Abstract
In the last decade, mainly due to political incentives towards energy efficiency, the share of lamps with power electronic interfaces, like Compact Fluorescent Lamps (CFL) and Light Emitting Diode (LED) lamps, has significantly increased in the residential sector. Their massive use might have a substantial impact on harmonic currents and, consequently, on the current flowing in the neutral conductor. This paper analyzes the impact of modern energy-efficient lighting technologies on the neutral conductor current by using a synthetic Low Voltage residential grid. Different load scenarios reflecting the transition from incandescent lamps, via CFL, to LED lamps are compared concerning the neutral conductor current at different points in the network. The inherent randomness related to the use of lighting devices by each residential customer is considered employing a Monte Carlo simulation. Obtained results show that the use of CFL has a greater impact on the neutral conductor current of Low Voltage (LV) residential grids and that, with increasing use of LED lamps, a decreasing impact can be expected in the future.
Highlights
In recent years, Light Emitting Diode (LED) lamp technology has significantly improved.The continuing innovation of LED manufacturers has led to an increase in their efficiency and a drop in market prices
This paper aimed to fill this gap by analyzing the impact of different lighting technologies on the neutral conductor current of a Low Voltage (LV) residential grid simulating the transition from incandescent and halogen lamps (IHL), via Compact Fluorescent Lamps (CFL), to LED lamps
The results of this study show that neutral conductor currents caused by lighting loads in LV
Summary
Light Emitting Diode (LED) lamp technology has significantly improved.The continuing innovation of LED manufacturers has led to an increase in their efficiency (more lumens per watt) and a drop in market prices. Light Emitting Diode (LED) lamp technology has significantly improved. 2010, achieving 46% of the global residential market in 2019. Have the same market share but a decreasing tendency, while the remaining 8% corresponds to incandescent and halogen lamps (IHL) [1]. The International Energy Agency (IEA) predicts the LED’s share will almost double in 2030, reaching 87% of the global residential market [1]. This data confirms a shift in the lamp technology installed in Low Voltage (LV) residential networks from IHL, via CFL, towards LED, resulting in a significant increase of nonlinear loads in the lighting sector
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