017/aog.2020.38.
Talalay P, Sun Y, Fan X, Zhang N, Cao P, Wang R, Markov A, Li X, Yang Y, Sysoev M, Liu Y, Liu Y, Wu W, and Gong D (2021) Antarctic subglacial drilling rig: Part I. General concept and drilling shelter structure. Ann Glaciol 62(84), 1–11. doi.org/10.1017/aog.2020.37.

2020

Talalay P, Li Y, Augustin L, Clow GD, Hong J, Lefebvre E, Markov A, Motoyama H, and Ritz C (2020) Geothermal heat flux from measured temperature profiles in deep ice boreholes in Antarctica. The Cryosphere 14, 4021–4037. doi.org/10.5194/tc-14-4021-2020.
Talalay PG, Dahl-Jensen D, Hansen SB, Popp TJ, Steffensen JP, Nielsen K-E, and Zhang N (2020) Skvoz’ ledyanoi potok Grenlandii [Through the Greenland ice stream]. Priroda [Nature] 9, 18-31, doi.org/10.7868/S0032874X20090021 [in Russian]
Li Y, Yang Y, Fan X, Li X, and Talalay PG (2020) Power consumption of a Philberth thermal probe in ice sheet exploration. Cold Reg Sci Technol 177, 103114. doi.org/10.1016/j.coldregions.2020.103114.
Hong J, Talalay P, Zhang N, Fan X (2020) Controlling mechanism of temperature dependence of kinetic friction of ice. J Tribol 142, 081704. doi.org/10.1115/1.4046659.
Li Y, Talalay PG, Sysoev MA, Zagorodnov VS, Li X, and Fan X (2020) Thermal heads for melt drilling to subglacial lakes: Design and testing. Astrobiology 20(1), 1-15. doi.org/10.1089/ast.2019.2103.
Liu A, Yang Y, Fan X, Wang L, Fan D, Li X, and Talalay PG (2020) Hot-water coring system with positive displacement motor. Polar Science 23, 1-10. doi.org/10.1016/j.polar.2019.100502.

2019

Talalay P, Li X, Fan X, Yang Y, Li Y, Wang T, Li X, Liu A, and Zhao G (2019) Experimental investigation of water freezing and estimating refreezing time in ice boreholes. Cold Reg Sci Technol 166, 1-6. doi.org/10.1016/j.coldregions.2019.102822.
Gong D, Fan X, Li Y, Li B, Zhang N, Gromig R, Smith EC, Dummann W, Berger S, Eisen O, Tell J, Biskaborn BK, Koglin N, Wilhelms F, Broy B, Liu Y, Yang Y, Li X, Liu A, and Talalay P (2019) Coring of Antarctic subglacial sediments. J Mar Sci Eng 7(6), 194. doi.org/10.3390/jmse7060194.
Liu A, Wang R, Fan X, Yang Y, Li X, Wang L, and Talalay P (2019) Test-bed performance of an ice-coring drill used with a hot water drilling system. J Mar Sci Eng 7, 234. doi.org/10.3390/jmse7070234.
Talalay P, Li X, Gong D, Fan X, Zhang N, Yang Y, Liu Y, Liu Y, Wang T, and Li X (2019) Design and experiment of clamper used in Antarctic subglacial bedrock drilling. J Mar Sci Eng 7, 153. doi.org/10.3390/jmse7050153.
Talalay P, Liu N, Yang Y, Xu H, Sysoev M, and Fan X (2019) Ice drills recovery using chemical deicers. Polar Science 19, 49–56. doi.org/10.1016/j.polar.2018.08.005.
Chen C, Zhang H, Liu S, Jin C, Chen Y, Zhang N, and Talalay P (2019) Hydraulic fracturing in ice boreholes: Theory and tests. Polar Science 19, 40–48. doi.org/10.1016/j.polar.2018.10.003.
Hu Z, Talalay P, Zheng Z, Cao P, Shi G, Li Y, Fan X, and Ma H (2019) Air reverse circulation at the hole bottom in ice-core drilling. J Glaciol 65(249), 149–156. doi.org/10.1017/jog.2018.95.
Liu G, Talalay P, Wang R, Yang Y, Hong J, Gong D, Liu A, and Fan D (2019). Design parameters of hot-water drilling systems. Water 11, 289. doi.org/10.3390/w11020289.
Talalay PG, Li Y, Sysoev MA, Hong J, Li X, and Fan X (2019) Thermal tips for ice hot-point drilling: Experiments and preliminary thermal modeling. Cold Reg Sci Technol 160, 97-109. doi.org/10.1016/j.coldregions.2019.01.015.

2018

Talalay P, Sun Y, Zhao Y, Li Y, Cao P, Markov A, Xu H, Wang R, Zhang N, Fan X, Yang Y, Sysoev M, Liu Y, and Liu Y (2018) Drilling project at Gamburtsev Subglacial Mountains, East Antarctica: recent progress and plans for the future. In: Siegert MJ, Jamieson SSR, White DA (Eds) Exploration of Subsurface Antarctica: Uncovering Past Changes and Modern Processes. Geological Society, London, Special Publications 461, 145-159. doi.org/10.1144/SP461.9.
Talalay P, Liu B, Yang Y, Fan X, Hong J, Gong D, Sysoev M, Li X, and Li Y (2018) Electric thermal drills for open-hole coring in ice. Polar Science 17, 13–22. doi.org/10.1016/j.polar.2018.05.007.
Talalay P, Liu G, Wang R, Fan X, Hong J, Gong D, Liu B, Liu A, and Sysoev M (2018) Shallow hot-water ice drill: Estimation of drilling parameters and testing. Cold Reg Sci Technol 155, 11–19. doi.org/10.1016/j.coldregions.2018.07.006.
Wang R, Liu A, Sun Y, Cao P, Fan X, and Talalay P (2018) Ice drill testing facility. Cold Reg Sci Technol 145, 151–159. doi.org/10.1016/j.coldregions.2017.10.017.
Zhang N, Chen C, Talalay P, Mao J, Liu S, Jin C, and Wan Z (2018). Research on hydraulic fracturing in deep ice core drilling borehole wall. Exploration Engineering (Rock and Soil Drilling and Tunneling) 45(11), 5-11. [In Chinese]
Chen B, Fan D, Wang R, Talalay P, and Chen Y (2018) Structure design and ice core breaking simulation of continual air-reverse-circulation ice coring drill. Exploration Engineering (Rock and Soil Drilling and Tunneling) 45(9), 46-50. [In Chinese]

2017

Wang R, An L, Cao P, Chen B, Sysoev M, Fan D, and Talalay PG (2017) Rapid ice drilling with continual air transport of cuttings and cores: General concept. Polar Science 14, 21-29. doi.org/10.1016/j.polar.2017.09.004.
Talalay PG and Pyne AR (2017) Geological drilling in McMurdo Dry Valleys and McMurdo Sound, Antarctica: Historical development. Cold Reg Sci Technol 141, 131-162. doi.org/10.1016/j.coldregions.2017.06.007.
Yang C, Jiang J, Cao P, Wang J, Fan X, Shang Y, and Talalay P (2017) Assessing the efficiency of carbide drill bits and factors influencing their application to debris-rich subglacial ice. Polar Science 13, 50-55. doi.org/10.1016/j.polar.2017.05.001.
Sun Y, Li B, Fan X, Wang R, and Talalay P (2017) Research progress of drilling and sampling technologies in Antarctic subglacial lake. Exploration Engineering (Rock and Soil Drilling and Tunneling) 44, 16-22. [In Chinese]
Yang Y, Gong D, Fan X, Yang W, Liu A, and Talalay P (2017) Development of self synchronous vibration sampler for Antarctic subglacial sediments. Exploration Engineering (Rock and Soil Drilling and Tunneling) 44, 221-225. [In Chinese]
Wang R, Liu A, Talalay P, Yang Y, and Li X (2017) Experimental research and application of water cleaning system for hot water drilling in Antarctic Ice Shelf. Exploration Engineering (Rock and Soil Drilling and Tunneling) 44, 226-230. [In Chinese]
Yang Y, Fan X, Talalay P, Liu A, and Yang W (2017) Research on rapid coring drill by hot water driving for subglacial bedrock in Antarctic. Exploration Engineering (Rock and Soil Drilling and Tunneling) 44(7), 48-51. [In Chinese]

