Increasing DG Capacity of Existing Networks through Reactive Power Control and Curtailment
(2010) The 9th Nordic Electricity Distribution and Asset Management Conference (NORDAC 2010)- Abstract
- Renewable energy sources (RES), especially wind turbines, have become more important
during the last years. An increasing number of distributed generation (DG) units are
connected to weak medium voltage distribution networks in rural areas where they have a large
influence on the voltage and the line losses. Voltage rise is in this case often a limiting factor for
the maximum amount of DG capacity. Already current wind turbines with a capacity of 2 MW
can often not easily be connected to existing 10 kV feeders.
To increase the DG capacity of existing networks without reinforcement DG units can be
controlled. This paper proposes abandoning unity power factor used today and... (More) - Renewable energy sources (RES), especially wind turbines, have become more important
during the last years. An increasing number of distributed generation (DG) units are
connected to weak medium voltage distribution networks in rural areas where they have a large
influence on the voltage and the line losses. Voltage rise is in this case often a limiting factor for
the maximum amount of DG capacity. Already current wind turbines with a capacity of 2 MW
can often not easily be connected to existing 10 kV feeders.
To increase the DG capacity of existing networks without reinforcement DG units can be
controlled. This paper proposes abandoning unity power factor used today and letting the converters
used as network interface of many new wind turbine generators absorb reactive power
to reduce the voltage level. Since reactive power has great influence on losses in the network
the use of reactive power is limited. Line losses due to the transfer of reactive power are taken
into account in this study. Furthermore the use of curtailment is analysed.
Simulations of voltage change and line losses when using reactive power control by the connected
wind turbines and curtailment in a simple test system are presented. Without reinforcement
of the network it was possible to increase the DG capacity from 2;7MW to more than
4MW in the test network without violating voltage limits. Line losses increase but to a reasonable
extent and lost energy due to curtailment is insignificant. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/1668750
- author
- Leisse, Ingmar LU ; Samuelsson, Olof LU and Svensson, Jörgen LU
- organization
- publishing date
- 2010
- type
- Contribution to conference
- publication status
- published
- subject
- conference name
- The 9th Nordic Electricity Distribution and Asset Management Conference (NORDAC 2010)
- conference location
- Aalborg, Denmark
- conference dates
- 2010-09-06
- language
- English
- LU publication?
- yes
- id
- 5135e7d0-2111-43ab-a47f-9171d1c4e64d (old id 1668750)
- date added to LUP
- 2016-04-04 14:31:35
- date last changed
- 2018-11-21 21:20:49
@misc{5135e7d0-2111-43ab-a47f-9171d1c4e64d, abstract = {{Renewable energy sources (RES), especially wind turbines, have become more important<br/><br> during the last years. An increasing number of distributed generation (DG) units are<br/><br> connected to weak medium voltage distribution networks in rural areas where they have a large<br/><br> influence on the voltage and the line losses. Voltage rise is in this case often a limiting factor for<br/><br> the maximum amount of DG capacity. Already current wind turbines with a capacity of 2 MW<br/><br> can often not easily be connected to existing 10 kV feeders.<br/><br> To increase the DG capacity of existing networks without reinforcement DG units can be<br/><br> controlled. This paper proposes abandoning unity power factor used today and letting the converters<br/><br> used as network interface of many new wind turbine generators absorb reactive power<br/><br> to reduce the voltage level. Since reactive power has great influence on losses in the network<br/><br> the use of reactive power is limited. Line losses due to the transfer of reactive power are taken<br/><br> into account in this study. Furthermore the use of curtailment is analysed.<br/><br> Simulations of voltage change and line losses when using reactive power control by the connected<br/><br> wind turbines and curtailment in a simple test system are presented. Without reinforcement<br/><br> of the network it was possible to increase the DG capacity from 2;7MW to more than<br/><br> 4MW in the test network without violating voltage limits. Line losses increase but to a reasonable<br/><br> extent and lost energy due to curtailment is insignificant.}}, author = {{Leisse, Ingmar and Samuelsson, Olof and Svensson, Jörgen}}, language = {{eng}}, title = {{Increasing DG Capacity of Existing Networks through Reactive Power Control and Curtailment}}, url = {{https://lup.lub.lu.se/search/files/6380579/1668766.pdf}}, year = {{2010}}, }