Please scroll down for menus
Tim Taylor
Tim joined The Cyprus Institute in October 2015. He has an MSc in Information Systems and an honours Bachelor degree in Marketing. Tim has 23 years experience in IT. Prior to joining The Cyprus Institute he has held positions as web developer, database admin and project manager for private sector and governmental employers in Cyprus and UK.
Training Event - Towards Interpretable, Controllable, and Efficient AI
RECEN800 - Long-term Environmental Resilience in Cyprus: The Last 800 Years of Human-animal Interactions With a View to The Future
A Volatile Stressometer at the Ecosystem-Atmosphere Interface
Training Event - Introduction to High-Performance Computing with Python
Τελετή Υπογραφής Μνημονίου Συνεργασίας μεταξύ του Ινστιτούτου Κύπρου και της Κυπριακής Εθνικής Επιτροπής UNESCO
A Partnership of Excellence: French Academy of Sciences and the Cyprus Research and Educational Foundation, Parent Organization of The Cyprus Institute, Formalize Ties with Signing of MoU
Public Lecture on the Impact of High Temperatures on the Cognitive Performance of Students
STARC faculty named among top scholars in Archaeology by ScholarGPS
The Cyprus Institute a Bridge for Scientific Cooperation Between Cyprus and the USA
- August 2016
- September 2016
For the initial monitoring of the building the SUI CyI research team installed a weather station on the roof, placed sensors inside the building and performed a thermal comfort assessment survey.
1. Climate data monitoring
Exterior
A Vantage Pro2 weather station was placed on the building roof to collect data from the SUI area. Regularly updated information about the climatic conditions could be found on the station webpage: http://www.weatherlink.com/user/suitepakcy/. The weather station base was designed and installed by the CyI technical equipment development team.
Interior
Twelve (12) HOBO data-loggers were placed in the building, for collecting temperature, humidity and light data. The data are collected every 30 minutes and will be elaborated with the HOBOware software.
2. Thermal comfort assessment questionnaire
A survey on occupant comfort satisfaction with the indoor environment in summer was conducted. The questionnaire was based on templates proposed by the HSE (http://www.hse.gov.uk/temperature/index.htm). A third of the total employees were asked and complementary measurements were made using a Heat Stress WBGT (Wet Bulb Globe Temperature) Meter, both for the indoor and the outdoor climatic conditions at the time of the survey.
Images below, from left to right:
Left: The Vantage Pro2 weather station
Middle: HOBO data logger placed in the working place – 1st floor
Right: Completed questionnaire (first page) – Ground floor.
View the embedded image gallery online at:
https://www.cyi.ac.cy/index.php/sui-activities/sui-building-monitoring/author/839-tim-taylor.html?start=10#sigProGalleria86fa08f526
https://www.cyi.ac.cy/index.php/sui-activities/sui-building-monitoring/author/839-tim-taylor.html?start=10#sigProGalleria86fa08f526
1. Thermal imaging
Thermal images were taken using a T440 Flir thermal camera in order to find missing, damaged, or inadequate insulation, building envelope air leaks, moisture intrusion and other problems. Also, the main sources of radiant temperature were determined.
2. HOBO sensors data collection and analysis
The temperature, humidity, air movement and dew point data from the HOBO sensors were collected and analysed. The mean predicted vote (PMV) was calculated using the CBE Thermal Comfort Tool (http://comfort.cbe.berkeley.edu/EN). In all the spaces under monitoring the people are expected to be in thermal comfort, since all values are within the thermal comfort range of -0.7 Images below, from left to right:
Left: A thermal image from the mezzanine
Right: Graph. Thermal Comfort PMV
View the embedded image gallery online at:
https://www.cyi.ac.cy/index.php/sui-activities/sui-building-monitoring/author/839-tim-taylor.html?start=10#sigProGalleria1b1c874984