2016

Gong D, Zhang N, Liu Y, Li X, and Talalay P (2016) Small-diameter vibrocorer for sediment coring beneath Antarctic ice shelves: General concept and testing. Ocean Eng 126, 232–239. doi.org/10.1016/j.oceaneng.2016.09.023.
Liu B, Wang R, Talalay P, Wang Q, and Liu A (2016) Circulation system of an Antarctic electromechanical bedrock drill. Polar Science 10, 463-469. doi.org/10.1016/j.polar.2016.08.001.
Liu N, Xu H, Yang Y, Han L, Wang L, and Talalay P (2016) Physicochemical properties of potential low-temperature drilling fluids for deep ice core drilling. Cold Reg Sci Technol 129, 45-50. doi.org/10.1016/j.coldregions.2016.06.004.
Sysoev M and Talalay P (2016) Research on drilling parameters of engine-powered auger ice drill. Global Geology, 19(1), 1-5. doi.org/10.3969/j.issn.1673-9736.2016.01.01.
Talalay PG (2016) Kitajskie proekty po bureniyu i issledovaniyu glubokih skvazhin v Antarktide: sovremennoe sostoyanie i perspektivy [Chinese projects for drilling and exploring deep wells in Antarctica: current state and prospects]. Drilling in complicated conditions: Proceedings of the International Scientific and Practical Conference, October 5-6, 2016, St. Petersburg, St. Petersburg State University, Lema, pp. 94-96. [In Russian]
Fan X, Talalay PG, Zheng Z, Zhang N, Cao P, Yu D, Hu Z. Yang C (2016) Design of antitorque system of cable-suspended electromechanical drill for subglacial bedrock coring. Journal of Central South University (Science and Technology) 47(3), 946-952. doi.org/10.11817/j.issn.1672-7207.2016.03.030. [In Chinese]
Liu N, Xu H, Han L, Wang L, Talalay P (2016) Physicochemical properties of potential ultralow-temperature drilling fluids for Antarctic deep ice core drilling. Exploration Engineering (Rock and Soil Drilling and Tunneling) 43(8), 11-14, 43. [In Chinese]

2015

Cao P, Yang C, Chen Y, Chen B, and Talalay P (2015) Experimental study of the drilling process in debris-rich ice. Cold Reg Sci Technol 120, 138–144. doi.org/10.1016/j.coldregions.2015.10.001.
Тalalay P, Yang C, Cao P, Wang R, Zhang N, Fan X, Yang Y, and Sun Y (2015). Ice-core drilling problems and solutions. Cold Reg Sci Technol 120, 1-20. doi.org/10.1016/j.coldregions.2015.08.014.
Hong J, Fan X, Liu Y, Liu G, Liu B, and Talalay P (2015) Size distribution and shape characteristics of ice cuttings produced by an electromechanical auger drill. Cold Reg Sci Technol 119, 204-210. doi.org/10.1016/j.coldregions.2015.08.012.
Wang J, Cao P, Liu C, Talalay PG (2015) Comparison and analysis of subglacial bedrock core drilling technology in Polar Regions. Polar Science 9 (2), 208–220. doi.org/10.1016/j.polar.2015.03.003.
Cao P, Chen B, Liu C, Yang C, Talalay P (2015) Experimental investigation of cutting temperature in ice drilling. Cold Reg Sci Technol 116, 78–85. doi.org/10.1016/j.coldregions.2015.04.008.
Talalay PG and Markov AN (2015) Thermobaric conditions at ice-water interface in Subglacial Lake Vostok, East Antarctica. Natural Resources 6, 423-432. doi.org/10.4236/nr.2015.66040.
Markov AN, Talalay PG, and Dahl-Jensen D (2015) Interpretations of complicated folded structures at the lower parts of Antarctic and Greenland Ice Sheets. Geography, Environment, Sustainability 8(01), 4-15. doi.org/10.24057/2071-9388-2015-8-1-4-15.
Markov A, Yao G, Chang T, Li G, Jia C, Liu Y, Cui H, Gurbanova N, and Talalay P (2015) Application of fiber bragg gratings in the measurements of acoustic properties of ice. Acta Optica Sinica 35(11), 1106001. doi.org/10.3788/AOS201535.1106001. [In Chinese]
Song J, Xu H, Han L, Liu N, Zhang N, and Talalay P (2015) Influence of drilling fluid on the Antarctic ice core drilling. Exploration Engineering (Rock and Soil Drilling and Tunneling) 42(9), 13-17. doi.org/10.3969/j.issn.1672-7428.2015.09.004. [In Chinese]
Wang R, Talalay P, Li Y, Liu G, Chen B, and Yang Y (2015). Research progress and challenge of the worldwide hot water drilling. 18th Annual Symposium on Exploration Engineering (Rock and Soil Drilling and Tunneling), pp 767-772. [In Chinese]
Liu B, Talalay P, Wang R, Chen B, Yang Y, and Liu G (2015) Analysis and calculation of the thermal drill for borehole opening prior hot-water drilling in polar region. 18th Annual Symposium on Exploration Engineering (Rock and Soil Drilling and Tunneling), pp 773-777. [In Chinese]

2014

Talalay PG (2014) Perspectives for development of ice drilling technology: A discussion. Ann Glaciol 55(68), 339-350. doi.org/10.3189/2014AoG68A007.
Talalay P, Fan X, Zheng Z, Xue J, Cao P, Zhang N, Wang R, Yu D, Yu C, Zhang Y, Zhang Q, Su K, Yang D, and Zhan J (2014) Anti-torque systems of electromechanical cable-suspended drills and tests results. Ann Glaciol 55 (68), 207-218. doi.org/10.3189/2014AoG68A025.
Cao P, Yang C, Zheng Z, Wang R, Zhang N, Liu C, Hu Z, and Talalay P (2014). Low-load diamond drill bits for subglacial bedrock sampling. Ann Glaciol 55(68), 124-130. doi.org/10.3189/12014AoG68AOOl.
Zhang N, An C, Fan X, Shi G, Li C, Liu J, Hu Z, Talalay P, Sun Y, and Li Y (2014) Chinese First Deep Ice-Core Drilling Project DK-1 at Dome A, Antarctica (2011–2013): Progress and performance. Ann Glaciol 55(68), 65-71. doi.org/10.3189/2014AoG68A006.
Hong J, Talalay P, Sysoev M, and Fan X (2014) DEM modeling of ice cuttings transportation by electromechanical auger core drills. Ann Glaciol 55(68), 65-71. doi.org/10.3189/2014AoG68A002.
Xu H, Han L, Cao P, Guo M, Han J, Yu D, and Talalay P (2014). Low molecular weight, fatty acid esters as potential low-temperature drilling fluids for ice coring. Ann Glaciol 55(68), 39-43. doi.org/10.3189/2014AoG68A003.
Talalay PG, Zagorodnov VS, Markov AN, Sysoev MA, and Hong J (2014) Recoverable autonomous sonde (RECAS) for environmental exploration of Antarctic subglacial lakes: general concept. Ann Glaciol 55(65), 23-30. doi.org/10.3189/2014AoG65A003.
Talalay P, Hu Z, Xu H, Yu D, Han L, Han J, Wang L (2014) Environmental considerations of low-temperature drilling fluids. Ann Glaciol 55(65), 31-40. doi.org/10.3189/2014AoG65A226.
Talalay PG (2014). Osobennosti reformirovaniya vysshego obrazovaniya v Kitae: Vzglyad iznutri [Special aspects of higher education reforming in China: An outward glance]. Sovremennye obrazovatel'nye tekhnologii v prepodavanii estestvennonauchnyh i gumanitarnyh discipline [Modern educational technologies in teaching natural sciences and humanities]. Proceedings of the International Scientific and Methodological Conference, 27-29 May, 2014. National University of Mineral Resources “Gorny”, Saint-Peterburg, pp 32-39.
Hong J, Talalay P, and Sysoev M (2014) Optimization of ice cuttings transportation by cable-suspended core auger drills. Global Geology 17(1), 48-54. doi.org/10.3969/j.issn.1673-9736.2014.01.08.
Talalay PG (2014). Exploration of Gamburtsev Subglacial Mountains, East Antarctica: Background and plans for the near future. Geography, Environment, Sustainability, 7(1), 5-15. doi.org/10.24057/2071-9388-2014-7-1-5-15.
Markov AN and Talalay PG (2014) Ocenka termobaricheskogo sostoyaniya i izmeneniya balansa massy podlednikovogo ozera Vostok posle vskrytiya [Assessment of thermobaric state and change of the mass balance in the subglacial Lake Vostok after drilling-in]. Led i sneg [Ice and Snow] 1(125), 20-26. doi.org/10.15356/2076-6734-2014-1-20-26. [in Russian]
Talalay PG, Fan X, Xu H, Yu D, Han L, Han J, and Sun Y (2014). Drilling fluid technology in ice sheets: Hydrostatic pressure and borehole closure considerations. Cold Reg Sci Technol 98, 47–54. doi.org/10.1016/j.coldregions.2013.10.012.
Talalay PG (2014) Drill heads of the deep ice electromechanical drills. Cold Reg Sci Technol 97, 41–56. doi.org/10.1016/j.coldregions.2013.09.009.
Fan X, Talalay P, Zhang N, Liu G, Zhang Q, Liu X, and Feng M (2014) Design and test on ice hardness test stand. Exploration Engineering (Rock and Soil Drilling and Tunneling) 41(9), 67-70. [In Chinese]
Song J, Xu H, Han L, Liu N, and Talalay P (2014) Analysis and test on lifting movement characteristics of cable drilling in polar ice. Exploration Engineering (Rock and Soil Drilling and Tunneling) 41(7), 12-15. [In Chinese]
Cao P, Chen B, Liu C, Yang C, and Talalay P (2014) Technical difficulties and countermeasures in ‘warm ice’ layer drilling of polar ice. Exploration Engineering (Rock and Soil Drilling and Tunneling) 41(9), 58-62. [In Chinese]
Liu N, Xu H, Han L, Wang L, and Talalay P (2014) Impact on ester base drilling fluid performance of molecular structure of fatty acid ester. Exploration Engineering (Rock and Soil Drilling and Tunneling) 41(9), 63-66. [In Chinese]

