Reduction of Electricity Costs in Medway NHS by Inducing Pro-Environmental Behaviour Using Persuasive Technology

Authors

  • Ahmad Taha Engineering Science, University of Greenwich, Kent https://orcid.org/0000-0003-1246-8981
  • Ruiheng Wu Engineering and the Built Environment, Birmingham City University, Birmingham
  • Anthony Emeakaroha Estates and Facilities, Medway NHS Foundation Trust, Kent
  • Jan Krabicka Engineering Science, University of Greenwich, Kent

DOI:

https://doi.org/10.5334/fce.46

Keywords:

electricity savings, feedback on consumption, pro-environmental behaviour, occupancy monitoring, energy delegates

Abstract

Hospitals represent a busy environment with the majority of the medical operations relying on electricity, for example lighting and medical equipment. Hence, it is important to conserve it to ensure high quality of services, improve patients’ wellbeing as well as to the reduction of the hospitals’ carbon footprint and the impacts on the environment. The studies carried out in hospitals considered the use of renewable energy or the use of power efficient equipment to tackle the energy problem. The challenge remains open in how to tackle the energy problem in a hospital through behavioural change. This study represents a step into reducing electricity costs of Medway NHS Foundation Trust (MNFT) in the UK. The proposed idea is to use technology to persuade MNFT staff to monitor their behaviour and with the right motive, from selected and appointed energy delegates, sustain a pro-environmental behaviour. This paper describes the methodology and system proposed to reduce electricity costs in MNFT by inducing pro-environmental behaviour with the aid of technology. This involves a smart electricity metering system to collect and communicate energy data to a centralised server that pushes the data onto a dedicated web interface. Furthermore, addressing the psychological factors by appointing energy delegates to monitor the consumption, in selected areas, as well as motivate the staff members. In addition, monitoring human dynamics and analysing it against energy data to identify a relation between occupancy and electricity consumption trends in hospital wards.

Author Biography

Ahmad Taha, Engineering Science, University of Greenwich, Kent

Ahmad Taha is currently a PhD student in the Faculty of Engineering and Science of the University of Greenwich in the UK. He obtained a 1st class honours dual BSc degree in Electrical Communication and Electronics Systems Engineering from October University for Modern Sciences and Arts (MSA), in Egypt, and from the University of Greenwich in the UK in 2012. He was then appointed as a teaching assistant in MSA University and was granted a scholarship to pursue his MSc at the University of Greenwich in 2013. He finished his MSc in Embedded Systems with a distinction in 2014 and worked as an assistant lecturer at MSA University until April 2016. Ahmad has some hands on industrial experience from working in a private start-up company that he and a number of his colleagues started in 2014. The company’s main objective was to offer low cost embedded systems based solutions for educational, training and commercial purposes. Ahmad’s research interest is in energy management, Internet of things, and persuasive technology.

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Published

2018-09-20

Issue

Vol. 4 (2018)

Section

Commentaries

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Copyright (c) 2018 The Author(s)

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