T A L L I N N A   S E E N I O R I D E   B R I D Ž I   K L U B I B O A R D   N R .   1
P A A R I T U R N I I R   -   0 2 . 0 1 . 2 0 1 8 P-NS NS R-NS CNT P TR L R-EW EW P-EW
G E N E R E E R I T U D   :   0 2 . 0 1 . 2 0 1 8   1 8 : 5 0 : 3 1 0,0 1 -400 3NT W =   400 2 14,0
RESULTS PRODUCED BY VAMBOLA KASE - BRIDGE CALCULATIONS PROGRAM 4,0 21 50 3C E -1   -50 20 10,0
1 62,20% 13 Hiibus, Reet Andressoo, Ain 10,0 19 150 4C E -3   -150 16 4,0
2 59,52% 3 Heinlo, Liidia Heinlo, Aavo 14,0 17 500 3Sx W -3   -500 12 0,0
3 58,33% 20 Aava, Jaak Jänes, Taivo 6,0 15 100 3S E -2   -100 8 8,0
4 57,44% 2 Rummel, Aarne Pedak, Kalle 2,0 13 -110 3C E =   110 4 12,0
5 56,85% 8 Lõhmus, Jaak Lutter, Teno 12,0 22 200 3H W -4   -200 11 2,0
6 55,65% 4 Pink, Silver Niit, Riho 8,0 18 140 2H S +1   -140 9 6,0
6 55,65% 17 Maalder, Enn Teras, Jüri B O A R D   N R .   2
8 55,36% 22 Suurväli, Albert Kangur, Konstantin P-NS NS R-NS CNT P TR L R-EW EW P-EW
8 55,36% 5 Aavekukk, Agu Kuivallik, Tõnu 4,0 1 -110 3C N =   110 2 10,0
10 53,27% 16 Suimets, Ahti Hibus, Peeter 2,0 21 -140 2S E +1   140 20 12,0
11 49,40% 14 Tammesalu, Vahur Laugen, Ülo 10,0 19 170 3H S +1   -170 16 4,0
12 48,51% 6 Kolk, Ants Vassar, Toomas 6,0 17 100 3Sx E -1   -100 12 8,0
13 46,73% 10 Hallika, Toivo Ruubel, Taavi 0,0 15 -300 4C N -3   300 8 14,0
14 46,13% 18 Kongas, Ruudi Oper, Villu 12,0 13 650 4H S +1   -650 4 2,0
15 45,83% 19 Kuld, Enno Lüdig, Peeter 14,0 22 730 3Hx S =   -730 11 0,0
16 45,24% 21 Kotkas, Tõnis Daum, Ants 8,0 18 140 3H S =   -140 9 6,0
16 45,24% 9 Keridan, Tõnis Toonekurg, Rein B O A R D   N R .   3
18 44,94% 12 Tamm, Marje Tamm, Eugen P-NS NS R-NS CNT P TR L R-EW EW P-EW
19 39,88% 11 Kirsimäe, Anne Kallas, Orm 2,0 1 -600 3T E =   600 2 12,0
20 38,69% 7 Ruubel, Silvia Kukkela, Matti 14,0 21 200 4H W -2   -200 20 0,0
21 37,50% 1 Palm, Ludmilla Pärn, Mall 4,0 19 -500 5Cx N -3   500 16 10,0
22 32,74% 15 Uuring, Siiri Helmvee, Fatima 6,0 17 -300 2Sx N -2   300 12 8,0
0,0 15 -650 4H E +1   650 8 14,0
8,0 13 -140 3H W =   140 4 6,0
11,0 22 100 4H E -1   -100 11 3,0
11,0 18 100 4H E -1   -100 9 3,0
B O A R D   N R .   4
P-NS NS R-NS CNT P TR L R-EW EW P-EW
0,0 3 200 3H N +2   -200 4 14,0
6,0 1 650 4H N +1   -650 22 8,0
13,0 21 660 3NT S +2   -660 18 1,0
13,0 19 660 3NT S +2   -660 14 1,0
6,0 17 650 4H N +1   -650 10 8,0
6,0 15 650 4H N +1   -650 6 8,0