2013

Yu D, Talalay P, Xu H, Cao P, Sysoev M, Han L, and Han J (2013). Improvements of drilling fluid processing for cable-suspended electromechanical drills. Global Geology 16 (2), 99-105. doi.org/10.3969/j.issn.1673-9736.2013.02.07.
Talalay PG, Markov AN, and Sysoev MA (2013) New frontiers of Antarctic subglacial lakes exploration. Geography, Environment, Sustainability 6(1), 14-28. doi.org/10.24057/2071-9388-2013-6-1-52-59.
Talalay PG (2013) Subglacial till and bedrock drilling. Cold Reg Sci Technol 86, 142–166. doi.org/10.1016/j.coldregions.2012.08.009.
Talalay P (2013) Russian researchers reach subglacial Lake Vostok in Antarctica. Advances in Polar Science 23(3), 176-180. doi.org/10.3724/SP.J.1085.2012.00176.
Wang L, Zhao D, Xu H, Han L, Song J, and Talalay P (2013) Experiment on resistance to low temperature performance of ester drilling fluid in Antarctic ice core drilling. Global Geology 32 (4), 862-866. doi.org/10.3969/j.issn.1004-5589.2013.04.026. [In Chinese]
Fan X, Talalay P, Zheng Z, Zhang N, Yu C, and Gong D (2013) Electric mechanical coring drill anti-torque device test bench design and experiment. Exploration Engineering (Rock and Soil Drilling and Tunneling) 40(12), 18-20, 24. [In Chinese]
Han J, Han L, Xu H, Yu D, Cao P, and Talalay P (2013) Theoretical and experimental research on the ultra-low temperature drilling fluids for the polar ice coring drilling. Exploration Engineering (Rock and Soil Drilling and Tunneling) 40(6), 23-26. [In Chinese]
Hu Z, Talalay P, Cao P, Xue J, Zheng Z, and Yu D (2012) Investigations of near-bottom air reverse circulation. Journal of Jilin University (Earth Science Edition) 42 (3), 374-378. [In Chinese]
Yang C, Cao P, Talalay P, Zhai G, and Ma Y (2013) Bionioc diamond drilling bits for subglacial bedrock core drilling. Exploration Engineering (Rock & Soil Drilling and Tunneling) 40, 283-286. [in Chinese]
Yu C, Zheng Z, Talalay P, Cao P, and Zhang Y (2013) Motion simulation of anti-torque device based on RecurDyn for coring tool used for sub-glacial bedrock in Polar Regions and the motion analysis. Exploration Engineering (Rock and Soil Drilling and Tunneling) 40(12), 21-24. [In Chinese]
Xu H, Han L, Han J, Wang L, Yu D, Cao P, and Talalay P (2013) Theory and experiment of ester drilling fluids for ice coring in Antarctica. Exploration Engineering (Rock & Soil Drilling and Tunneling) 40, 279-282. [in Chinese]
Wang L, Xu H, Zhao D, Han L, Song J, and Talalay P (2013) Simulation on the influence of drilling fluids in Antarctic ice core drilling on snow layer. Exploration Engineering (Rock and Soil Drilling and Tunneling) 40 (12), 1-4. [In Chinese]

2012

Han L, Xu H, Cao P, Yu D, and Talalay PG (2012) Viscosity testing method of ultra -low temperature drilling fluids for polar glacier drilling. Global Geology 15(4), 276-280. doi.org/10.3969/j.issn.1673-9736.2012.04.04.
Talalay PG (2012) Alfred Wegener i ego ekspedicii v Grenlandiyu [Alfred Wegener and his expeditions to Greenland]. Priroda [Nature] 11, 51-56. [In Russian]
Talalay PG (2012) Vskrytie ozera Vostok: shag vpered – dva shaga nazad? [Accessing of Lake Vostok: a step forward – two steps back?] Priroda [Nature] 7, 3-13. [In Russian]
Talalay PG and Markov AN (2012) Gory Gamburtseva – hrebet, kotoryj nikto nikogda ne videl [Subglacial Gamburtsev Mountains – The range, which have never been seen]. Priroda [Nature] 2, 29-38. [In Russian]
Talalay PG (2012) Hydrogen production by using of deep wells: A discussion. Proceedings of the 7th International Conference on Geo-Recourses and Geo-Engineering in Asian-Pacific Region. 10-14 December, 2012, Changchun, China, Jilin University, pp 188-191.
Zhang Q, Chen C, and Talalay PG (2012) Drilling in ice-layer with the cable mechanical coring tool. Proceedings of the 16th National Exploration Engineering Conference, 74-80. [In Chinese]

2011

Vasiliev NI, Talalay PG, and Vostok Deep Ice Core Drilling Parties (2011). Twenty years of drilling the deepest hole in ice. Scientific Drilling 11, 41-45. doi.org/10.2204/iodp.sd.11.05.2011.
Talalay PG (2011) Samyj drevnij led Antarktidy: poiski i resheniya [The oldest Antarctic ice: searches and solutions]. Priroda [Nature] 4, 19-25.
Chistyakov VK and Talalay PG (2011) Geoethical problems of direct Antarctic subglacial lakes access. Proceedings of the Mining Pribram Symposium 2011. The International Sections: Mathematical Methods in Geology. Geoethycs. October 8-15, 2011, Pribram, Czech Republic. Proceedings Volume, G10.
Han L, Xu H, Yu D, and Talalay P (2011) Research and application of the low-temperature drilling fluids. Proceedings of the Symposium on the drilling fluid and completion fluid. December 5-6, 2011. [In Chinese]
Han L, Xu H, Yu D, and Talalay P (2011) Test and research of the drilling fluid for ultralow temperature in the Antarctic drilling. Proceedings of the Annual conference of the Technical Academic Communication (Geotechnical Drilling and Engineering), 255-260. [In Chinese]

2010

Vasiliev NI and Talalay PG (2010) Burenie podlednikovyh gornyh porod na arhipelage Severnaya Zemlya [Subglacial drilling on Severnaya Zemlya archipelago]. Proceedings of the 8th International Research-to-Practice Conference “Mineral resources development of Polar Regions: Problems and Solving”. 7–9 April, 2010, Vorkuta, Russia, pp. 27–31. [In Russian]
Talalay PG and Stepuk EYu (2010) Innovacionnaya tekhnologiya razrabotki torfyanyh zalezhej [The innovative technology of peat deposits development]. Proceedings of the 8th International Research-to-Practice Conference “Mineral resources development of Polar Regions: Problems and Solving”. 7–9 April, 2010, Vorkuta, Russia, pp. 149-151. [In Russian]
Vasiliev NI, Talalay PG, Dmitriev AN., Yankilevich SV, Prokazov AA, and Lipenkov VYa (2010) Napravlennoe burenie skvazhin v lednikovyh pokrovah [Directional drilling in ice sheets]. Zapiski Gornogo instituta [Journal of Mining Institute] 187, 31-35. [In Russian]
Vasiliev NI, Talalay PG, Talalay GP, and Tsvetkov NA (2010) Ekologicheskie problemy utilizacii stochnyh vod pri ekspluatacii gazovyh mestorozhdenij [Environmental problems of sewage disposal at natural gas production]. Zapiski Gornogo instituta [Journal of Mining Institute] 187, 36-39. [In Russian]
Talalay PG and Stepuk EYu (2010) Shnekovaya ustanovka dlya kruglogodichnoj dobychi torfa [Auger system for year-round production of peat]. Zapiski Gornogo instituta [Journal of Mining Institute] 187, 143-145. [In Russian]
Talalay PG (2010) Tverdotel'noe modelirovanie tel Platona [3D-modeling of Platon bodies]. Komp'yuternyj praktikum [Coumputer Practicum] 8, 9-14. [In Russian]

2008

Vasiliev NI, Talalay PG, Zubkov VM, Krasilev AV, and Zubkov MV (2008) Likvidaciya oslozhnenij i avarij pri burenii glubokih skvazhin v lednikah. [Elimination of complications and accidents at deep drilling in glaciers]. Zapiski Gornogo instituta [Journal of Mining Institute] 178, 181-187. [In Russian]
Ejst YuA and Talalay PG (2008) Otdelenie vyburennoj cilindricheskoj zagotovki ot massiva gornyh porod [Cutting of cylindrical rock block]. Zapiski Gornogo instituta [Journal of Mining Institute] 178, 195-197. [In Russian]

