ALP No. 67 - Summit SCRAP

LOCATION DETAILS
Latitude:	N 39° 36' 24.830 "
Longitude:	W 105° 59' 57.600 "
Township:	Near 5S
Range:	Near 77 W
Section:	None
Elevation (ft.):	9,175
Tower Type:	NRG Tilt-Up
Tower Height (ft.):	98
Tower Height (m):	30
Vane Offset (deg):	320°
Direction Basis:	Mag. North
Mag. Declination:	9° 46' E, changing by 8' W/yr
Site Number:	4711
Symphonie S/N:	4711

DATA DETAILS

July 28, 2008 through May 14, 2009:

The anemometer tower was installed on July 28, 2009 by Innovative Energy at the Summit county landfill. The landill is just east of Dillon Reservoir. The surrounding terrain can be described as hilly with a surface roughness similar to a rough pasture, though the landill sits in a valley that runs NW/SE until it opens up to the west onto Dillon Reservoir.

Wind data is collected using two (2) NRG #40 Anemometers and one (1) NRG #200P Wind Vane, as follows:

Anemometers
1. 30 meters facing East???
2. 30 meters facing West???
Wind Vane
1. 30 meters facing 320° (with null point facing out)

There is also a temperature sensor at a height of about 5 meters.

All sensors feed into an NRG Symphonie data logger. The data logger generates wind reports for each day and writes the data to a memory card. This card is periodically replaced by Innovative Energy and the daily data files are sent to the Colorado ALP at Colorado State University for analysis. Using the Symphonie Data Retriever software, each day's data is complied into one large data file. A zipped file that contains all of the NRG data files and a text version of the aggregate data for all days are given below (these are large files).

Raw Wind Data Files
NRG Data Plug Files	Txt Files
Summit_SCRAP_4711_2008_0728_to_2009_0514_Data.zip	Summit_SCRAP_4711_2008_0728_to_2009_0514.txt

It is important to note that these are the raw files without any compensation for offset. Also, note that no data is available for the period from 9/15/2008 through 10/13/2008.

Using this data, an analysis of the wind resource report was developed using Windographer 1.45. For this data an offset of +320° was applied to the wind vane data. For this report, a data quality analysis was performed on the data. This data was filtered two ways:

Any wind speed data (from either wind speed sensor) where the wind speed was less than 1 mph at a temperature less than 35°F for 3 hours or more was deleted.
Any wind direction data where the wind direction varied by less than 3 degrees over 3 hours at a temperature less than 35°F for 3 hours or more was deleted.

Windographer was then used to add in synthetic data to these intervals with suspect data. The summary report, the combined data files (with and without the data quality analysis), and the Windographer files (with and without the data quality analysis) are given below:

Highlights of the wind resource to date at this site are shown below:

Data Properties
Data Set Starts:	7/28/2008 0:00 MDT
Data Set Ends:	5/15/2009 00:00
Data Set Duration:	9.6 months
Length of Time Step:	10 minutes
Elevation (ft.):	9,175
Calm threshold (mph):	0
Wind Power Coefficients
Power Density at 50m:	116 W/m²
Wind Power Class:	1 (Poor)
Wind Shear Coefficients
Power Law Exponent:	0.145
Surface Roughness:	0.106 m
Roughness Class:	1.06
Roughness Description:	Fallow field
Note: The wind power density and wind power class at 50m are projections of the data from the "A" anemometer at 30m. A surface roughness of 0.0106 meters was assumed for this projection. This is equal to that of a fallow field. This value was then used this to calculate the roughness class and the power law exponent shown above.

Sensor Name	WS30_A	WS30_B
Height above ground	98 ft (30m)	98 ft (30m)
Mean wind speed (mph)	8.767	8.676
Median wind speed (mph)	7.60	7.600
Min wind speed (mph)	0.276	0.276
Max wind speed (mph)	45.266	45.266
Mean power density (W/m²)	82	76
Mean energy content (kWh/m²/yr)	721	663
Energy pattern factor	3.003	2.847
Weibull k	1.295	1.364
Weibull c (mph)	9.475	9.475
1-hr autocorrelation coefficient	0.742	0.736
Diurnal pattern strength	0.401	0.377
Hour of peak wind speed	16	16
Mean turbulence intensity	0.3019	0.2951
Standard deviation (mph)	6.5625	6.2623
Frequency of calms (%)	0	0
Total data elements	670,464
Suspect/missing elements	66,419
Data completeness (%)	90.1

Windographer was used to match up the wind at this site with the performance curves of some common turbines of various sizes and various heights, allowing for losses of about 13%. The table below shows the results. For the larger turbines, the tower height was increased to account for the larger turbine blades - the wind resource was extrapolated to these higher heights. Keep in mind that the larger and the higher the turbine, the better the wind and the greater the output. But of course, as the tower heights and turbine sizes increase so does the cost.

Turbine	Rotor Diameter meters	Rotor Power kW	Hub Height meters	Hub Height Wind Speed mph	Time At Zero Output percent	Time At Rated Output percent	Average Net Power Output kW	Average Net Energy Output kWh/yr	Average Net Capacity Factor %
Bergey Excel-R	6.7	7.5	30	8.72	48.92	0.68	0.7	5,900	9.0
Bergey Excel-S	6.7	10	30	8.72	36.39	0.19	0.7	6,300	7.1
Bergey XL.1	2.5	1	30	8.72	21.63	0.96	0.1	900	10.3
Southwest Skystream 3.7	3.7	1.8	30	8.72	45.66	0	0.2	1,700	10.8
Southwest Whisper 500	4.5	3	30	8.72	48.89	0.80	0.3	3,100	11.6
Northern Power NW 100/21	20	100	37	9.11	44.49	0	8.4	73,900	8.4
Vestas V47 - 660 kW	47	660	65	10.27	44.49	0.05	73.1	639,900	11.1
GE 1.5s	70.5	1,500	80.5	10.76	48.61	1.75	155.5	1,362,000	10.4
Vestas V80 - 2.0 MW	80	2,000	100	11.29	47.38	1.00	277.0	2,426,500	13.8
GE 2.5xl	100	2,500	110	11.53	42.62	3.05	399.8	3,501,800	16.0

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Last updated: June 2009
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