A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
An assessment of the sea breeze energy potential using small wind turbines in peri-urban coastal areas
Abstract From wind speed data recorded hourly at 2m high during 18 years (1993–2010) in the Llobregat Delta (15km south of Barcelona city; northeast of the Iberian Peninsula), wind speed distributions at 10m high were computed for the whole year and for the sea breeze period (from March 1 to September 30, from 10 to 19 local time). Weibull probability density functions fitted to the distributions were used to assess the wind energy generated by two off-grid small wind turbines: the IT-PE-100 and the HP-600W. Results from FAST and AeroDyn simulation tools were compared with those obtained by applying measured wind speeds to manufacturer power curves. Using manufacturer data, the IT-PE-100 would deliver 132kWh during the whole year (70kWh during the sea breeze period). From the simulations, the IT-PE-100 would deliver 155kWh during the whole year (80kWh during the sea breeze period). It is concluded that the sea-breeze is an interesting wind energy resource for micro-generation, not only in the Mediterranean basin but in other areas of the world with similar wind regimes, and particularly in peri-urban coastal areas where large-scale wind farms cannot be implemented.
An assessment of the sea breeze energy potential using small wind turbines in peri-urban coastal areas
Abstract From wind speed data recorded hourly at 2m high during 18 years (1993–2010) in the Llobregat Delta (15km south of Barcelona city; northeast of the Iberian Peninsula), wind speed distributions at 10m high were computed for the whole year and for the sea breeze period (from March 1 to September 30, from 10 to 19 local time). Weibull probability density functions fitted to the distributions were used to assess the wind energy generated by two off-grid small wind turbines: the IT-PE-100 and the HP-600W. Results from FAST and AeroDyn simulation tools were compared with those obtained by applying measured wind speeds to manufacturer power curves. Using manufacturer data, the IT-PE-100 would deliver 132kWh during the whole year (70kWh during the sea breeze period). From the simulations, the IT-PE-100 would deliver 155kWh during the whole year (80kWh during the sea breeze period). It is concluded that the sea-breeze is an interesting wind energy resource for micro-generation, not only in the Mediterranean basin but in other areas of the world with similar wind regimes, and particularly in peri-urban coastal areas where large-scale wind farms cannot be implemented.
An assessment of the sea breeze energy potential using small wind turbines in peri-urban coastal areas
Mazon, Jordi (author) / Rojas, Jose I. (author) / Jou, Jordi (author) / Valle, Aaron (author) / Olmeda, David (author) / Sanchez, Carlos (author)
2015-01-01
7 pages
Article (Journal)
Electronic Resource
English
Installing wind turbines will soon be a breeze
| British Library Online Contents | 2007
LEGAL - Christopher Stanwell - Installing wind turbines will soon be a breeze
Online Contents | 2007