2007

Talalay PG and Hooke RL (2007) Closure of deep bore-holes in ice sheets: a discussion. Ann Glaciol 47, 125-133. doi.org/10.3189/172756407786857794.
Johnsen SJ, Hansen SB, Sheldon SG, Dahl-Jensen D, Steffensen JP, Augustin L, Journé P, Alemany O, Rufli H, Schwander J, Azuma N, Motoyama H, Popp T, Talalay P, Thorsteinsson T, Wilhelms F, Zagorodnov V (2007) The Hans Tausen drill: Design, performance, further developments and some lessons learned. Ann Glaciol 47, 89-98. doi.org/10.3189/172756407786857686.
Talalay PG (2007) Dimethyl siloxane oils as an alternative bore-hole fluid. Ann Glaciol 47, 82-88. doi.org/10.3189/172756407786857785.
Augustin L, Motoyama H, Wilhelms F, Johnsen S, Hansen SB, Talalay P, Vasiliev N (2007) Drilling comparison in ‘warm ice’ and drill design comparison. Ann Glaciol 47, 73-78. doi.org/10.3189/172756407786857820.
Vasiliev NI, Talalay PG, Bobin NE, Chistyakov VK, Zubkov VM, Krasilev AV, Dmitriev AN, Yankilevich SV, Lipenkov VYa (2007) Deep drilling at Vostok station, Antarctica: History and recent events. Ann Glaciol 47, 10-23. doi.org/10.3189/172756407786857776.
Talalay PG (2007) Glubokoe burenie v Antarktide: Novye proekty [Deep drilling in Antarctica: New projects]. Priroda [Nature] 6, 36-43. [In Russian]

2006

Talalay PG (2006) Removal of cuttings in deep ice electromechanical drills. Cold Reg Sci Technol 44, 87-98. doi.org/10.1016/j.coldregions.2004.08.005.
Talalay PG (2006) Proniknovenie v podlednikovye ozera: Plany i real'nost' [Penetration into subglacial lakes: Plans and reality]. Priroda [Nature] 9, 45-53. [In Russian]

2005

Talalay PG (2005) Vokrug drevnego ozera [Around the ancient lake]. Nauka i zhizn' [Science and Life] 12, 20-27. [In Russian]
Talalay PG (2005) Pervye itogi bureniya samoj glubokoj skvazhiny vo l'dah Grenlandii [The first results of drilling the deepest borehole in Greenland Ice Sheet]. Priroda [Nature] 11, 32-39. [In Russian]
Talalay PG and Chistyakov VK (2005) Prospect of flushing and filling by using organic silicon compound in ice formation drilling. Proceedings of International Symposium “New Technology of Water Well Drilling and Completion”, China, pp 187-192. [In Chinese]

2004

Vasiliev NI, Talalay PG, and Savatyugin LM (2004). Osobennosti proektirovaniya oborudovaniya dlya bureniya skvazhin v lednikah [Features of designing equipment for drilling boreholes in glaciers]. Zapiski Gornogo instituta [Journal of Mining Institute] 157, 153-156. [In Russian]
Bobin NE, Talalay PG, and Yankilevich SV (2004) Tekhnicheskie sredstva dlya issledovaniya podlednikovyh vodoemov na primere ozera Vostok v Antarktide [Instruments to study subglacial lakes on the example of Lake Vostok in Antarctica]. Zapiski Gornogo instituta [Journal of Mining Institute] 157, 147-149. [In Russian]
Talalay PG (2004) Ocherednoj shag k issledovaniyu drevnego l'da Antarktidy [A new step to studying the ancient ice of Antarctica]. Priroda [Nature] 8, 84-85. [In Russian]
Talalay PG (2004) V glub' lednika [In the deep of ice sheet]. Nauka i zhizn' [Science and Life] 8, 72-78. [In Russian]
Talalay PG (2004) Proekt NGRIP zavershen, prodolzhenie sleduet [The NGRIP Project is completed, and a follow-up is due]. Priroda [Nature] 3, 33-38. [In Russian]

2003

Talalay PG (2003) Power consumption of deep ice electromechanical drills. Cold Reg Sci Technol 37, 69-79. doi.org/10.1016/S0165-232X(03)00036-3.
Talalay PG (2003) Dolgij put' skvoz' l'dy Antarktidy [The long path through Antarctic Ice]. Priroda [Nature] 9, 34–45. [In Russian]
Talalay PG (2003) Vozvrashchenie v Grenlandiyu [Return to Greenland]. Priroda [Nature] 5, 18–23. [In Russian]

2002

Verkulich SR, Kudryashov BB, Barkov NI, Vasiliev NI, Vostretsov RN, Dmitriev AN, Zubkov VM, Krasilev AV, Talalay PG, Lipenkov VYa, Savatyugin LM, and Kuz'mina IN (2002) Proposal for penetration and exploration of sub-glacial Lake Vostok, Antarctica. Mem Natl Inst Polar Res 56, 245-252.
Gundestrup NS, Johnsen SJ, Hansen SB, Shoji H, Talalay P, and Wilhelms F (2002) Sticking deep ice core drills: Why and how to recover. Mem Natl Inst Polar Res 56, 181-195.
Talalay PG and Gundestrup NS (2002) Hydrostatic pressure and fluid density profile in deep ice bore-holes. Mem Natl Inst Polar Res 56, 171-180.
Talalay PG and Gundestrup NS (2002) Hole fluids for deep ice core drilling. Mem Natl Inst Polar Res 56, 148-170.
Kudryashov BB, Vasiliev NI, Vostretsov RN, Dmitriev AN, Zubkov VM, Krasilev AV, Talalay PG, Barkov NI, Lipenkov Vya, and Petit JR (2002) Deep ice coring at Vostok Station (East Antarctica) by an electromechanical drill. Mem Natl Inst Polar Res 56, 91-102.

2001

Talalay PG (2001) Teplovoj rezhim razrusheniya l'da rezaniem [Thermal regime of the ice cutting]. Fizicheskie problemy razrusheniya gornyh porod [Physical problems of rock destruction]: Proceedings of the Second International Scientific Conference, 25-29 September 2000, Saint-Petersburg. Zapiski Gornogo instituta [Journal of Mining Institute] 148(2), 169-174. [In Russian]
Litvinenko VS, Kudryashov BB, Nikolaev NI, Nifontov YuA, Chistyakov VK, Shelkovnikov IG, Yakovlev AM, Kozlov AV, Vasiliev NI, Zubkov VM, Dmitriev AN, Solov'ev GN, Talalay PG, Nikishin VV, Taninskij PYu, and Tsygel'nyuk EYu (2001) Issledovaniya i razrabotki progressivnyh tekhnologij bureniya skvazhin v oslozhnennyh usloviyah [Investigations on progressive drilling technologies in complicated conditions]. Zapiski Gornogo instituta [Journal of Mining Institute] 147, 30-47. [In Russian]
Talalay PG (2001) Cherez Grenlandskij lednikovyj shchit [Through the Greenland Ice Sheet]. Priroda [Nature] 8, 44-52. [In Russian]

2000

Talalay PG and Chistyakov VK (2000) Ekologicheskaya bezopasnost' promyvochnyh sred dlya bureniya glubokih skvazhin v lednikah [Environmental safety of circulation mediums for deep drilling in glaciers]. Geoekologicheskie issledovaniya i ohrana nedr [Geoecological Research and Protection of Mineral Resources]. Moscow, Geoinformmark Vol. 2, 34-47. [In Russian]
Talalay PG and Gundestrup NS (2000) Rezul'taty bureniya glubokih skvazhin v central'noj chasti Grenlandskogo lednikovogo pokrova [Results of deep drilling in the central part of the Greenland Ice Sheet]. Proceedings of the IV International Symposium on Drilling in Complicated Conditions, Saint-Petersburg, Saint-Petersburg State Mining Institute, pp 37-44. [In Russian]
Gundestrup NS, Johnsen S, Hansen S, Talalay PG (2000) Burenie glubokih skvazhin v Grenlandskom lednikovom pokrove [Deep drilling in the Greenland Ice Sheet]. Geologicheskoe izuchenie i ispol'zovanie nedr [Geological Exploration and Use of Subsurface Resources]. Moscow, Geoinformmark Vol. 2, 49-61. [In Russian]
Talalay PG and Chistyakov VK (2000) Ekologicheskie problemy bureniya v Antarktide [Environmental problems of drilling in Antarctica]. In: Skulachev VP (Ed) Rossijskaya nauka: Grani tvorchestva na grani vekov [Russian Science: The Facets of Creativity on the Verge of Centuries]. Moscow, Nauchnyj Mir, pp 374-382. [In Russian]

