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First safety approach of the DHR system of XT-ADS

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Title: First safety approach of the DHR system of XT-ADS


1
First safety approach of the DHR system of XT-ADS
  • B. Arien

2
General purpose
  • Main objective identification of the possible
    failure modes of the DHR system and its
    weaknesses, its limits
  • Methodological approach master logic diagram
    (MLD) method
  • Accidents into consideration
  • Loss of heat sink (LOHS)
  • Loss of flow (LOF)
  • Combination of LOF and LOHS
  • Protected and unprotected cases

3
Main design assumptions
  • Primary system
  • 2 groups pump-HX (2 pumps, 4 HXs)
  • Emergency electrical supply to pumps
  • Free convection if total loss of pumps
  • Secondary system
  • 2 independent loops
  • Emergency electrical supply to pumps
  • Possibility of natural circulation to be
    considered
  • Tertiary system no design information, supposed
    to work in natural circulation and is treated as
    a whole
  • Vault system (RVACS) no design information,
    supposed to work in natural circulation mode and
    treated as a whole

4
XT-ADS Sketch of the Secondary System and DHR
System (Proposal)
5
SCK?CENs proposal
6
MLD procedure
  • For each accident type
  • Step 1 identification of the failure modes that
    initiate the accident
  • Step 2 development of a MLD for the protected
    case
  • Step 3 development of a MLD for the unprotected
    case

7
MLD procedure
  • Symbols
  • DHR system fulfills its function (
    .false.)
  • may contribute to DHR system
    failure (.true.)
  • question related to any
    unresolved problem

Accident initiating event
Failure in DHR system
8
LOHS step 1
9
(No Transcript)
10
LOHS step 2
Failure of core cooling under protected LOHS
conditions
If single secondary pump failure
If total secondary pump failure
If tertiary cooling system unavailable
If depressur. in 1 SCS loop
If depressur. in whole SCS
If pipe break in 1 SCS loop
If pipe breaks in whole SCS
If partial HX blockage (water side)
Failure of tertiary cooling system
Vault System failure
SCS pipe breaks caused by external accident
Vault System failure
Vault System failure
Over- pressure in SCS
Safety valve failures
Vault System failure
Failure of emergency electrical supply to
secondary pumps
Failure of SCS pressurization
Vault System failure
Failure of electrical supply to secondary pumps
Free convection fails to take place in the
secondary system
11
LOHS step 3
12
LOF step 1
13
(No Transcript)
14
LOF step 2
15
LOF step 3
16
LOFLOHS step 1
17
(No Transcript)
18
LOFLOHS step 2
19
LOFLOHS step 3
20
Problems to be solved
  • Q1 is the DHR possible with the SCS working in
    free convection mode?
  • Q2 is the DHR possible when the SCS is at
    atmospheric pressure?
  • Q3 can the nominal power be evacuated with the
    SCS working in free convection mode?
  • Q4 is the DHR possible with the primary system
    working in free convection mode and with the
    presence of a core bypass?
  • Q5 can the nominal power be evacuated when only
    one pump-HX group is operating in the primary
    system?
  • Q6 can the nominal power be evacuated with the
    primary system working in free convection mode ?
  • Q7 can the nominal power be evacuated with the
    primary system working in free convection mode
    and with the presence of a core bypass?
  • Q8 is the DHR possible with the primary,
    secondary and tertiary circuits working in free
    convection mode?
  • Q9 is the DHR possible via the VS with the
    primary system working in free convection mode
    and with a total blockage of the PHXs?
  • Q10 can the nominal power be evacuated with the
    primary, secondary and tertiary circuits working
    in free convection mode?

21
Cut sets for protected LOF
Failure of core cooling under protected LOF
conditions

22
Cut sets for unprotected LOF
23
Cut sets for protected LOHS
24
Cut sets for unprotected LOHS (a)
25
Cut sets for unprotected LOHS (b)
26
Cut sets for protected LOFLOHS
Failure of core cooling under protected LOFLOHS
conditions

27
Cut sets for unprotected LOFLOHS
Failure of core cooling under unprotected
LOFLOHS conditions

28
Conclusions and future work
  • A qualitative analysis was performed
  • to provide first indications on the DHR
    performance
  • to guide the future work
  • Some unresolved questions require a quantitative
    analysis
  • Design needs to be completed
  • Choice of the SCS (Ansaldo or SCK?CEN)
  • RELAP (or TRAC) model has to be developed for the
    simulation of the whole system in most of the
    transients
  • CFD model of the primary system has to be
    developed
  • Free convection simulation
  • Calibration of the RELAP model
  • Reassessment of the DHR system behaviour in
    accidental situations
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