Presentation is loading. Please wait.

Presentation is loading. Please wait.

Plant & Reactor Design Passive Reactor Core Cooling System

Published byDomenic Benson Modified over 8 years ago

Similar presentations

Presentation on theme: "Plant & Reactor Design Passive Reactor Core Cooling System"— Presentation transcript:

1 Plant & Reactor Design Passive Reactor Core Cooling System
Pressurized Core Flooding Tanks (Accumulators) 75% cold borated water 25% nitrogen / inert gas (pressurizer) Normal condition: Check valves closed due to greater reactor pressure Accident Incident: Check valves open due to reactor pressure drop One-time, preliminary cooling system

2 Plant & Reactor Design Passive Reactor Core Cooling System
Elevated Tank Circulation Loops (Core Make-up Tanks) Contains cold borated water Tank inflow (top) is connected to reactor coolant system Accident Incident: Cold borated water flows into hot reactor core & back into the tank Short-term cooling system (no heat exchanger)

3 Passive Reactor Core Cooling System Elevated Gravity Drain Tanks
Plant & Reactor Design Passive Reactor Core Cooling System Elevated Gravity Drain Tanks Similar to accumulator, except this is driven by gravity rather than pressurized gas Accident Incident: Check valves open when weight of borated water is greater than reactor pressure Borated water volume sufficient to flood entire reactor cavity One-time, preliminary cooling system

4 Plant & Reactor Design Passive Reactor Core Cooling System
Passively Cooled Steam Generator Natural Circulation Incorporated in PWRs to remove heat from steam generators Leaves steam generator undamaged from overheating during accident Continuous cooling system

5 Plant & Reactor Design Passive Reactor Core Cooling System
Passive Residual Heat Removal (PRHR) Heat Exchangers Similar to passively cooled steam generator natural circulation (previous) Incorporated in PWRs to remove heat directly from reactor core rather than steam generator Continuous cooling system during accident

6 Plant & Reactor Design Passive Systems for Containment & Pressure Suspension Containment Passive Heat Removal / Pressure Suppression Systems Steam vented into the containment condenses on incline tubes (red) Reduces temperature & pressure in containment Cooling water flows due to natural circulation (heated water rises)

7 Plant & Reactor Design Passive Systems for Containment & Pressure Suspension Passive Containment Spray Systems Hear transferred from containment wall to air outside the wall Heat outside the containment wall is cooled by cooler air blown from the bottom Pool on top of containment accelerates cooling process via gravity driven cold water spray

Download ppt "Plant & Reactor Design Passive Reactor Core Cooling System"

Similar presentations

CONTROLS OF SUPER CRITICAL BOILERS

CONTROLS OF SUPER CRITICAL BOILERS
Generic Pressurized Water Reactor (PWR): Safety Systems Overview

Generic Pressurized Water Reactor (PWR): Safety Systems Overview
Laddomat 21 For accumulation when using a wood-fired boiler Picture 1

Laddomat 21 For accumulation when using a wood-fired boiler Picture 1
Automobile Engine NO.4. NO.1 Mercedes-Benz E-class.

Automobile Engine NO.4. NO.1 Mercedes-Benz E-class.
Cooling System Get the engine up to optimum operating Temperature as quickly as possible and maintains it at that temperature. Controls the heat produced.

Cooling System Get the engine up to optimum operating Temperature as quickly as possible and maintains it at that temperature. Controls the heat produced.
Unit 206: Domestic hot water systems

Unit 206: Domestic hot water systems
Proposed Modifications in Boiler Feed Tank By: D K Singhal

Proposed Modifications in Boiler Feed Tank By: D K Singhal
Watertube Boiler.

Watertube Boiler.
Cooling As working temperatures rise, the strength of metals used reduces. This in turn will force manufacturers to use superior metals/alloys, which can.

Cooling As working temperatures rise, the strength of metals used reduces. This in turn will force manufacturers to use superior metals/alloys, which can.
ACADs (08-006) Covered Keywords Pressurized Water Reactor (PWR), Boiling Water Reactor (BWR), primary loop, reactivity, reactivity control, reactivity.

ACADs (08-006) Covered Keywords Pressurized Water Reactor (PWR), Boiling Water Reactor (BWR), primary loop, reactivity, reactivity control, reactivity.
CRP on Natural Circulation Phenomena, Modelling and Reliability of Passive Safety Systems that Utilize Natural Circulation 10-13 September, 2007, IAEA,

CRP on Natural Circulation Phenomena, Modelling and Reliability of Passive Safety Systems that Utilize Natural Circulation September, 2007, IAEA,
The Harnessed Atom Lesson Six Atoms to Electricity.

The Harnessed Atom Lesson Six Atoms to Electricity.
Boiler Circulation Natural Circulation

Boiler Circulation Natural Circulation
Section 16.3 Using Heat.

Section 16.3 Using Heat.
Drug Delivery & Tissue Engineering Laboratory

Drug Delivery & Tissue Engineering Laboratory
Section 2:Convection in the Mantle How is heat transferred? What causes convection currents? What causes convection currents in Earth’s mantle?

Section 2:Convection in the Mantle How is heat transferred? What causes convection currents? What causes convection currents in Earth’s mantle?
1 Acetone, 2-Propanol H 2 Acetone 2-Propanol L2 Acetone, 2-Propanol L201 L101L1 L3 L4 L10 L9 Condenser Reboiler Distillation Column Endothermic Reactor.

1 Acetone, 2-Propanol H 2 Acetone 2-Propanol L2 Acetone, 2-Propanol L201 L101L1 L3 L4 L10 L9 Condenser Reboiler Distillation Column Endothermic Reactor.
Skilled Trades 1201 Residential Plumbing.

Skilled Trades 1201 Residential Plumbing.
Lesson 15 Heat Exchangers DESCRIBE the difference in the temperature profiles for counter-flow and parallel flow heat exchangers. DESCRIBE the differences.

Lesson 15 Heat Exchangers DESCRIBE the difference in the temperature profiles for counter-flow and parallel flow heat exchangers. DESCRIBE the differences.
POWER PLANT.

POWER PLANT.

Similar presentations

Ads by Google