6,0 2 650 4H N +1   -650 13 8,0
6,0 20 650 4H N +1   -650 11 8,0
B O A R D   N R .   5
P-NS NS R-NS CNT P TR L R-EW EW P-EW
9,0 3 100 2S W ´2   -100 4 5,0
3,0 1 -140 2S W +1   140 22 11,0
9,0 21 100 3NT W -2   -100 18 5,0
13,0 19 150 3D E -3   -150 14 1,0
3,0 17 -140 2S W +1   140 10 11,0
0,0 15 -450 4S W +1   450 6 14,0
6,0 2 -90 1NT E =   90 13 8,0
13,0 20 150 2D E -3   -150 11 1,0
B O A R D   N R .   6
P-NS NS R-NS CNT P TR L R-EW EW P-EW
14,0 3 520 3T N +4   -520 4 0,0
5,0 1 420 5D S +1   -420 22 9,0
1,0 21 170 1D N +5   -170 18 13,0
8,0 19 460 3NT S +2   -460 14 6,0
11,0 17 490 3NT S +3   -490 10 3,0
1,0 15 170 3D S +3   -170 6 13,0
11,0 2 490 3NT N +3   -490 13 3,0
5,0 20 420 5D S +1   -420 11 9,0
B O A R D   N R .   7
P-NS NS R-NS CNT P TR L R-EW EW P-EW
11,0 5 680 4S N +2   -680 6 3,0
14,0 3 1430 6S S =   -1430 2 0,0
4,0 1 620 4H N =   -620 20 10,0
2,0 21 150 4D S +1   -150 16 12,0
0,0 19 -100 6D S -1   100 12 14,0
7,0 17 650 4S N +1   -650 8 7,0
7,0 4 650 5S N =   -650 15 7,0
11,0 22 680 4S S +2   -680 13 3,0
B O A R D   N R .   8
P-NS NS R-NS CNT P TR L R-EW EW P-EW
2,0 5 -50 1T N -1   50 6 12,0
6,0 3 110 3D N =   -110 2 8,0
14,0 1 400 3NT N =   -400 20 0,0
11,0 21 150 2NT N +1   -150 16 3,0
11,0 19 150 1NT N +2   -150 12 3,0
8,0 17 120 1NT N +1   -120 8 6,0
2,0 4 -50 3NT N -1   50 15 12,0
2,0 22 -50 1NT N -1   50 13 12,0
B O A R D   N R .   9
P-NS NS R-NS CNT P TR L R-EW EW P-EW
12,0 5 -630 3T W +1   630 6 2,0
6,0 3 -660 3NT W +2   660 2 8,0
0,0 1 -690 3NT W +3   690 20 14,0
6,0 21 -660 3NT W +2   660 16 8,0
6,0 19 -660 3NT W +2   660 12 8,0
6,0 17 -660 3NT W +2   660 8 8,0
14,0 4 -600 5D E =   600 15 0,0
6,0 22 -660 3NT W +2   660 13 8,0
B O A R D   N R .   1 0
P-NS NS R-NS CNT P TR L R-EW EW P-EW
5,0 7 -100 4S S -1   100 8 9,0
5,0 5 -100 4S S -1   100 4 9,0
12,0 3 140 3S S =   -140 22 2,0
0,0 1 -200 3NT N -2   200 18 14,0
12,0 21 140 2S S +1   -140 14 2,0
12,0 19 140 3S N =   -140 10 2,0
5,0 6 -100 4S S -1   100 17 9,0
5,0 2 -100 4S S -1   100 15 9,0
B O A R D   N R .   1 1
P-NS NS R-NS CNT P TR L R-EW EW P-EW
9,0 7 110 1H N +1   -110 8 5,0
2,0 5 -50 2H N -1   50 4 12,0
9,0 3 110 2H N =   -110 22 5,0
13,0 1 120 1NT N +1   -120 18 1,0
6,0 21 0 PASS       0 14 8,0
2,0 19 -50 2NT N -1   50 10 12,0
2,0 6 -50 2H N -1   50 17 12,0
13,0 2 120 1NT N +1   -120 15 1,0
B O A R D   N R .   1 2
