E S T O N I A N   T O U R N A M E N T   B R I D G E   L E A G U E
5 2 T H   T A L L I N N   B R I D G E   F E S T I V A L   2 0 1 9
I N V I T A T I O N A L   P A I R S   -   B U T L E R   T O U R N A M E N T
G E N E R A T E D   :   0 2 . 0 5 . 2 0 1 9   1 9 : 5 8 : 3 3
PROTOCOLS PRODUCED BY VAMBOLA KASE - BRIDGE CALCULATION PROGRAM
B O A R D   N R .   2 5                   25 AQT2           N S B O A R D   N R .   2 6                  
P-NS NS R-NS Nt P TR L R-EW EW P-EW D: N 75   5 5 P-NS NS R-NS Nt P TR L R-EW EW P-EW
+49 28 300 5♣ E -3 ♠8   23 -49 E-W T875   5 5 -58 28   1Nt E = T 90 23 +58
-32 4 100 3Nt E -1 2   31 +32   654   5 5 +19 4 110 2 N +1 K   31 -19
-32 13 100 3Nt E -1 2   8 +32 J75 643 6 6 -59 13   3 N -1 K 100 8 +59
-32 26 100 3Nt E -1 3   10 +32 QJT9 A8 Nt 5 5 -59 26   3 S -1 9 100 10 +59
-32 7 100 3Nt E -1 3   6 +32 A3 KQ964   E W -59 7   3 N -1 A 100 6 +59
-32 22 100 3Nt W -1 7   9 +32 J982 AK3 8 8 -58 22   1Nt E = T 90 9 +58
-32 20 100 3Nt E -1 3   1 +32   K98   8 8 +11 20 90 2 N = A   1 -11
+13 2 200 3Nt E -2 ♠9   27 -13 NS.OPT K6432   8 8 +19 2 110 2 N +1 ♣8   27 -19
-32 17 100 3Nt E -1 4   11 +32 -120 J2   7 7 +11 17 90 2 N = K   11 -11
+13 21 200 3Nt E -2 4   29 -13         QT7         Nt 8 8 -59 21   3 N -1 A 100 29 +59
-32 15 100 3Nt W -1 7   24 +32 26 4           N S +86 15 300 5♣ E -3 T   24 -86
-32 16 100 3Nt E -1 2   3 +32 D: E T953   5 5 +19 16 110 2 S = 9   3 -19
-32 12 100 3Nt E -1 2   25 +32 ALL KQ7642   8 8 +33 12 140 3 N = A   25 -33
+116 32 500 3Ntx E -2 3   30 -116   AK   8 8 +186 32 790 4x N = A   30 -186
+13 18 200 3Nt E -2 3   19 -13 J965 AT83 5 5 -65 18   2♠ W = K 110 19 +65
+116 5 500 3Ntx E -2 2   14 -116 J87 AK Nt 6 6 +33 5 140 2 N +1 A   14 -33
95 AJ3   E W
Q965 J872 8 8
  KQ72   5 5
NS.OPT Q642   5 5
-110 T8   8 8
        T43         Nt 7 6
B O A R D   N R .   2 7                   27 2           N S B O A R D   N R .   2 8                  
P-NS NS R-NS Nt P TR L R-EW EW P-EW D: S J532   10 10 P-NS NS R-NS Nt P TR L R-EW EW P-EW
-67 28   4♣ N -2 ♣5 100 23 +67 --- T5   8 8 -14 28 100 1Ntx E -1 ♣K   23 +14
+21 4 150 1Nt N +2 K   31 -21   KQJ973   4 5 +12 4 150 2Nt S +1 7   31 -12
+11 13 130 3♣ N +1 A   8 -11 T9654 AJ3 5 5 0 13 120 2Nt S = 6   8 0
+2 26 110 3 S = Q   10 -2 864 AKQT9 Nt 8 7 0 26 120 2Nt S = ♠A   10 0
+21 7 150 1Nt N +2 K   6 -21 Q872 K6   E W 0 7 120 2Nt S = ♠5   6 0
+11 22 130 4♣ N = A   9 -11 2 T65 3 3 +199 22 1100 2x W -5 ♣T   9 -199
-175 20   4x E = ♣A 590 1 +175   KQ87   5 4 0 20 120 1Nt S +1 ♠9   1 0
+11 2 130 3♣ N +1 A   27 -11 NS.OPT 7   8 8 0 2 120 1Nt S +1 ♠A   27 0
0 17 100 3♠ E -2 7   11 0 +130 AJ943   8 8 0 17 120 1Nt S +1 7   11 0
+11 21 130 4♣ N = A   29 -11         A84         Nt 4 4 0 21 120 1Nt S +1 ♠K   29 0
-17 15 50 3Nt E -1 4   24 +17 28 J73           N S -14 15 100 1Ntx E -1 ♣Q   24 +14
+155 16 610 4♣x N +1 ♣5   3 -155 D: W AQ94   8 8 0 16 120 2Nt S = ♠5   3 0
-168 12   3x E = ♠K 530 25 +168 N-S JT86   9 9 -82 12   3Nt S -1 ♠9 100 25 +82
-51 32   3Nt S -1 ♠5 50 30 +51   T9   9 9 0 32 50%         50% 30 0
+132 18 510 4♣x N = A   19 -132 AK95 QT8 8 8 -113 18   3Ntx S -1 ♠A 200 19 +113
+103 5 400 3Nt N = A   14 -103 863 J72 Nt 8 8 +12 5 150 2Nt S +1 ♠K   14 -12
972 AQ3   E W
843 J762 5 5
  642   4 3
NS.OPT KT5   3 3
+140 K54   5 5
        AKQ5         Nt 5 5