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–
–
Point O:
a consumption point connected to the TSO bidirectional network,
near a storage point, a production point and IPs,
–
–
Point P:
a consumption point connected to the TSO bidirectional network,
near another consumption point, a production point and IPs,
–
–
Point Q:
an IP only allowing entry flows, not connected to the TSO
bidirectional network (no flows from/to it), purely for cross-system use,
–
–
Point R:
an IP only allowing exit flows, not connected to the TSO bidirection-
al network (no flows from/to it), purely for cross-system use,
–
–
Point S:
a point where unidirectional pipelines from production and LNG
points connect to the TSO bidirectional network,
–
–
Point T:
a point where a pipeline from production connects to the TSO
bidirectional network.
Assumptions regarding technical capacity and forecasted bookings at entry and
at exit points
are in the next 2 tables (points S and T are not represented because
they are neither entry nor exit points). Capacity unit is for instance
kWh/d
, and there
is no specified capacity unit in Article 8 of TAR NC (others are possible).
This is a pure example, where units are not under the focus, and therefore data
for revenues and capacity tariffs should be rescaled to reflect the reality of TSO
tariffs
. Tariffs derived with the CWD counterfactual are defined for the same runtime
as tariffs for the RPM, i. e. per year. In the current case, tariffs are therefore in
(kWh/d)/y
.
CAPACITY DATA
Entry points
En Technical Cap
F'st Contracted En
Storage
A
8
4
IP
B
70
68
Storage
C
7
4
Production
D
10
4
Production
E
10
6
LNG
F
30
30
Production
G
20
20
IP
I
10
3
IP
J
10
8
IP
K
60
60
LNG
L
30
30
IP
M
80
80
IP
Q
90
20
Exit points
Ex Technical Cap
F'st Contracted Ex
Storage
A
8
1
IP
B
100
90
Storage
C
7
2
Consumption
H
60
60
IP
I
50
50
IP
K
60
40
IP
M
90
90
Consumption
N
20
10
Consumption
O
50
50
Consumption
P
10
10
IP
R
97
24
Table 34:
Capacity data