P-NS NS R-NS CNT P TR L R-EW EW P-EW
0,0 7 -170 2H W +2   170 8 14,0
4,0 5 -110 2H W =   110 4 10,0
14,0 3 120 2NT N =   -120 22 0,0
9,0 1 50 2H W -1   -50 18 5,0
12,0 21 100 2H W -2   -100 14 2,0
4,0 19 -110 2H W =   110 10 10,0
4,0 6 -110 2H W =   110 17 10,0
9,0 2 50 2H W -1   -50 15 5,0
B O A R D   N R .   1 3
P-NS NS R-NS CNT P TR L R-EW EW P-EW
14,0 9 200 4Hx W -1   -200 10 0,0
10,0 7 100 4H W -1   -100 6 4,0
10,0 5 100 4H W -1   -100 2 4,0
4,0 3 -140 2H W +1   140 20 10,0
0,0 1 -620 4H E =   620 16 14,0
10,0 21 100 4H W -1   -100 12 4,0
4,0 8 -140 2H W +1   140 19 10,0
4,0 4 -140 3H W =   140 17 10,0
B O A R D   N R .   1 4
P-NS NS R-NS CNT P TR L R-EW EW P-EW
5,0 9 -400 3NT W =   400 10 9,0
5,0 7 -400 3NT W =   400 6 9,0
5,0 5 -400 3NT W =   400 2 9,0
12,0 3 -130 3D W +1   130 20 2,0
5,0 1 -400 3NT W =   400 16 9,0
5,0 21 -400 3NT W =   400 12 9,0
5,0 8 -400 3NT W =   400 19 9,0
14,0 4 50 3NT W -1   -50 17 0,0
B O A R D   N R .   1 5
P-NS NS R-NS CNT P TR L R-EW EW P-EW
14,0 9 100 2NT E -2   -100 10 0,0
4,0 7 -140 3H W =   140 6 10,0
11,0 5 50 4H W -1   -50 2 3,0
11,0 3 50 4H W -1   -50 20 3,0
4,0 1 -140 2H W +1   140 16 10,0
4,0 21 -140 3H W =   140 12 10,0
4,0 8 -140 2H W +1   140 19 10,0
4,0 4 -140 2H W +1   140 17 10,0
B O A R D   N R .   1 6
P-NS NS R-NS CNT P TR L R-EW EW P-EW
8,0 11 -660 3T W +2   660 12 6,0
8,0 9 -660 3NT E +2   660 8 6,0
4,0 7 -680 4H E +2   680 4 10,0
2,0 5 -690 3NT W +3   690 22 12,0
14,0 3 100 5D E -1   -100 18 0,0
0,0 1 -1390 6D E +1   1390 14 14,0
8,0 10 -660 3NT W +2   660 21 6,0
12,0 6 -620 4S W =   620 19 2,0
B O A R D   N R .   1 7
P-NS NS R-NS CNT P TR L R-EW EW P-EW
8,0 11 50 3T W -1   -50 12 6,0
4,0 9 -300 4Cx N -2   300 8 10,0
0,0 7 -500 5Dx N -3   500 4 14,0
8,0 5 50 3NT E -1   -50 22 6,0
14,0 3 130 3D S +1   -130 18 0,0
2,0 1 -420 4H W =   420 14 12,0
12,0 10 110 3C N =   -110 21 2,0
8,0 6 50 4H E -1   -50 19 6,0
B O A R D   N R .   1 8
P-NS NS R-NS CNT P TR L R-EW EW P-EW
14,0 11 100 4H W -2   -100 12 0,0
8,0 9 -110 2S W =   110 8 6,0
11,0 7 50 4H W -1   -50 4 3,0
6,0 5 -140 2H E +1   140 22 8,0
4,0 3 -150 2NT W +1   150 18 10,0
0,0 1 -400 3NT E =   400 14 14,0
11,0 10 50 4H W -1   -50 21 3,0
2,0 6 -170 3H W +1   170 19 12,0
B O A R D   N R .   1 9
P-NS NS R-NS CNT P TR L R-EW EW P-EW
9,0 13 -50 2H N -1   50 14 5,0
0,0 11 -120 2NT W =   120 10 14,0
