IT systems, tools and approaches for Design Knowledge Management in Czech Republic November 27, 2014, MIT, Czech Republic
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
1
Introduction of the Czech Republic From 2004 member of European Union
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Introduction of the Czech Republic Capital city: Prague Area: 78,703 sq km Population: 10 532 770 (2011) Currency: Czech crown koruna Form of government: parliamentary democracy; bicameral Parliament consists of the Senate and the Chamber of deputies
President elected directly by citizens for a five-year term; Prime Minister is appointed by the President Official languages: Czech, Slovak
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Czech Transmission System
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Power plants and nuclear facilities in the Czech Republic
2 NPP - Dukovany - Temelín
3 Low-level radioactive waste repository - Dukovany - Jáchymov - Litoměřice 2 Intermediate storage spent nuclear fuel - Dukovany - Temelín 2 Research reactors - UJV Řež 1 School reactor - ČVUT Praha
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Czech Energy - Strategic goals
Energy security Self-sufficiency Sustainability
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Czech Energy - Strategic priorities The transformation of the energy sector Decarbonization Adequacy - including strategic reserves Diversification - balanced energy mix Energy saving and efficiency Development of infrastructure Integration of electricity, gas and oil market - the target model Infrastructure strengthening Smart grids for transmission and distribution Research in the field of energy and industry, human resources Energy security - stocks, emergency preparedness
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Czech Energy - Strengths and weaknesses Strengths Vysoká kvalita a spolehlivost dodávek energie
Weaknesses Tržní deformace a pokřivené investiční signály
Zahájení transformace výrobní základny v Stárnoucí zdrojová základna i síťová elektroenergetice infrastruktura Veřejná akceptace jaderné energetiky
Aging highly educated human resources
Rozvinuté soustavy zásobování tepelnou energií
Omezený potenciál pro vyšší rozšíření obnovitelných zdrojů
Relativně příznivý ukazatel dovozní energetické závislosti
Vysoký podíl lokálních zdrojů využívajících nekvalitní paliva
Plná soběstačnost ve výrobě elektřiny a tepla
Vysoký podíl skládkování komunálního odpadu
Know-how in complex technological units building
Vnímání samozřejmosti vysoké kvality a spolehlivosti dodávek
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Possible scenarios for Czech energy sector Inside of corridors: Optimized scenario (EDU NPP to 2037, ETE NPP to 2060 and 3 new Units)
Secure and self-sufficient scenario Traditional economic scenario Decarbonization scenario Extreme scenarios (outside of corridors, not recommended): Gas scenario with limited energy self-sufficiency Green scenario with limited energy self-sufficiency
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
9
Plynový scénář
Zelený scénář
Optimalizovaný scénář dle ASEK
Bezpečný a soběstačný
Konvenční a ekonomický
Dekarbonizační scénář
Spotřeba elektřiny
Vysoký scénář spotřeby
Nízký scénář spotřeby
Referenční scénář
Referenční scénář
Referenční scénář
Nízký scénář spotřeby
Odstavení JE
JEDU do roku 2027
JEDU do roku 2027
JEDU do roku 2037
JEDU za rok 2040
JEDU za rok 2040
JEDU do roku 2034
Nové jaderné zdroje
Žádné nové zdroje JE
Žádné nové zdroje JE
Tři bloky (20332037)
Dva bloky (2030,2032)
Jeden blok (2038)
Dva bloky (2033,2038)
Limity těžby
Zachování ÚEL na ČSA
Zachování ÚEL na ČSA
Zachování ÚEL na ČSA
Prolomení ÚEL
Prolomení ÚEL
Zachování ÚEL na ČSA
Rozvoj OZE
Nízký scénář OZE
Vysoký scénář OZE
Realistický scénář OZE
Realistický scénář OZE
Nízký scénář OZE
Vysoký FVE, VTE
Významné palivo
Zemní plyn
OZE
Jádro
Kombinace
Konvenční zdroje
Nízkoemisní zdroje
Bilance ES
Dovoz elektřiny
Dovoz elektřiny
Plná soběstačnost
Exportní saldo
Možný import
Plná soběstačnost
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Decision-Making During NPP Lifetime Designing Siting Component Manufacturing Construction Commissioning Operation and Maintenance Long Term Operation Radioactive Waste Management Decommissioning IAEA, DB NKM, Vienna, November 27, 2014
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License base, requirements for project License base consists of: Czech legislation International standards IAEA WENRA (Western Nuclear Regulators Association) requirements
level I
Czech legislation
level II
IAEA WENRA
level III
legislation in the country of origin
level IV
standards for nuclear industry
level V
industrial standards
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Licensing Procedure
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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KM - Processes Live cycle of Knowledge 2
Prioritize
3
Capture 4
1
Identification of Knowledge
Desciption (ER, Definition structure
Nomination of KM roles
Development and checking conception and documentation of KM
8
Organisational support
Feed back
7
IAEA, DB NKM, Vienna, November 27, 2014
Verification
Ing. Radek Šula
Reporting
6
expert profile, debriefing)
5 Sharing
Using
14
Czech nuclear operator – CEZ, a.s. NPP’s • Temelin NPP - 2 unit Pressurized-water reactor, VVER 1000 First connection – 2000
•Dukovany NPP - 4 unit Pressurized-water reactor, VVER 440 First connection - 1985
Installed power after turbine upgrade •
2x ~ 1070 MWe - ETE
•
4x ~ 500 MWe - EDU Approximately 35 % of ČEZ production
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Dukovany NPP Electronic Data Systems for Design Basis Knowledge Management and for Work and Configuration Management
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Graphic-Database Data System Document management
N-Lan Operating–Process Computer PassPort
MNT-Graf Operation documentation ISSPD
Alphanumerical system
Graphical system
FileNet
Koord II Scheduling
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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MNT-Graf Through interconnection of a set of applications, MNT-Graf provides its users a knowledge integration service
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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MNT-Graf Application includes alpha numerical design basis data and information of operating systems and also its graphical image in assembly drawings of systems, equipments and their parts.
