The goal of QEERI’s Smart Grid Portfolio is to develop advanced power systems that integrate solar energy to address Qatar’s electricity needs in a sustainable fashion. This objective is facilitated though the creation of software and hardware solutions that ensure secure integration of solar Photovoltaic (PV) systems into the national electricity network. The team are also working on the development of a Geographic Information System (GIS) platform that maps and forecasts solar resources in Qatar to support the management of PV applications. Another key area is the management of electricity demand, which focuses on the analysis of electricity consumption data to develop response solutions that maximize energy efficiency while maintaining customer satisfaction.

SUMMARY OF RESEARCH ACTIVITIES

• Within the Smart Grid Portfolio, QEERI has been working closely with several stakeholders including KAHRAMAA, Qatar Electricity & Water Company, Qatar Petroleum, and Qatar Meteorological Department to help the nation develop its solar energy capabilities. 
• Researchers have developed several power system solutions that enable the integration of solar PV systems into the power distribution system in a reliable, safe and efficient manner

1. Designed a microgrid test-bed to support the design of microgrids that address Qatar’s energy needs, and started its implementation in the QSTP Solar Test Facility (STF) – installation to be completed by summer 2018
2. Developed a software tool that mitigates the impact of PV power variability on transformers operations in power substations using reactive power, and tested its validity on the Education City Community Housing (EECH) network (in collaboration with KAHRAMAA)
3. Developed software tool that regulates the impact of PV integration on voltage and level-load in real time using (a) reactive power to keep voltage within limits, and (b) battery storage to counteract variability in PV generation, and tested its validity on the STF microgrid test-bed design
4. Developed a GIS-based software platform that enables the estimation of buildings’ PV capability in situ by associating rooftop PV potentials with service nodes in power networks derived from GIS data, and tested its validity on the ECCH power network.

• The team has made good progress in the creation of tools that map and forecast solar resources to support the development and management of PV systems for both residential and utility scales

1. Created and validated solar maps of Qatar using models derived from 11-years of satellite data, and site-adapted these maps’ measurements against solar ground measurements, to support solar plant development and power grid management
2. Designed network of 13 ground solar radiation measurement stations to provide high-quality assessment of solar resources in Qatar, and completed procurement and installation arrangements (in collaboration with Qatar Meteorological Dept.) - installation to be completed by summer 2018
3. Developed a novel solar forecasting algorithm (patent pending) and used it to implement a web-enabled solar forecasting service to support grid integration and power plant development.

• The team has also made significant achievement in the development of electricity demand monitoring and management tools and solutions to support grid integration by empowering consumers to reduce or shift their electricity usage during peak periods

1. Developed a high resolution database of day load profiles for Qatar and other GCC countries, and performed analyses of the data collected to calculate the cost of cooling, test consumer response to tariff increase, estimate annual/daily load factor, and assess the relative impact of diverse factors on energy demand to support the development of demand response measures 
2. Designed and installed an Advances Metering Infrastructure in the Education City Community Housing compounds (623 households) 
3. Installed several home-energy management devices in various households around Doha to collect energy consumption data at the appliance level, and developed a web application to collect data from all single installations. Conducted direct-load control of air conditioners experiments to reduce peak electricity consumption.