12,0 9 90 2C S =   -90 6 2,0
5,0 7 -90 1NT W =   90 2 9,0
14,0 5 100 3NT W -1   -100 20 0,0
5,0 3 -90 1NT W =   90 16 9,0
2,0 12 -100 3Hx N -1   100 1 12,0
9,0 8 -50 1NT S -1   50 21 5,0
B O A R D   N R .   2 0
P-NS NS R-NS CNT P TR L R-EW EW P-EW
0,0 13 -800 5Dx S -3   800 14 14,0
5,0 11 -200 4Dx N -1   200 10 9,0
8,0 9 -140 2S W +1   140 6 6,0
5,0 7 -200 3D N -2   200 2 9,0
2,0 5 -500 4Dx S -2   500 20 12,0
12,0 3 110 2D S +1   -110 16 2,0
14,0 12 670 3Dx N =   -670 1 0,0
10,0 8 100 3S W -1   -100 21 4,0
B O A R D   N R .   2 1
P-NS NS R-NS CNT P TR L R-EW EW P-EW
12,0 13 50 3T W -1   -50 14 2,0
6,0 11 -150 2NT W +1   150 10 8,0
2,0 9 -400 3NT W =   400 6 12,0
4,0 7 -180 2NT W +2   180 2 10,0
8,0 5 -130 3D E +1   130 20 6,0
14,0 3 140 3S N =   -140 16 0,0
0,0 12 -500 4Sx S -2   500 1 14,0
10,0 8 -120 1NT W +1   120 21 4,0
B O A R D   N R .   2 2
P-NS NS R-NS CNT P TR L R-EW EW P-EW
3,0 15 -620 4S W =   620 16 11,0
10,0 13 -140 3S W =   140 12 4,0
3,0 11 -620 4S W =   620 8 11,0
8,0 9 -170 3S W +1   170 4 6,0
13,0 7 100 3NT W -1   -100 22 1,0
6,0 5 -200 3H S -4   200 18 8,0
13,0 14 100 3S W -1   -100 3 1,0
0,0 10 -660 3NT W +2   660 1 14,0
B O A R D   N R .   2 3
P-NS NS R-NS CNT P TR L R-EW EW P-EW
0,0 15 -680 4H W +2   680 16 14,0
14,0 13 -170 3H W +1   170 12 0,0
5,0 11 -650 4H W +1   650 8 9,0
10,0 9 -630 3NT E +1   630 4 4,0
3,0 7 -660 3NT E +2   660 22 11,0
12,0 5 -600 3NT E =   600 18 2,0
3,0 14 -660 3NT E +2   660 3 11,0
5,0 10 -650 4H W +1   650 1 9,0
B O A R D   N R .   2 4
P-NS NS R-NS CNT P TR L R-EW EW P-EW
0,0 15 -450 4S W +1   450 16 14,0
5,0 13 -420 4S W =   420 12 9,0
12,0 11 50 4S E -1   -50 8 2,0
2,0 9 -430 3NT E +1   430 4 12,0
5,0 7 -420 4S W =   420 22 9,0
12,0 5 50 4S W -1   -50 18 2,0
12,0 14 50 4S E -1   -50 3 2,0
8,0 10 -110 2S W =   110 1 6,0
B O A R D   N R .   2 5
P-NS NS R-NS CNT P TR L R-EW EW P-EW
7,0 17 100 3H W -1   -100 18 7,0
12,0 15 200 3NT W -2   -200 14 2,0
12,0 13 200 3Hx W -1   -200 10 2,0
7,0 11 100 2H W -1   -100 6 7,0
0,0 9 -140 3H W =   140 2 14,0
2,0 7 -110 1S W +1   110 20 12,0
4,0 16 -100 4C N -2   100 5 10,0
12,0 12 200 3D E -2   -200 3 2,0
B O A R D   N R .   2 6
P-NS NS R-NS CNT P TR L R-EW EW P-EW
6,0 17 -90 2C W =   90 18 8,0
6,0 15 -90 1NT E =   90 14 8,0
13,0 13 100 1NT E -1   -100 10 1,0
6,0 11 -90 1D W +1   90 6 8,0
6,0 9 -90 1NT W =   90 2 8,0
