000007568 001__ 7568
000007568 005__ 20240627163901.0
000007568 02470 $$2doi$$a10.24868/issn.2515-8198.2019.011
000007568 035__ $$a3381496
000007568 037__ $$aGENERAL
000007568 245__ $$aVoltage Safety: High or Low?
000007568 269__ $$a2019-07-02
000007568 336__ $$aConference Proceedings
000007568 520__ $$aLegislators and ship operators are continually seeking cleaner ship operations. One route to achieving this is through some form of electric propulsion, which, when coupled to energy storage systems, can realise the goal of zero-emission operation. With electric propulsion, the propulsion load, in whole or in part, becomes another consumer to be supplied by the ship’s electric power generation and distribution systems.

This leads to a considerable increase in the electrical power that must be generated and managed. As every ALevel student knows, power is the product of voltage and current. Any increase in the power generated must be achieved by an increase in voltage, or current, or both. To increase the current leads to greatly increased heating and requires heavier conductors, so the preferred option is to increase the voltage.

This raises the question of safety. There is a perception that high voltage (HV) systems are inherently ‘more dangerous’ than low voltage (LV) ones, but the Authors contend that it is meaningless to argue that one system is ‘less safe’ than the other since LV can kill just as effectively as HV. The real issue is that the practicalities and safety implications of HV and LV systems are different, although there are some points in common.

In this paper we shall review the hazards and safety implications peculiar to HV and to LV, and those common to both. In the process we shall review operational practices and how they apply to HV and LV systems on board current platforms. Finally, we shall examine whether there is any transfer between LV and HV concluding on how best practice can be applied to future platforms to provide a greater assurance of safety at system level. 
000007568 542__ $$fCC-BY-NC-ND-4.0
000007568 6531_ $$aVoltage
000007568 6531_ $$aMarine
000007568 6531_ $$aElectrical Safety
000007568 6531_ $$aHazards
000007568 6531_ $$aLV
000007568 6531_ $$aHV
000007568 7001_ $$aMeggs, R W$$uBMT, UK
000007568 7001_ $$aSimmonds, O J$$uBMT, UK
000007568 773__ $$tConference Proceedings of MECSS
000007568 773__ $$jMECSS 2019
000007568 789__ $$whttps://zenodo.org/record/3381496$$2URL$$eIsIdenticalTo
000007568 85641 $$uhttps://www.imarest.org/mecss$$yConference website
000007568 8564_ $$93de6b7af-f7d5-4a91-965e-41eba1cc7433$$s963049$$uhttps://library.imarest.org/record/7568/files/MECSS%202019%20Paper%20011%20Meggs%20Final%20P.pdf