1999

Talalay PG (1999) Zakonomernosti cirkulyacionnyh processov pri burenii skvazhin elektromekhanicheskimi snaryadami na gruzonesushchem kabele [Behavior of circulation processes in the drilling by electromechanical drills on armored cable]. Metodika i tekhnika razvedki [Methods and Techniques of Prospecting] 9-10 (147-148), 173-182. [In Russian]
Talalay PG and Chistyakov VK (1999) Osobennosti promyvki pri burenii skvazhin v lednikah i lednikovyh pokrovah [Special features of circulation during drilling in glaciers and ice sheets]. Sbornik nauchnyh trudov Nacional'noj gornoj akademii Ukrainy [Transactions of National Mining Academy of Ukraine] 4(6), pp 85-89. [In Russian]

1998

Kudryashov BB, Krasilev AV, Talalay PG, Tchistyakov VK, Vassiliev NI, Zubhov VM, Lukin VV (1998) Drilling equipment and technology for deep ice coring in Antarctica. In: Hall J (Ed) Proc. of the Seventh SCALOP Symp. on Antarctic Logistics and Operations, 6-7 August 1996, Cambridge, United Kingdom. Cambridge, British Antarctic Survey, pp 205-212.
Blinov KV and Talalay PG (1998) K raschetu gidrostaticheskogo davleniya v stvole skvazhiny [Calculation of the hydrostatic pressure in the borehole]. Metodika i tekhnika razvedki [Methods and Techniques of Prospecting] 8(146), 131-136. [In Russian]

1995

Vasiliev NI and Talalay PG (1995) Issledovanie sistemy udaleniya i sbora shlama pri burenii skvazhin vo l'du elektromekhanicheskimi snaryadami na gruzonesushchem kabele [Study of cuttings removal disposal and collection when drilling in ice by electromechanical drills on armored cable]. Metodika i tekhnika razvedki [Methods and Techniques of Prospecting] 4(142), 97-104. [In Russian]
Vasiliev NI, Kudryashov BB, and Talalay PG (1995) Rezul'taty ispytanij elektromekhanicheskogo snaryada KEMS-112 na stancii Vostok, Vostochnaya Antarktida [Test results of the electromechanical drill KEMS-112 at Vostok Station, East Antarctica]. Materialy glyaciologicheskih issledovanij [Data of Glaciological Studies] 79, 171-174. [In Russian]

1994

Vasiliev NI and Talalay PG (1994) Investigation of the ice cutting process by the rotary drill. Mem Natl Inst Polar Res 49, 132-137.
Kudryashov BB, Vasiliev NI, and Talalay PG (1994) KEMS-112 electromechanical ice core drill. Mem Natl Inst Polar Res 49, 138-152.
Vasiliev NI, Talalay PG, and Ufaev VV (1994) Stend dlya issledovaniya processa razrusheniya l'da rezcovymi koronkami i analiz eksperimental'nyh dannyh [Stand for studying of the process of ice cutting by teeth drill bits and analysis of experimental data]. Metodika i tekhnika razvedki [Methods and Techniques of Prospecting] 3(141), 98-105. [In Russian]
Men'shikov NG and Talalay PG (1994) Eksperimental'nye issledovaniya svojstv zalivochnoj zhidkosti dlya bureniya glubokih skvazhin vo l'dah [Experimental studies of the properties of the drilling fluid for drilling of the deep holes in the ice] Metodika i tekhnika razvedki [Methods and Techniques of Prospecting] 3(141), 115-119. [In Russian]

1993

Talalay PG (1993) O razrushenii l'da pri vrashchatel'nom burenii [About ice cutting at rotary drilling]. Sovershenstvovanie tekhniki i tekhnologii bureniya skvazhin na tverdye poleznye iskopaemye [Improving the technique and technology of drilling for solid minerals] Vol. 16. Ekaterinburg, Ural'skij Mining Institute, pp 91-97. [In Russian]
Vasiliev NI, Zhigalev SP, Zubkov VM, Talalay PG, and Chistyakov VK (1993) Burenie neglubokih skvazhin v lednikah [Shallow drilling in glaciers]. Materialy glyaciologicheskih issledovanij [Data of Glaciological Studies] 77, 74-77. [In Russian]
Talalay PG (1993) Mezhdunarodnyj simpozium po tekhnologii bureniya skvazhin vo l'dah [International Ice Drilling Technology Workshop]. Materialy glyaciologicheskih issledovanij [Data of Glaciological Studies] 77, 148. [In Russian]
Talalay PG (1993) GRIP protiv GISP-2 [GRIP against GISP-2]. Materialy glyaciologicheskih issledovanij [Data of Glaciological Studies] 77, 78. [In Russian]
Vasiliev NI, Kudryashov BB, Talalay PG, and Chistyakov VK (1993) Core drilling by electromechanical drill. Polar Record, 29 (170), 235-236. doi.org/10.1017/S0032247400018556.

1991

Kudryashov BB, Chistyakov VK, Vasiliev NI, and Talalay PG (1991) Burenie skvazhin s otborom kerna elektromekhanicheskim snaryadom na gruzonesushchem kabele v lednikovyh i podlednikovyh porodah [Core drilling by electromechanical drill on armored cable in glacial and subglacial rocks]. Materialy glyaciologicheskih issledovanij [Data of Glaciological Studies] 71, 165-170. [In Russian]
Vasilyev NI, Talalay PG, and Chistyakov VK (1991) Optimizaciya processa razrusheniya l'da rezaniem [Optimization of ice breaking process by cutting]. Zapiski Gornogo instituta [Journal of Mining Institute] 125, 108. [In Russian]

1989

Vasiliev NI, Blinov KV, Denisov GV, Markov AN, Talalay PG, and Ufaev VV (1989) Burenie i geofizicheskie issledovaniya skvazhiny na lednike Vavilova [Drilling and borehole logging on Vavilov glacier]. Materialy glyaciologicheskih issledovanij [Data of Glaciological Studies] 67, 249. [In Russian]

1988

Vasiliev NI, Talalay PG, and Ufaev VV (1988) Rezul'taty stendovyh eksperimental'nyh issledovanij processa bureniya l'da mekhanicheskim burovym snaryadom KEMS-112 [Results of experimental studies of drilling ice by mechanical drill KEMS-112]. Zapiski Gornogo instituta [Journal of Mining Institute] 116, 82-86. [In Russian]

