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Valves for Nuclear Power PlantsTbilisi

Tbilisi is the hub for Georgia's critical oil and gas pipeline transit corridor — the BTC pipeline (Baku–Tbilisi–Ceyhan, operated by BP, carrying 1.2 MBPD Azeri Light crude across 1,768 km) and the SCP/TANAP pipeline (Shah Deniz gas, 691 km Georgia section, supplying Turkey and Europe) both have pump stations and compressor stations in Georgia requiring API 6D mainline ball valves, actuated ESD ball valves for remote pipeline sections, and Class 600 gate valves for block valves at intermediate compressor/pump stations; Rustavi Chemical Plant's urea and ammonia operations require A217 WC6 gate valves for ammonia synthesis, SS 316L check valves for urea reactor circuits, and ASME B16.34 Class 300 globe valves; Georgian hydroelectric plants (Enguri, Vardnili, Lajanuri) require large-bore butterfly valves (AWWA C504); Vajra Industrial Solutions supplies Georgian pipeline operators, EPC firms, and Rustavi Chemical's maintenance division with API 6D compliant valve packages and English/Russian bilingual MTCs.

ASME Section III Class 2/3 gate, globe, and check valves with N-stamp traceability for nuclear power plant balance-of-plant, auxiliary, and spent-fuel cooling systems.

ASME Section III (Class 2/3)ASME B16.34IEEE 382 (MOV)IEEE 344 (Seismic)10 CFR 50 Appendix B
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Nuclear Power Plants Valves — Available in Tbilisi

Gate Valve (ASME Sec. III Cl.2)

Class 150 / 300 / 600 (ASME B16.34 ratings)

Main isolation on auxiliary cooling, emergency core cooling (ECCS) suction, and spent fuel pool cooling

Materials: A351 CF8M (SS316 cast), A182 F316 forged (Class 2); WCB with SS316 trim (Class 3)  ·  Standards: ASME Section III NB/NC/ND, ASME B16.34, ASME B16.10
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Globe Valve

Class 150 / 300

Throttling and control on reactor auxiliary cooling, chemical dosing, and letdown systems

Materials: A351 CF8M SS316, A182 F316L for radioactive waste service  ·  Standards: ASME Section III Class 2/3, IEEE 382 for motor-operated versions
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Check Valve

Class 150 / 300 / 600

Back-flow prevention on ECCS injection lines, charging pump outlets, and feedwater systems

Materials: A351 CF8M (SS316), A182 F316 lift or swing check  ·  Standards: ASME Section III Class 2/3, API 594
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Butterfly Valve

Class 150

Large-bore isolation on service water, component cooling water, and turbine building HVAC

Materials: A216 WCB with SS316 disc and EPDM seat; rubber-lined for raw water service  ·  Standards: ASME Section III Class 3, AWWA C504, IEEE 382
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Nuclear Power Plants Industry in Tbilisi

Tbilisi is the hub for Georgia's critical oil and gas pipeline transit corridor — the BTC pipeline (Baku–Tbilisi–Ceyhan, operated by BP, carrying 1.2 MBPD Azeri Light crude across 1,768 km) and the SCP/TANAP pipeline (Shah Deniz gas, 691 km Georgia section, supplying Turkey and Europe) both have pump stations and compressor stations in Georgia requiring API 6D mainline ball valves, actuated ESD ball valves for remote pipeline sections, and Class 600 gate valves for block valves at intermediate compressor/pump stations; Rustavi Chemical Plant's urea and ammonia operations require A217 WC6 gate valves for ammonia synthesis, SS 316L check valves for urea reactor circuits, and ASME B16.34 Class 300 globe valves; Georgian hydroelectric plants (Enguri, Vardnili, Lajanuri) require large-bore butterfly valves (AWWA C504); Vajra Industrial Solutions supplies Georgian pipeline operators, EPC firms, and Rustavi Chemical's maintenance division with API 6D compliant valve packages and English/Russian bilingual MTCs.

