Как выбрать гостиницу для кошек
14 декабря, 2021
The data types and sources are summarized, collected and described in the following table to give a short overview:
Data Type |
Data Detail |
Source |
Accuracy |
Time Scale |
Pipe |
Inner diameter, Length, Roughness, Material class, … |
Geogr. Information System (GIS) |
0.1 mm 1 m 0.01 mm |
actual as possible |
Node |
Geographic (schematic) coordinates, node type (branch, .) |
GIS |
1 m |
|
Control equipment |
Valve (open/closed) Regulator (pressure/flow control operation mode), (max./min. flow, pressure) |
GIS SCADA |
hour, minute |
|
Medium |
Gas density, Gas temperature, Law of pressure loss |
PGC |
||
Physical State |
Pressure Flow (intake) |
SCADA |
0.001 bar 0.1 — 1 m3 |
per hour per hour |
Consumer |
Flow (output), Type: RLM, SLP |
SCADA, EDM |
0.1 m3 |
per hour, per month, per year |
Other/ Derived |
Outside air temperature, Consumption history/ forecast, planned intake flow |
° C (1 m3) |
per hour |
Table 2. Data types required for control and simulation |
The network model must be as actual as possible and should be updated whenever changes occur in reality. Very sensible with regard to the computation result is the information of actual or historical valve positions (open/ closed); its tracing is indispensible, because wrong position will cause wrong/ deviating results. The size of the network model may extend from some 1000 pipes up to 700 000 pipes (transport system to large distribution system including the transport system). The pressure range of larger networks may go down in several levels from 100 (84) bar to 0.020 bar finally at distribution level.
The data sources of different systems and their type of data which are necessary to build up a network model for simulation is shown schematically below (see figure 5). When computing the calorific value for each node (geographic position x, y) over time (t) the resulting value will be used to support the billing process.
1.4 Control system, full and sparse measurement coverage
In reality the gas networks are operated and surveyed by control systems (SCADA) consisting of a control center and remote control stations including remote control and data transmission. In general, a lot of data is acquired transmitted and stored but there is not always a full coverage for each point in the network. One can rely on:
• Input points: flow, pressure, gas quality
• Output points: flow of consumers (registered continuously)
• Intermediate points: flow, pressure (sparsely)
Intermediate points in the network are sparsely equipped or positioned, strongly depending on operational needs. Transport networks have a more detailed data view than distribution networks.