For example: piping system
power supply system signal transport and processing building, floor & room lay-out
material inspection-point details assembly drawings of machines, their parts and components
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Equipment and other positions are grouped according to professions and Reactor Unit
IAEA, DB NKM, Vienna, November 27, 2014
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Piping
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Ing. Radek Šula
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Power supply
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Decision logic
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Signal processing card connection
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Floor plans
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Material inspection-point detail
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Assembly drawings of machines, their parts and components
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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And many supporting functions like statistic or economic overviews Year
1998
Num ber of P&Ids P&IDber increm enton all Num of IDs P&IDs Num ber of Ids on valid P&Ids P&ID changes/year Issued m aster P&IDs/year Marked equipm ./year ID increm ent/year
1999
2000
2001
2002
2003
2004
2005
388
2 486
1 273
2 573
8 625
3 552
207
627
314
515
781
421
4 219 21 226 16 220 1 329
601
2008
1 027
7 996 22 674 850
62
50 85 80 24 626 18 348 8 260 8 131 3 331 1 989 4 996 994 0 11 730 14 634 35 816 25 544 11 885 24 878 39 623 27 811 30 882 46 750
P&ID change control, marking - trends
11.09 Aktualizace 11.11.2009
num ber
40 000 30 000 20 000
10 000 0 Year
14 276 0 Doznačených zařízení/rok 217 Fyzicky označených v provoze 56 996
Number of issued master P&IDs trends
50 000
num ber
2007
###### ###### ###### ###### ###### ###### ###### ###### ###### ###### ###### 432 432 PC- Projektové číslo zařízení
60 000 6 000 5 000 4 000 3 000 2 000 1 000 0 Year Number of P&Ids
P&ID changes/year
Marked equipm./year
ID increment/year
Number of equip. IDs on P&IDs - trends ID num ber
2006
1 050 1 422 1 520 3 176 4 441 5 546 7 233 9 320 14 697 16 111 16 909 19 323 0 372 98 1 656 1 265 1 105 1 687 2 087 5 377 1 414 798 2 414 OS-Operativní schém a ###### ###### ###### ###### ###### ###### ###### ###### ###### ###### ###### 501 813 Počet PC na všech OS - celá historie
600 000 500 000 400 000 300 000 200 000 100 000 0 Year Number of Ids on valid P&Ids
Issued master P&IDs/year Lineární (P&ID increment)
P&ID increment
Trendy růstu grafických inform ací v systém u MNT-Graf. Grafická inform ace je považována za vrcholovou inform aci z hlediska řízení kvality a úplnosti záznam ů v registru zařízení PassPort v inform ačním systém u EDU. Registr MNT- Graf je zdrojem dat registru zařízení PassPort. Ruční vstup dat o zařízení a kom ponentě přím o do Registru zařízení Passport není vstupem věrohodných inform ací. Taková data jsou vždy při použití označena jako nevěrohodná ve všech procesech řízení, zejm éna v procesech s vlivem na jadernou, radiační a všeobecnou bezpečnost. MNT-Graf registruje zařízenínikoli kom ponenty. Označování zařízení fyzicky v provoze je důležitý param etr jakosti systém u řízení. MNT-Graf registruje zavěšení štítků na zařizení, jejich vyžádání a vyrobu na vzdáleném pracovišti.
