Add to ORKGUtilising the standard AS/NZS61000.3.6 to carry out a harmonic allocation to a load in a transmission system requires detailed knowledge of the location and magnitude of every future load. Given that the size of the load at a bus in a transmission system could conceivably be from zero up to around thirty percent of the fault level, such knowledge is unlikely to be available with any degree of certainty. This paper proposes an allocation policy which reduces the effect of load uncertainty, by allocating harmonic emission levels to areas comprising buses which are electrically close. Possible techniques are demonstrated using a simple test network
This paper introduces the optimization framework for harmonic mitigation in transmission networks. T...
Thesis (MTech (Electrical Engineering))--Cape Peninsula University of Technology, 2009Traditionally,...
This paper presents an approach to determine strategic buses for harmonic filter placement by correl...
Utilising the standard AS/NZS61000.3.6 to carry out a harmonic allocation to a load in a transmissio...
The harmonic management of power systems in Australia is governed by AS/NZS 61000.3.6. This document...
Technical report IEC/TR 61000-3-6 is widely used as a guide to harmonic management in HV and MV netw...
A few decades ago, harmonic levels in electricity transmission networks were relatively low due to l...
© 2020 IEEE. Power electronic based frequency converters such as solar, wind and batteries, which pr...
A considerable body of literature examines assessment, from measurements, of whether it is the netwo...
Distributors need to allocate a maximum allowed level of harmonic current to MV customers to keep vo...
Allocation of equal harmonic emission rights to MV customers having the same maximum demand is a key...
Ensuring harmonic voltage distortion levels in transmission systems remain below acceptable levels r...
© 2020 IEEE. A key component to management of harmonic voltage levels in MV and LV distribution syst...
Abstract Improving network power quality through harmonic reduction requires recognition of Harmonic...
© 2020 IEEE. Renewable generation sources have recently been integrated in power systems at an accel...
This paper introduces the optimization framework for harmonic mitigation in transmission networks. T...
Thesis (MTech (Electrical Engineering))--Cape Peninsula University of Technology, 2009Traditionally,...
This paper presents an approach to determine strategic buses for harmonic filter placement by correl...
Utilising the standard AS/NZS61000.3.6 to carry out a harmonic allocation to a load in a transmissio...
The harmonic management of power systems in Australia is governed by AS/NZS 61000.3.6. This document...
Technical report IEC/TR 61000-3-6 is widely used as a guide to harmonic management in HV and MV netw...
A few decades ago, harmonic levels in electricity transmission networks were relatively low due to l...
© 2020 IEEE. Power electronic based frequency converters such as solar, wind and batteries, which pr...
A considerable body of literature examines assessment, from measurements, of whether it is the netwo...
Distributors need to allocate a maximum allowed level of harmonic current to MV customers to keep vo...
Allocation of equal harmonic emission rights to MV customers having the same maximum demand is a key...
Ensuring harmonic voltage distortion levels in transmission systems remain below acceptable levels r...
© 2020 IEEE. A key component to management of harmonic voltage levels in MV and LV distribution syst...
Abstract Improving network power quality through harmonic reduction requires recognition of Harmonic...
© 2020 IEEE. Renewable generation sources have recently been integrated in power systems at an accel...
This paper introduces the optimization framework for harmonic mitigation in transmission networks. T...
Thesis (MTech (Electrical Engineering))--Cape Peninsula University of Technology, 2009Traditionally,...
This paper presents an approach to determine strategic buses for harmonic filter placement by correl...