Here Enterprises Inc. - HRTE
Our Business
Here Enterprises (HRTE) is a developer of wind power, our nation’s fastest growing renewable energy resource.
The Company is engaged in planning, developing, acquiring and operating wind farms in the United States to generate clean, profitable wind energy.
Here Enterprises is developing wind energy projects which co-locate wind farms with commercial businesses in order to maximize cashflow for each project.
Here Enterprises has acquired its first development project. Cycle Ranch is located in Floresville, Texas, the state now leading the nation in wind power production.
The Company is developing a wind farm on property that hosts an established motocross speedway drawing thousands of fans, spectators and competitors each week.
Green incentives
Government mandates and subsidies provide economic development opportunities that will continue to win with zero emissions, green infrastructure investment opportunities, local job creation and natural resource development.
Exclusive to TALON Wind Turbines from A&C Green Energy.
What is Variable Pitch Technology?
This is an advanced technology that, up until NOW, was only available on those huge megawatt systems you might find in major wind farms.
stated, this system enables the wind turbine to maintain a constant peak output during times of higher wind.
How does Variable Pitch Technology work?
Each of the Talon's 3 blades have an attached centrifugal hammer that calculates when the generator is turning too quickly. Each blade is then automatically pitched to control the generator rotation speed.
Why is Variable Pitch Technology important?
When another wind turbine reaches its peak power (usually in high wind speeds around 25-30 mph), there is a decline in the power output curve mostly because of either blade design or tail furling. Instead of a decline in power output with increasing wind speeds, the Talon series maintains its maximum power output up to winds of 56 mph, its top working speed.
What does all this mean?
With the increased power output from the Talon wind turbine, you will have more energy to use and more energy bill savings, which means you can afford to leave your new HDTV on all month long!
The result is a dramatic reduction on the power curve after the upwind system reaches its peak power. Mimicking the pitching blades of the megawatt turbines, the Talon series from A&C Green
Energy reaches its peak power quickly and then maintains the peak output up to 56 mph. In the graph below, the Talon is represented by the BLUE curve, while the RED curve is from a typical upwind system of the "same" rated output.
Because of Variable Pitch Technology, the Talon produces higher wattage output at any given wind, reaches its peak power in lower wind and is able to sustain that peak output in higher winds.
This increased wattage output means higher energy production. Higher energy production means more energy savings and more money for you. The longer your Talon is in service, the more money you will earn over a similar upwind system.
Technical Explanation:
When the wind speed is below 7 mph (3m/s), the turbine blade angle remains static and the angle (X1) formed between the blade and turbine plane is B° (X1=B°). This is the ideal angle for the blades to begin their rotation. As long as the wind speed reaches 7 mph, the blades will begin to rotate.
While rotating, the outermost edge of the blade will be driven by the centrifugal force generated by the rotation of the blade to tilt toward the turbine plane. As the wind speed increases, the blade angle (X1) will then decrease to 0° so that the blade is parallel with the turbine plane. At this angle, the turbine has nearly reached its rated output power.
When the wind speed is between 20 mph - 55 mph (9m/s - 25m/s), the blade angle (X1) will stay near 0° with slight fluctuations in order to maintain it’s rated power.
When the wind speed is between 55 mph - 112 mph (25m/s - 50m/s), the wind will draw the blade by the centrifugal force, so the angle (X1) will continue to decrease to a negative angle (X1 = -B°) [B° and -B° are not the same].
Under this negative angle, the blade angle will produce a resistance on the rotation of turbine blades to slow down the turbine, thus protecting it from over speed operation.
The maximum rotation of the turbine will be no more than 380 RPM.
Blades (ABC), Centrifugal Hammers (abc)
Copyright 2005 - 2010 by A&C Green Energy. All Rights Reserved.
For More Info vist: http://www.acgreenenergy.com
About Wind Here: Winning with Wind
Wind Here believes that harmony exists in nature everywhere and a dual usage of the land is symbiotic and brings multiple benefits to the community that are compounded beyond the energy solutions of the wind farms alone.
Wind Here plans are in place to introduce economic development stimulus concepts in wind farms and wind parks that will increase rural economies with local job creation and investment opportunities with multiple revenue streams:
Eco parks: Nature Trails, Camping, Sports and Recreation
Wind Plex: Racing Parks, Amusement Parks, Water Parks, Restaurants, Hospitality, Golf Course, Museum, Shops
Wind Farms: Rural and Remote areas where dual usage is prohibitive beyond grazing livestock or agricultural activities
Windustrial Parks: Industrial and Commercial Green Zones powered by wind turbines
Wind Here Wind Farms and Wind Parks are professionally surveyed and site tested prior to installing appropriate wind turbine technology. Wind Here is currently conducting site suitability tests with three Talon 2 wind turbines manufactured by A & C Green Energy. http://www.acgreenenergy.com
Wind Here erects a group of wind turbines in the same location used for production of electric power. Individual turbines are interconnected with a medium voltage (usually 34.5 kV) power collection system and communications network. At a substation, this medium-voltage electrical current is increased in voltage with a transformer for connection to the high voltage transmission system.
A large wind farm may consist of a few dozen to several hundred individual wind turbines, and cover an extended area of hundreds of square miles, but the land between the turbines may be used for agricultural or other purposes. A wind farm may be located on-shore to harvest the inland thermals on hilly slopes and valleys and open plains or off-shore to take advantage of strong winds blowing over the surface of an ocean or lake.
SITE SELECTION
Wind Here Target Zones: Green Energy Wind Resources
Wind speed
Map of available wind power over the United States. Color codes indicate wind power density class. As a general rule, wind generators are practical if windspeed is 10 mph (16 km/h or 4.5 m/s) or greater. An ideal location would have a near constant flow of non-turbulent wind throughout the year with a minimum likelihood of sudden powerful bursts of wind. An important factor of turbine sitting is also access to local demand or transmission capacity.