Number of IDs on all P&IDs
Graf Počet projektových čísel ( PC ) na OS - trendy zaznam enává v křivkách podíl růstu kvality dat - zm ěnový proces na hlavním klíči registru na projektovém čísle zařízení. Siegel
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Temelin NPP Electronic Data Systems for Design Basis Knowledge Management and for Work and Configuration Management
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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International cooperation on Temelin NPP Design basis project
Implementation project Construction Commissioning
Nuclear Fuel IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Temelin - Intranet portal
IAEA, DB NKM, Vienna, November 27, 2014
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Outages management system - KSK system Passport More as 8000 work orders per outage
Primavera Twice daily recalculation
Plant Schema Automatic generation of proposals locking orders IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Communication system - KSK
IAEA, DB NKM, Vienna, November 27, 2014
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Schemes of systems and pieces of equipment and their components
IAEA, DB NKM, Vienna, November 27, 2014
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Information for TOP management - TEDIS I/II
IAEA, DB NKM, Vienna, November 27, 2014
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Information for work management - TEDIS I/II
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Information for workers - Daily schedule
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Daily Shifts Plan
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Detail view to configuration setting
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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ADS - retrieval system - outage preparation
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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KM portal
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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ADS – Experience reports overview
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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ECM - Document Management System
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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E - learning
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Ing. Radek Šula
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Research Centre Rez - CV Rez Research organization daughter company of NRI (Nuclear Research Institute Rez)
Main activities: research, development and innovations in the field of energy (especially nuclear)
Unique research infrastructure: reactors LVR-15 and LR-0 technological experimental circuits Significant modernization of the infrastructure is expected to be realized in following 4 years due to realization of the SUSEN project (realized in the framework of the Operational Programme Research and Development for Innovations of the European Regional Development Fund).
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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CV Rez - Research Reactors – LVR-15 The LVR-15 is a tank-type light water research reactor located in a non-pressurized vessel under a shielded lid, with forced cooling and with operating thermal output up to 10 MW.
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Low and Intermediate Radioactive Waste management in the Czech Republic Act no. 18/1997, on the peaceful uses of nuclear energy and ionizing radiation (Atomic Act) RW management – responsibility of the State Import of RW is forbidden Collection, sorting, treatment, conditioning, transport, storage RW generators Disposal - RAWRA
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Radioactive Waste Repository Authority Established in June 1997 under the provision of the Atomic Act
State-owned organization Mission - to ensure the safe disposal of RW Main goal - repository operation - DGR development Annual plan and budget approved by the Government Financed from Nuclear account Supervised by RAWRA’s Board
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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LILW Repositories in the CR
Richard Bratrství
Praha Hostím
NPP
Temelín
Repository SF Storage Closed facility
IAEA, DB NKM, Vienna, November 27, 2014
Dukovany
Ing. Radek Šula
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The Dukovany Repository Situated at the Dukovany NPP site Waste generated by the nuclear power sector 55 000 m3 storage space
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Development and structure of gross electricity production Hrubá výroba elektřiny (předběžně, rok 2012, IEA)
Hrubá výroba elektřiny (rok 2040)
6%
1.63%
2.25%
3% 15.24% 35%
9.30% 46%
48.80% 22.78%
9%
1% Černé uhlí Zemní plyn Jádro
IAEA, DB NKM, Vienna, November 27, 2014
Hnědé uhlí Obnovitelné zdroje energie Ostaní
Ing. Radek Šula
Černé uhlí Zemní plyn Jádro
Hnědé uhlí Obnovitelné zdroje energie Ostatní
51
Development and structure of production of electricity from renewable energy sources 25 000
20 000
GWh
15 000
10 000
5 000
0 2010
2015
2020
Biomasa Vodní elektrárny Geotermální energie IAEA, DB NKM, Vienna, November 27, 2014
2025 Bioplyn Větrné elektrárny
Ing. Radek Šula
2030
2035
2040
Biologicky rozložitelná část TKO Fotovoltaické elektrárny
52
The share of renewable energy in gross final consumption in the Czech Republic 30%
25% 21.07% 19.09%
20% 17.30% 15.82% 14.17%
15%
10%
11.98% 8.68%
5%
0% 2010
2015
2020
Podíl OZE na HKS
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
2025
Závazek do roku 2020
2030
2035
2040
Maximální potenciál
53
Production and installed capacity - example
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Why we need new sources Flows of energy – example from practice
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Sustainable Nuclear Power Engineering
Safety
Security
IAEA, DB NKM, Vienna, November 27, 2014
and competitiveness
Safeguards
Ing. Radek Šula
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Requirements to Design basis Inalienable requirements National low International requirements - IAEA, WENRA, WANO Industry requirements and standards Environmental requirements and standards ... Other requirements Financial aspects Work with secret information Availability of information (targeted information x awareness) Feed back from all related points
Bridge among departments, companies, people generations IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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KM on a daily basis
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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Thank you for your attention
IAEA, DB NKM, Vienna, November 27, 2014
Ing. Radek Šula
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