13,0 7 100 3NT E -1   -100 20 1,0
0,0 16 -120 1NT E +1   120 5 14,0
6,0 12 -90 2C W =   90 3 8,0
B O A R D   N R .   2 7
P-NS NS R-NS CNT P TR L R-EW EW P-EW
12,0 17 50 3S E -1   -50 18 2,0
3,0 15 -140 3S E =   140 14 11,0
12,0 13 50 4S E -1   -50 10 2,0
8,0 11 -50 4D N -1   50 6 6,0
6,0 9 -100 4H N -2   100 2 8,0
3,0 7 -140 2S E +1   140 20 11,0
0,0 16 -530 3Sx E =   530 5 14,0
12,0 12 50 4S E -1   -50 3 2,0
B O A R D   N R .   2 8
P-NS NS R-NS CNT P TR L R-EW EW P-EW
7,0 19 -100 3C S -1   100 20 7,0
7,0 17 -100 3NT S -1   100 16 7,0
7,0 15 -100 3S N -1   100 12 7,0
14,0 13 170 2S N +2   -170 8 0,0
0,0 11 -200 3NT N -2   200 4 14,0
7,0 9 -100 3NT S -1   100 22 7,0
7,0 18 -100 4S N -1   100 7 7,0
7,0 14 -100 3NT N -1   100 5 7,0
B O A R D   N R .   2 9
P-NS NS R-NS CNT P TR L R-EW EW P-EW
0,0 19 100 2S W -1   -100 20 14,0
4,0 17 150 1NT N +2   -150 16 10,0
10,0 15 300 4S W -3   -300 12 4,0
6,0 13 200 1NT W -2   -200 8 8,0
10,0 11 300 3S W -3   -300 4 4,0
2,0 9 120 2NT N =   -120 22 12,0
14,0 18 400 1NT W -4   -400 7 0,0
10,0 14 300 3S W -3   -300 5 4,0
B O A R D   N R .   3 0
P-NS NS R-NS CNT P TR L R-EW EW P-EW
0,0 19 90 2C S =   -90 20 14,0
9,0 17 170 2S S +2   -170 16 5,0
9,0 15 170 2S S +2   -170 12 5,0
2,0 13 150 1NT E -3   -150 8 12,0
9,0 11 170 2S S +2   -170 4 5,0
9,0 9 170 2S S +2   -170 22 5,0
9,0 18 170 2S S +2   -170 7 5,0
9,0 14 170 2S S +2   -170 5 5,0
B O A R D   N R .   3 1
P-NS NS R-NS CNT P TR L R-EW EW P-EW
7,0 21 50 2S E -1   -50 22 5,0
0,0 19 -200 4Dx S -1   200 18 5,0
4,0 17 -100 4D S -1   100 14 5,0
7,0 15 50 2S E -1   -50 10 5,0
12,0 13 100 3S E -2   -100 6 5,0
2,0 11 -140 2S E +1   140 2 5,0
12,0 20 100 3S E -2   -100 9 5,0
12,0 16 100 3S E -2   -100 7 5,0
B O A R D   N R .   3 2
P-NS NS R-NS CNT P TR L R-EW EW P-EW
10,0 21 100 1D W -1   -100 22 5,0
1,0 19 -90 1NT W =   90 18 5,0
6,0 17 90 1NT N =   -90 14 5,0
4,0 15 -50 1NT S -1   50 10 5,0
14,0 13 300 1D W -3   -300 6 5,0
1,0 11 -90 1NT W =   90 2 5,0
10,0 20 100 1S W -1   -100 9 5,0
10,0 16 100 1NT W -1   -100 7 5,0
B O A R D   N R .   3 3
P-NS NS R-NS CNT P TR L R-EW EW P-EW
0,0 21 -300 5Dx N -2   300 22 14,0
4,0 19 -50 1NT S -1   50 18 10,0
14,0 17 800 5Cx W -4   -800 14 0,0
2,0 15 -170 2S E +2   170 10 12,0
10,0 13 510 4Dx N =   -510 6 4,0
7,0 11 150 3D N +2   -150 2 7,0
12,0 20 550 5Dx S =   -550 9 2,0
7,0 16 150 3D N +2   -150 7 7,0