III. Patents

Talalay P, Zhang X, Fan X, Gong D, Wei X, Wang L, Zheng X, and Xian T (2025) A thermal melting drill bit with built-in retractable drill pipe. Invention patent of PR of China CN202411817502.3. Issued 28.10.2025.
Talalay P, Zhang X, Fan X, Gong D, Wei X, Wang L, Zheng X, and Xian T. A thermal melting drilling tool suitable for ice layers containing impurities. Invention patent of PR of China CN202411817767.3. Issued 28.10.2025.
Gong D, Liu X, Fan X, Li B, Wang Y, Li Y, Wu W, Wang Y, Sun Y, Deng Z, Wei X, Xian T, Li C, Talalay P, Zhang N, Wang R, Yang Y, Han B, Hong J, Wang T, Liu Y, Chen Y, Guo M, Liu Z, Zhang X, Wu Z, Yang Y, Wang L, Yang B, Liu L, Cui Z, and Zheng X (2025) Motor-driven columnar vibrator for subglacial lake drilling. Invention patent of PR of China CN202411599593.8. Issued 30.09.2025.
Zhang N, Wang L, Yang Y, Chen Y, Talalay P, Fan X, Gong D, Wang T, Han B, Liu Y, and Yang B (2025) A deviation correction system for polar hot water drilling process. Invention patent of PR of China CN202411261088.2. Issued 03.06.2025.
Sun Y, Deng Z, Fan X, Talalay P, Gong D, Yang Y, and Liu X (2025) An aperture-adaptive injection mechanism for ice layer hot water drilling. Invention patent of PR of China CN202410384476.3. Issued 23.05.2025.
Talalay P, Wei X, Wang T, Fan X, Gong D, Chen Y, Liu Y, Zhang N, Hong J, Lü X, Wang Y, and Deng Z (2025) Universal robot for sidewall coring in polar ice holes. Invention patent of PR of China CN202310272333.9. Issued 25.04.2025.
Hong J, Wu Z, Gong D, Fan X, Talalay P, Nan Z, Wang R, Yang Y, Han B, and Wang T (2025) A downhole suspended weight measuring device for hot water drilling tools. CN202411896495.0. Issued 11.03.2025.
Fan X, Sun Y, Talalay P, Gong D, Wang T, Zhang N, Wang R, Hong J, Chen Y, Liu Y, Yang Y, and Han B (2025) A rapid clean sampling and detection device and method for deeply buried polar subglacial lakes. Invention patent of PR of China CN202211244081.0. Issued 11.02.2025.
Zhang N, Bai H, Talalay P, Fan X, Chen Y, and Liu Y (2025) A logging tool for measuring borehole wall morphology in polar ice sheet drilling. Invention patent of PR of China CN202211045122.3. Issued 28.01.2025.
Zhang N, Wang L, Talalay P, Bing B, Gong D, Fan X, Hong J, Liu Y, Liu A, and Wei X (2024) A carbon dioxide laser cutting system for ice samples suitable for low-temperature environments. Invention patent of PR of China CN202010126205.X. Issued 22.11.2024.
Sun Y, Wang J, Talalay P, Wang J, Lei T, Wang Z, Fan X, Zhang N, Li B, Gong D, Wang R, Chen Y, and Wang T (2024). Embedded bionic winch for sampling and exploration of polar sub-glacial lake. Patent of USA No. US12077417B2. Issued 03.09.2024.
Sun Y, Wang J, Talalay P, Wang J, Lei T, Wang Z, Fan X, Zhang N, Li B, Gong D, Wang R, Chen Y, and Wang T (2024) A built-in winch for Antarctic subglacial lake exploration. Invention patent of PR of China CN201911097522.7. Issued 23.07.2024.
Talalay P, Wei X, Fan X, Li Y, and Zhao G (2024) Thermal melting type horizontal coring drilling tool for well walls. Invention patent of PR of China CN201911290964.3. Issued 03.05.2024.
Hong J, Talalay P, Wang Y, Zhao G, Fan X, and Cao P (2024) A device for measuring sliding friction coefficient at ice-rock interface. Invention patent of PR of China CN201910027627.9. Issued 08.03.2024.
Wang R, Liu A, Talalay P, Yang Y, Fan X, Zhang N, Hong J, Chen Y, and Li Y (2024) A hot water drilling system for inclined holes at the bottom of ice shelves. Invention patent of PR of China CN201910722747.0. Issued 27.02.2024.
Wang R, Liu A, Talalay P, Yang Y, Fan X, Zhang N, Hong J, Chen Y, and Li Y (2024). A rodless inclined hole thermal melting rotary drilling system for the bottom of ice shelves. Invention patent of PR of China CN201910722736.2. Issued 20.02.2024.
Zhao G, Talalay P, Fan X, Gong D, Hong J, Liu A, Li Y, Sysoev M, and Wang L (2024) Circulating drilling device in polar ice layer hot water holes. Invention patent of PR of China CN201910163464.7. Issued 30.01.2024.
Zhang N, Wang L, Talalay P, Xiaopeng X, Li B, Liu Y, and Wang T (2024) A laser coring drilling method and drilling device for ice layer drilling. Invention patent of PR of China CN201811579909.1. Issued 12.01.2024.
Talalay P, Li Y, Sun Y, Fan X, Sysoev M, Yang Y, Wang T, Li X, and Zhao G (2023) Thermal melting drill bit for subglacial lake sampling and drilling. Invention patent of PR of China CN201810328324.6 Issued 15.12.2023.
Fan X, Wang J, Wang X, Dai L, Li X, Li Y, Wang T, and Talalay P (2023) An unattended device for real-time measurement of firn layer temperature in polar regions while drilling. Invention patent of PR of China CN201910291564.8. Issued 20.10.2023.
Fan X, Wang T, Talalay P, Yang Y, Zhang N, Cao P, Wang R, and Liu A (2023) A water pressure-triggered multi-point hot water coring drilling tool for the bottom of ice layers. Invention patent of PR of China CN201810248061.8. Issued 19.09.2023.
Zhang N, Liu H, Sun Y, Talalay P, Wang T, Fan X, Li B, Wang R, Gong D, Liu Y, Yang Y, Hong J, Liu A, and Chen Y (2023) Manufacturing method of a hoisting cable with small diameter, high strength, and high flexibility. Patent of USA No. US11749424B2. Issued 05.09.2023.
Yang Y, Liu B, Talalay P, Gong D, Fan X, and Liu Y (2023) Hot air ice coring drill. Invention patent of PR of China ZL201810660000.2. Issued 08.08.2023.
Hong J, Talalay P, Xiaopeng F, Pinlu C, and Zhao G (2023) Isotropic ice sample making device and method. Invention patent of PR of China ZL201811071524.4. Issued 26.05.2023.
Fan X, Talalay P, Cao P. Zhang N, Wang R, Wang T, Liu G, and Liu A (2023) Hot water driven self-rotating ice core drilling method and device. Invention patent of PR of China ZL201710300548.1. Issued 16.05.2023.
Fan X, Wang Q, Zhang N, Talalay P, Da G, Hong J, Wei X, Wang Y, Deng Z, and Li C (2023) An efficient full-hole thermal drilling device for polar ice. Invention patent of PR of China ZL202210828869.X. Issued 25.04.2023.
Fan X, Li C, Wang Q, Talalay P, Zhang N, Gong D, Hong J, Wei X, and Wang Y (2023) A collecting device while drilling for gas occurring in a polar glacier. Invention patent of PR of China ZL202210745791.5. Issued 25.04.2023.
Fan X, Talalay P, Sun Y, Cao P, Wang R, Zhang N, Wang T, Li X, and Li Y (2023) A thermal corer method and device for the hole on ice shelf bottom by hot water drilling. Invention patent of PR of China ZL201810248066.0. Issued 18.04.2023.
Fan X, Talalay P, Zhang N, Cao P, Wang R, Wang T, Li X, and Li Y (2023) Air jet drill bit for rapid drilling of polar snow layer. Invention patent of PR of China ZL201710300712.9. Issued 07.04.2023.
Fan X, Li C, Wang Q, Talalay P, Zhang N, Gong D, Wang R, Hong J, Wei X, and Wang Y (2023) A thermal drilling tool for measuring the ionic composition of polar ice sheet while drilling. Invention patent of PR of China ZL202210755126.4. Issued 21.03.2023.
Fan X, Li C, Zhang N, Talalay P, Cao P, Yang Y, Liu G, Hong J, and Gong D (2023) Method and device for making ice samples under different temperature and pressure conditions. Invention patent of PR of China ZL201610898469.0. Issued 02.05.2023.
Yang Y, Fan X, Talalay P, Cao P, Zhang N. Wang R, Liu A, and Li X (2023) Method and device for hot water coring of polar ice. Invention patent of PR of China ZL201710300737.9. Issued 31.03.2023.
Yang Y, Talalay P, Fan X, Cao P, Zhang N, Wang R, Gong D, Liu G, Liu A, and Li X (2023) Method and device for hot water coring of subglacial bedrock. Invention patent of PR of China ZL201710300564.0. Issued 21.03.2023.
Gong D, Fan X, Li B, Li Y, Talalay P, Liu A, Liu Y, Yang Y, Wang T, and Wang R (2022) A pressure-resistant cylindrical linear vibrator for holes. Invention patent of PR of China ZL202010742182.5. Issued 27.12.2022.
Gong D, Liu Q, Xiao H, Ren F, Chen X, Huang W, Talalay P, Fan X, Li Y, Li B, and Li C (2022) A hydraulic erosion sediment sampler. Invention patent of PR of China CN202221468441.0. Issued 20.09.2022.
Gong D, Li H, Xu W, Li M, Sun Y, Wang Y, Fan X, Li C, Talalay P, Zhang N, Li B, and Yang Y (2022) A battery-powered ice layer drilling tool. Invention patent of PR of China CN202221365475.7. Issued 06.09.2022.
Gong D, Fan X, Li B, Li Y, Talalay P, Liu A, Liu Y, Yang Y, Wang T, and Wang R (2022) An automatic subglacial sediment vibration sampler. Invention patent of PR of China ZL202011071566.5. Issued 27.05.2022.
Zhao G, Talalay P, Fan X, Gong D, Hong J, and Li Y (2022) A hot water drilling device for polar ice and firn layers. Invention patent of PR of China ZL202011575481.0. Issued 25.02.2022.
Zhang N, Wang L, Fan X. Talalay P, Gong D, Liu Y, Wang T, and Hong J (2021) A device for detecting dielectric properties of ice core while drilling with rotary jet bit of polar air drilling. Invention patent of PR of China ZL201911103573.6. Issued 09.04.2021.
Liu A, Wang R, Talalay P, Yang Y, Fan X, Zhang N, Hong J, Chen Y, and Li Y (2020) An upside-hole thermal coring system for encircling ice core at the bottom of ice shelf. Invention patent of PR of China ZL201910723231.8. Issued 03.04.2020.
Wang Z, Sun Y, Talalay P, Wang J, Zhang N, Lei T, and Li X (2020) Winch cable tension sensing device for Antarctic ice drilling. Invention patent of PR of China ZL201811328458.4. Issued 26.05.2020.
Liu A, Wang R, Sun Y, Talalay P, Chen B, Cao P, Zhang N, Fan X, Yang Y, and Fan D (2020) A multifunctional rotary mobile platform for polar drilling test. Invention patent of PR of China ZL201711013154.4. Issued 29.09.2020.
Zhang N, Sun Y, Talalay P, Chen Y, Fan X, Liu A, Wang T, Li B, Gong D, Liu Y, and Li Y (2020). A test stand for reducing performance of a friction wheel winch reducing mechanism. Invention patent of PR of China ZL202010155287.0. Issued 23.10.2020.
Li B, Talalay P, Sun Y, Fan X, Cao P, Zhang N, Wang R, and Yang Y (2020) A non-pollution subglacial lake sampling and detection method and equipment based on heat tracing cable. Invention patent of PR of China ZL201710402302.5. Issued 10.11.2020.