Oil & Gas Pipeline (BTC, SCP — strategic transit corridor)Mining & Metallurgy (RMG Gold, TBC Copper)Chemical Industry (Rustavi Chemical Plant)Power Generation (Enguri HPP, Gardabani gas)Engineering & Construction EPC

Critical Valve Requirements

ASME Section III Class 2/3 design: complete material traceability (Certified Material Test Reports — CMTRs) for all pressure-boundary components
N-stamp or NA-stamp: third-party ASME Nuclear Inspector oversight for Class 2 and above
Seismic qualification per IEEE 344 — valves on safety-related systems must withstand Operating Basis Earthquake (OBE) and Safe Shutdown Earthquake (SSE)
Motor-operated valves (MOVs) qualified per IEEE 382 — torque, voltage variation, and harsh-environment performance testing
QA programme per 10 CFR 50 Appendix B (USA) or AERB Safety Guide (India) — design control, procurement document control, inspection, and test records
No substitution of materials without NCR (Non-Conformance Report) and AERB/NRC approval — traceability is mandatory

Why Tbilisi's Oil & Gas Pipeline (BTC, SCP — strategic transit corridor) Sector Needs Nuclear Power Plants Valves

Tbilisi is the hub for Georgia's critical oil and gas pipeline transit corridor — the BTC pipeline (Baku–Tbilisi–Ceyhan, operated by BP, carrying 1.2 MBPD Azeri Light crude across 1,768 km) and the SCP/TANAP pipeline (Shah Deniz gas, 691 km Georgia section, supplying Turkey and Europe) both have pump stations and compressor stations in Georgia requiring API 6D mainline ball valves, actuated ESD ball valves for remote pipeline sections, and Class 600 gate valves for block valves at intermediate compressor/pump stations; Rustavi Chemical Plant's urea and ammonia operations require A217 WC6 gate valves for ammonia synthesis, SS 316L check valves for urea reactor circuits, and ASME B16.34 Class 300 globe valves; Georgian hydroelectric plants (Enguri, Vardnili, Lajanuri) require large-bore butterfly valves (AWWA C504); Vajra Industrial Solutions supplies Georgian pipeline operators, EPC firms, and Rustavi Chemical's maintenance division with API 6D compliant valve packages and English/Russian bilingual MTCs. Key facilities in the Tbilisi area — including BTC (Baku–Tbilisi–Ceyhan) Pipeline Georgia Section (345 km — 1.2 MBPD BP-operated), SCP (South Caucasus Pipeline / TANAP feed) — 691 km Shah Deniz gas transit, Rustavi Chemical Plant (ammonia, urea, fertiliser production) — rely on Gate Valve (ASME Sec. III Cl.2) for their oil & gas pipeline (btc, scp — strategic transit corridor) operations. Vajra Industrial Solutions supplies Gate Valve (ASME Sec. III Cl.2), Globe Valve, Check Valve, Butterfly Valve for nuclear power plants projects across Tbilisi, with full ASME Section III (Class 2/3) and ASME B16.34 compliance documentation — EN 10204 3.1 material test certificates, API 598 pressure test reports, and third-party inspection co-ordination available for every order.

Delivery to Tbilisi

Vajra Industrial Solutions offers export documentation and delivery to Tbilisi in 7–14 business days. Emergency dispatch available for plant shutdowns and critical site requirements.

Also serving: BTC (Baku–Tbilisi–Ceyhan) Pipeline Georgia Section (345 km — 1.2 MBPD BP-operated), SCP (South Caucasus Pipeline / TANAP feed) — 691 km Shah Deniz gas transit, Rustavi Chemical Plant (ammonia, urea, fertiliser production), Georgian Oil and Gas Corporation (GOGC) Gardabani Power Station (110 MW gas-fired), Georgian International Energy Corporation (GIEC) Poti Port Terminal