Gong D, Talalay P, Fan X, and Yang Y (2019) Deep-sea magnetic repulsion heavy duty potential energy efficient release device. Invention patent of PR of China ZL20181047064. Issued 05.03.2019.
Gong D, Talalay P, Fan X, Li Y, Liu Y, Yang Y, Cao P, and Wang R (2019) Time delay start multi-motor synchronous vibration subglacial sediment sampler. Invention patent of PR of China ZL201810526745.X. Issued 12.03.2019.
Li X, Talalay P, Yang Y, Fan X, Zhang N, Li X, Liu A, Li Y, Lu S, and Wang L (2019) A testing stand and a method for static pressure fishing device. Invention patent of PR of China ZL201910303402.1. Issued 08.10.2019.
Zhang N, Wang L, Talalay P, Fan X, Li B, Liu Y, and Wang T (2019) A laser coring device for ice. Utility model patent of PR of China 9292625. Issued 27.08.2019.
Hong J, Talalay P, Wang Y, Zhao G, Fan X, and Cao P (2019) A sliding friction coefficient test device for ice and rock interface. Utility model patent of PR of China 9256362. Issued 20.08.2019.
Liu A, Talalay P, Yang Y, Wang R, Fan X, Zhang N, Hong J, Chen Y, and Zhang H (2019). A new hot water coring tool for ice drilling. Utility model patent of PR of China 9152854. Issued 26.07.2019.
Talalay P, Zhao G, Hong J, Fan X, and Cao P (2019) Isotropic ice sample making device. Utility model patent of PR of China 8680600. Issued 05.04.2019.
Li X, Fan X, Talalay P, Yang Y, Li Y, Li X, and Li A (2019) Temperature measuring equipment for ice and meltwater surrounding thermal drilling hole. Invention patent of PR of China 3302600. Issued 22.03.2019.
Talalay P, Liu G, Cao P, Wang R, Fan X, Yang Y, Liu B, Liu A, and Sysoev M (2019) Hot water drill system for ice drilling. Invention patent of PR of China 3288760. Issued 12.03.2019.
Chen C, Zhang H, Talalay P, Wang Y, Chen Y, and Li X (2019) Debris fishing barrel for polar deep ice drilling with continuous vibration function. Invention patent of PR of China 3273775. Issued 18.01.2019.
Yang Y, Liu B, Talalay P, Gong D, Fan X, and Liu Y (2019) Hot air coring tool for ice drilling. Utility model patent of PR of China 8313181. Issued 04.01.2019.
Fan X, Wang T, Talalay P, Yang Y, and Liu A (2018) Hot water coring tool from bottom surface triggered by hydraulic. Utility model patent of PR of China 8228917. Issued 18.12.2018.
Fan X, Talalay P, Sun Y, Cao P, Wang R, Zhang N, Wang T, Li X, and Li Y (2018) Thermal coring device for bottom ice in hot water drilling hole. Utility model patent of PR of China 8147357. Issued 30.11.2018.
Talalay P, Li Y, Sun Y, Fan X, Sysoev M, Yang Y, Wang T, Li X, and Zhao G (2018) Thermal drill bit for subglacial sampling. Utility model patent of PR of China 8054587. Issued 09.11.2018.
Fan X, Talalay P, Sun Y, Sysoev M, Xue J, Zheng Z, Cao P, Zhang N, Yang Y, Gong D, and Zhang H (2018) Movable drilling shelter for polar ice and bedrock drilling. Invention patent of PR of China 3079871. Issued 18.09.2018.
Wang R, Liu A, Talalay P, Liu G, Liu B, Cao P, Zhang N, Fan X , Yang Y, and Markov A (2018) An experimental system for simulating the Antarctic subglacial environment. Invention patent of PR of China 3039943. Issued 21.08.2018.
Talalay P, Li X, Gong D, Fan X, Liu Y, Li X, and Zhang H (2018) Static fishing device. Invention patent of PR of China 3028421. Issued 10.08.2018.
Wang R, Liu A, Talalay P, Sun Y, Sysoev M, Yang Y, Cao P, Fan X, Liu G, and Li X (2018). A hot water coring drill bit for polar ice and snow. Invention patent of PR of China 2853335. Issued 23.03.2018.
Talalay P, Li X, Gong D, Cao P, Wang R, Zhang N, Fan X, and Yang Y (2018). An efficient magnetic fishing device for ice core drilling. Invention patent of PR of China 2832005. Issued 02.03.2018.
Yang Y, Fan X, Talalay P, Cao P, Zhang N, and Wang R (2018) Hot water coring device for polar subglacial bedrock. Utility model patent of PR of China 6988035. Issued 13.02.2018.
Yang Y, Fan X, Talalay P, Cao P, Zhang N, Wang R, Liu A, and Li X (2018) Hot water coring device for polar ice layer. Utility model patent of PR of China 6983853. Issued 13.02.2018.
Wang T, Fan X, Talalay P, Li X, Liu A, and Li X (2018) Self-rotating ice coring device driven by hot water. Utility model patent of PR of China 6988030. Issued 13.02.2018.
Wang R, Talalay P, Gong D, Sun Y, Cao P, Zhang N, Zheng Z, Fan X, Hu Z, and Yang C (2017) A bottom-power air-turbine drill with reverse circulation used for continuous coring in Polar Regions. Invention patent of PR of China 2798549. Issued 18.08.2017.
Talalay P, Li X, Yang C, Zhang H, Liu G, Li X, Liu A, Cao P, Zhang N, Ma Y, Gao K (2016) Carbide coring bit for polar debris-rich ice. Utility model patent of PR of China 5567373. Issued 21.09.2016.
Fan X, Talalay P, Zhang N, Cao P, Wang T, Yang C, Gong D, Hong J, and Liu G (2016) Ice hardness and compressive strength testing equipment at low temperature. Invention patent of PR of China 2103442. Issued 08.06.2016.
Markov A, Guo Y, Cui H, Talalay P, Guo M, Sysoev M, and Zhao E (2015). Fiber optic acoustic fluoroscope. Invention patent of PR of China 2308808. Issued 07.12.2015.
Talalay P, Hong J, Fan X, Cao P, Zheng Z, Zhang N, Wang R, Sysoev M, Gong D, and Jun X (2015) Borehole casing technology for ice sheet. Invention patent of PR of China 1834963. Issued 04.11.2015.
Cao P, Liu C, Zheng Z, Talalay P, Gong W, Bai Y, Zhang Y, Qiao Y, Hu Z, and Yang C (2015) Testing device and testing method of cutting heat and drilling parameters in ice rotary drilling. Invention patent of PR of China 1827393. Issued 28.10.2015.
Talalay P, Sysoev M, and Markov A (2015) Recyclable automatic subglacial environment sonde. Invention patent of PR of China 1736745. Issued 29.07.2015.
Zhang N, Fan X, Talalay P, Cao P, Zheng Z, Hu Z, and Sysoev M (2015) The MWD method for the thickness of sea ice and river ice. Invention patent of PR of China 1659856. Issued 26.06.2015.
Wang R, Talalay P, Yang C, Gong D, Sun Y, Cao P, Sysoev M, Zheng Z, Hu Z, and Xue J (2015) Multifunctional testing platform of the electromechanical drill for ice drilling in Polar Regions. Invention patent of PR of China 1691343. Issued 10.06.2015.
Fan X, Talalay P, Zhang N, Xue J, Cao P, Zheng Z, Yu D, Hu Z, Yang C, and Mao J (2014) Method and device for deviational drilling in Polar ice. Invention patent of PR of China 1513552. Issued 05.11.2014.
Hu Z, Talalay P, Zheng Z, Xue J, Cao P, Fan X, and Yang C (2014) Cable suspended air local reverse circulation electric mechanical core drill. Invention patent of PR of China 1456278. Issued 06.08.2014.
Sun Y, Mao J, Fan X, Talalay P, Zhang N, Xue J, Cao P, Yu D, Li Q, Hu Z, Yang C, and Gong D (2014) Rotary thermal drill bit. Invention patent of PR of China 1455180. Issued 06.08.2014.
Talalay P, Fan X, Zhang N, Sun Y, Xue J, Cao P, Zheng Z, Yu D, Hu Z, Yang C, and Mao J (2014) Thermal drill bit for directional drilling in ice sheet. Invention patent of PR of China 1442762. Issued 16.07.2014.
Chengwei F, Wei H, Talalay P, Ming G, Yiming L, Nan Z, Chaovan Y, Wenlong Y, and Markov A (2014) A flow collecting device based on wireless data transmission. Utility model patent of PR of China 3407589. Issued 12.02.2014.
Markov A and Talalay P (2013) A generating of inner pressure from the phase change from water to ice. Utility model patent of PR of China 3339485 from 04.07.2013. Issued 25.12.2013.
Markov A and Talalay P (2013) Piezoelectric ceramics generation device for the power transportation from pressure by phase change from water to ice. Utility model patent of PR of China 3339285. Issued 25.12.2013.
Markov A and Talalay P (2013). A generating set using phase change energy from water to ice and ice to water. Utility model patent of PR of China 3338249. Issued 25.12.2013.
Wang R, Talalay P, Wang J, Cao P, Gong D, Sun Y, Zheng Z, Zhang N, Fan X, and Hu Z (2013) Air reverse circulation continuous coring bit for fast drilling on the ice sheet. Utility model patent of PR of China 3297787. Issued 04.12.2013.
Zheng Z, Yu C, Sun Y, Talalay P, Fan X, Zhang Y, Yang C, Su K, Yang D, Wang R, Yu D, and Xue J (2013) Anti-torque device using in the drilling for bedrock core beneath the deep ice. Utility model patent of PR of China 3237576. Issued 06.11.2013.
Fan X, Sun Y, Talalay P, Wang O, Mao J, Li Q, and Wang T (2013) Reversing mechanism for polished rod traverse unit. Utility model patent of PR of China 2734484. Issued 06.03.2013.
Talalay P, Yang C, Zheng Z, Cao P, Zhang N, Han W, Fu C, Hu Z, Yu C, and Xue J (2013) Testing equipment of the circulation system of the electromechanical drill for deep coring in ice sheets. Utility model patent of PR of China 3264606. Issued 20.11.2013.
Sun Y, Talalay P, Cao P, Zheng Z, Zhang N, Gao K, Liu J, and Xue J (2012). Rotary drilling device for bedrock core drilling beneath the ice sheet in the Polar Regions. Utility model patent of PR of China 2554526. Issued 05.12.2012.
Ivanov SL, Mihajlov AV, Talalay PG, and Stepuk EYu (2011) Shnekovaya ustanovka dlya dobychi torfa [Auger plant for production of peat]. Patent of Russian Federation RU2412353C1. Issued 20.02.2011.
Eist YuA, Gorshkov LK, Talalay PG, and Shibkova TV (2008) Ustrojstvo dlya otdeleniya cilindricheskoj zagotovki ot massiva gornyh porod [Device for separating cylinder-shaped stock from rock mass]. Patent of Russian Federation RU2325526C1. Issued 27.05.2008.
Abyzov SS, Bobin NE, Talalay PG, YAnkilevich SV (2006) Ustrojstvo dlya otbora prob iz podlednikovyh vodoemov [Device for sample taking from water pools covered with ice]. Patent of Russian Federation RU2282842C1. Issued 27.08.2006.
Chistyakov VK, Talalay PG, and Stepanov VI (2001) Promyvochnaya zhidkost' dlya bureniya skvazhin v ledovyh otlozheniyah [Washing fluid for drilling holes in ice deposits]. Patent of Russian Federation RU2168532C1. Issued 10.06.2001.
Chistyakov VK and Talalay PG (1992) Burovoj snaryad [Drilling rig]. Patent of USSR SU1761934A1. Issued 15.09.1992.
Vasiliev NI, Talalay PG, and Chistyakov VK (1992) Burovoj snaryad [Drilling tool]. Patent of USSR SU1716067A1. Issued 28.02.1992.
Vasiliev NI, Talalay PG, and Ufaev VV (1989) Burovoj snaryad [Drilling tool]. Patent of USSR SU1467154A1. Issued 23.03.1989.

References

^ "Санкт-Петербургский государственный горный институт им. Г. В. Плеханова (технический университет)". Будь Инженером (in Russian). St. Petersburg: ASKON. 2007. Retrieved 2020-09-29.
^ "Российский профессор Талалай Павел приглашен на работу в Цзилиньском университете". Renmin Zhibao (in Russian). Xinhua. 2010-07-15. Retrieved 2020-09-29.
^ Pavel Talalay (Report) (in Chinese). Polar Research Center of Jilin University. 2017-09-19.
^ "Technical Assistance Board | NSF Ice Drilling Program".
^ 《探南极》系列访谈第四期丨钻穿南极冰盖"触摸"冰下基岩有多难？-新华网, 2024, retrieved 16 July 2024
^ "Unknown Antarctica: What Does the Ice Hide?". Springer Nature Communities. Springer Nature. Retrieved 2025-12-14.
^ https://scar.org/science/life/groundwater
^ Talalay, Pavel (2016). Mechanical Ice Drilling Technology. Springer, Singapore. Bibcode:2016midt.book.....T. doi:10.1007/978-981-10-0560-2. ISBN 978-981-10-0560-2. S2CID 132032681.
^ Talalay, Pavel (2020). Thermal Ice Drilling Technology. Springer Geophysics. ISBN 978-981-13-8848-4.
^ Talalay, Pavel (2022). Geotechnical and Exploration Drilling in the Polar Regions. Springer Polar Sciences. Springer Polar Sciences. doi:10.1007/978-3-031-07269-7. ISBN 978-3-031-07269-7. S2CID 255739869.
^ Talalay, Pavel G. (2024). Mining and Construction in Snow and Ice. Springer Polar Sciences. doi:10.1007/978-3-031-76508-7. ISBN 978-3-031-76507-0.
^ Witze, Alexandra (2019-03-05). "Chinese crew extract first rock from beneath East Antarctic ice in 60 years". Nature. Retrieved 2020-09-29.
^ "Премия за древнее озеро". Наука и Жизнь (in Russian). Новости науки и техники. 2006-02-08. Retrieved 2020-09-29.
^ "School of Chemistry and Materials Science". Jilin University. Jilin University. Retrieved 14 December 2025.
^ "Действительные члены АГН". Академия горных наук (in Russian). Академия горных наук. Retrieved 2025-12-14.
^ "Российский ученый избран иностранным академиком Инженерной академии Китая". russian.news.cn (in Russian). Xinhua News Agency. Retrieved 2025-12-14.

[1] "Санкт-Петербургский государственный горный институт им. Г. В. Плеханова (технический университет)". Будь Инженером (in Russian). St. Petersburg: ASKON. 2007. Retrieved 2020-09-29.

[2] "Российский профессор Талалай Павел приглашен на работу в Цзилиньском университете". Renmin Zhibao (in Russian). Xinhua. 2010-07-15. Retrieved 2020-09-29.

[3] Pavel Talalay (Report) (in Chinese). Polar Research Center of Jilin University. 2017-09-19.

[4] "Technical Assistance Board | NSF Ice Drilling Program".

[5] 《探南极》系列访谈第四期丨钻穿南极冰盖"触摸"冰下基岩有多难？-新华网, 2024, retrieved 16 July 2024

[6] "Unknown Antarctica: What Does the Ice Hide?". Springer Nature Communities. Springer Nature. Retrieved 2025-12-14.

[7] ttps://scar.org/science/life/groundwater

[8] Talalay, Pavel (2016). Mechanical Ice Drilling Technology. Springer, Singapore. Bibcode:2016midt.book.....T. doi:10.1007/978-981-10-0560-2. ISBN 978-981-10-0560-2. S2CID 132032681.

[9] Talalay, Pavel (2020). Thermal Ice Drilling Technology. Springer Geophysics. ISBN 978-981-13-8848-4.

[10] Talalay, Pavel (2022). Geotechnical and Exploration Drilling in the Polar Regions. Springer Polar Sciences. Springer Polar Sciences. doi:10.1007/978-3-031-07269-7. ISBN 978-3-031-07269-7. S2CID 255739869.

[11] Talalay, Pavel G. (2024). Mining and Construction in Snow and Ice. Springer Polar Sciences. doi:10.1007/978-3-031-76508-7. ISBN 978-3-031-76507-0.

[12] Witze, Alexandra (2019-03-05). "Chinese crew extract first rock from beneath East Antarctic ice in 60 years". Nature. Retrieved 2020-09-29.

[13] "Премия за древнее озеро". Наука и Жизнь (in Russian). Новости науки и техники. 2006-02-08. Retrieved 2020-09-29.

[14] "School of Chemistry and Materials Science". Jilin University. Jilin University. Retrieved 14 December 2025.

[15] "Действительные члены АГН". Академия горных наук (in Russian). Академия горных наук. Retrieved 2025-12-14.

[16] "Российский ученый избран иностранным академиком Инженерной академии Китая". russian.news.cn (in Russian). Xinhua News Agency. Retrieved 2025-12-14.

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