FAQ — Nuclear Power Plants Valves in Tbilisi

Do you supply nuclear power plants valves in Tbilisi?
Yes. Vajra Industrial Solutions supplies Gate Valve (ASME Sec. III Cl.2), Globe Valve, Check Valve, Butterfly Valve for nuclear power plants applications in Tbilisi, Tbilisi. Tbilisi is the hub for Georgia's critical oil and gas pipeline transit corridor — the BTC pipeline (Baku–Tbilisi–Ceyhan, operated by BP, carrying 1.2 MBPD Azeri Light crude across 1,768 km) and the SCP/TANAP pipeline (Shah Deniz gas, 691 km Georgia section, supplying Turkey and Europe) both have pump stations and compressor stations in Georgia requiring API 6D mainline ball valves, actuated ESD ball valves for remote pipeline sections, and Class 600 gate valves for block valves at intermediate compressor/pump stations; Rustavi Chemical Plant's urea and ammonia operations require A217 WC6 gate valves for ammonia synthesis, SS 316L check valves for urea reactor circuits, and ASME B16.34 Class 300 globe valves; Georgian hydroelectric plants (Enguri, Vardnili, Lajanuri) require large-bore butterfly valves (AWWA C504); Vajra Industrial Solutions supplies Georgian pipeline operators, EPC firms, and Rustavi Chemical's maintenance division with API 6D compliant valve packages and English/Russian bilingual MTCs. We offer export documentation and delivery to Tbilisi in 7–14 business days with full documentation and third-party inspection.
What certifications are required for nuclear power plants valves in Tbilisi?
For nuclear power plants in Tbilisi, the applicable standards are: ASME Section III (Class 2/3), ASME B16.34, IEEE 382 (MOV), IEEE 344 (Seismic), 10 CFR 50 Appendix B, AERB (India), NRC Regulatory Guides. All valves are supplied with full documentation including material test reports (EN 10204 3.1/3.2), pressure test certificates, and dimensional inspection reports. Third-party inspection (TPI) by EIL, Bureau Veritas, Lloyd's Register, or the client's nominated inspector can be arranged.
What is the delivery time for nuclear power plants valves to Tbilisi?
Standard stock sizes: export documentation and delivery to Tbilisi in 7–14 business days. Custom sizes and special materials (Duplex, Hastelloy, P91): 4–8 weeks manufacturing lead time. Express dispatch available for urgent site requirements. Contact us at +91-9979774557 or sales@vajravyuh.com with your specification and required delivery date.
What is ASME Section III and why does nuclear require it?
ASME Section III is the Boiler and Pressure Vessel Code for Nuclear Facility Components. Unlike ASME B16.34 (industrial valves), Section III imposes full design analysis, material traceability to mill certificates (CMTRs), N-stamp third-party oversight during manufacturing, and complete quality records. Class 1 covers the primary pressure boundary (reactor coolant), Class 2 covers safety-related secondary systems (ECCS, spent fuel cooling), and Class 3 covers other safety-related systems (service water). Vajra supplies Class 2 and 3 components for balance-of-plant applications.
What is the difference between nuclear Class 2 and Class 3 valves?
ASME Section III Class 2 applies to systems that could affect the safety function of the reactor coolant boundary — e.g., emergency core cooling, spent fuel pool cooling. Class 3 applies to systems important to safety but with a lower direct interface — service water, fire protection, component cooling water. Class 2 requires more rigorous design documentation, full material traceability, and N-stamp inspection. Class 3 has slightly relaxed requirements but still demands CMTRs and a documented QA programme.

Other Application Guides for Tbilisi

Oil & Gas PipelinesPharmaceutical & Biotech (Cleanroom / Hygienic)LNG & Cryogenic ServiceWater Treatment & DesalinationRefinery & Petrochemical ProcessPower Generation (Thermal, Gas, Hydro)Marine & Offshore ServiceMining & Mineral ProcessingHVAC & Building ServicesChemical & Petrochemical ProcessingHygienic Food & Beverage ProcessingHydrogen & Clean Energy ServiceDesalination & High-Purity WaterPulp & Paper IndustryAmmonia & Fertiliser PlantsOffshore & Subsea ApplicationsCoke Oven & Steel PlantsEthylene Crackers & Olefin PlantsChlor-Alkali PlantsSugar & Ethanol PlantsGeothermal Power PlantsAir Separation Units (ASU)Compressed Gas & CNG SystemsBiogas & Biomass PlantsCarbon Capture & Storage (CCS)Fire Protection SystemsShipbuilding & Marine RepairDistrict Heating & Cooling SystemsPharmaceutical & Biotechnology PlantsGlass, Ceramics & Refractory IndustriesTextile & Dyeing Plants

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Nuclear Power Plants Valves — Tbilisi

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Standards

ASME Section III (Class 2/3)
ASME B16.34
IEEE 382 (MOV)
IEEE 344 (Seismic)
10 CFR 50 Appendix B
AERB (India)
NRC Regulatory Guides

Product Categories

Gate Valves Globe Valves Butterfly Valves Check Valves

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