Wind Here Site Selection
Sites are preselected on the basis of a wind atlas, and validated with wind measurements. Meteorological wind data alone is usually not sufficient for accurate sitting of a large wind power project. Collection of site specific data for wind speed and direction is crucial to determining site potential. Local winds are often monitored for a year or more, and detailed wind maps
A wind atlas contains data on the wind speed and wind direction in a region. These data include maps, but also time series or frequency distributions. A climatological wind atlas covers hourly averages at a standard height (10 meter) over even longer periods (30 years). But depending on the application there are variations in averaging time, height and period.
To collect wind data a meteorological tower is installed with instruments at various heights along the tower. All towers include anemometers to determine the wind speed and wind vanes to determine the direction.
The towers generally vary in height from 30 to 60 meters. The towers primarily are guyed steel-pipe structures, which are left to collect data for one to two years and then disassembled.
Data is collected by a data-logging device that stores and transmits data for analysis. Great attention must be paid to the exact positions of the turbines (a process known as micro-siting) because a difference of 30 m can nearly double energy production.
PRODUCTS
Talon 2
Featuring the Variable Pitch Technology
2000 Watts constant power output
2500 Watts maximum power output
Downwind design
Ideal for small to medium cabins,
barns and ranches
Talon 5
Featuring the Variable Pitch Technology
5,000 Watts constant power output
5,400 Watts maximum power output
Downwind design
Ideal for homes, large cabins and medium
to large barns
Talon 10
Featuring the Variable Pitch Technology
10,000 Watts constant power output
12,500 Watts maximum power output
Downwind design
Ideal for large homes and
large businesses
Talon 30
Featuring the Variable Pitch Technology
30,000 Watts constant power output
32,000 Watts maximum power output
Downwind design
Ideal for homes, large cabins and medium
to large barns
PowerMax+ 20kW
20KW rated power output
23KW maximum power output
Automatic Tail Furling and
Braking Disc Mechanism
Ideal for large homes, ranches,
farms and businesses
Turn Key Solution cost: $110,000.
Click for discount price
PowerMax+ 25kW
25 KW rated power output
29.8 KW maximum power output
Automatic Tail Furling
and Braking Disc Mechanism
Ideal for large homes, ranches, farms
and businesses
Turn Key Solution cost: $135,000.
Click for discount price
PowerOne (formerly Magnetek) Aurora PVI series
Specifically matched to our Talon2
(grid-tie) and Talon5.
Computer software to monitor
energy production.
Pure sine wave output to power
any household appliance
SMA WindyBoy series
Specifically matched for our Talon10
and Talon30
Specifically matched for our
PowerMax+ 20kW & 25kW
Pure sine wave output for GRID-TIE
applications
Outback
Specifically matched for our Talon2
Rugged OFF-GRID application
Pure sine wave output
PowerMax+ Off-Grid Power Inverters
OFF-GRID applications for
Talon and PowerMax+
Easily programmed
Pure sine wave output to power
any household appliance
Talk to Our Sales rep now:
Phone: 516-804-0263
eMail: Anthonyleone@windhere.com
Our Business
Here Enterprises (HRTE) is a developer of wind power, our nation’s fastest growing renewable energy resource.
The Company is engaged in planning, developing, acquiring and operating wind farms in the United States to generate clean, profitable wind energy.
Here Enterprises is developing wind energy projects which co-locate wind farms with commercial businesses in order to maximize cashflow for each project.
Here Enterprises has acquired its first development project. Cycle Ranch is located in Floresville, Texas, the state now leading the nation in wind power production.
The Company is developing a wind farm on property that hosts an established motocross speedway drawing thousands of fans, spectators and competitors each week.
Green incentives
Government mandates and subsidies provide economic development opportunities that will continue to win with zero emissions, green infrastructure investment opportunities, local job creation and natural resource development.
Exclusive to TALON Wind Turbines from A&C Green Energy.
What is Variable Pitch Technology?
This is an advanced technology that, up until NOW, was only available on those huge megawatt systems you might find in major wind farms.
stated, this system enables the wind turbine to maintain a constant peak output during times of higher wind.
How does Variable Pitch Technology work?
Each of the Talon's 3 blades have an attached centrifugal hammer that calculates when the generator is turning too quickly. Each blade is then automatically pitched to control the generator rotation speed.
Why is Variable Pitch Technology important?
When another wind turbine reaches its peak power (usually in high wind speeds around 25-30 mph), there is a decline in the power output curve mostly because of either blade design or tail furling. Instead of a decline in power output with increasing wind speeds, the Talon series maintains its maximum power output up to winds of 56 mph, its top working speed.
What does all this mean?
With the increased power output from the Talon wind turbine, you will have more energy to use and more energy bill savings, which means you can afford to leave your new HDTV on all month long!
The result is a dramatic reduction on the power curve after the upwind system reaches its peak power. Mimicking the pitching blades of the megawatt turbines, the Talon series from A&C Green
Energy reaches its peak power quickly and then maintains the peak output up to 56 mph. In the graph below, the Talon is represented by the BLUE curve, while the RED curve is from a typical upwind system of the "same" rated output.
Because of Variable Pitch Technology, the Talon produces higher wattage output at any given wind, reaches its peak power in lower wind and is able to sustain that peak output in higher winds.
This increased wattage output means higher energy production. Higher energy production means more energy savings and more money for you. The longer your Talon is in service, the more money you will earn over a similar upwind system.
Different Wind Turbine Types:
Vertical Axis Wind Turbines (VAWT)
These turbines spin around like a record and have their axis running up and down. These systems are good in urban areas where there is a limited amount of space. The drawback to these systems is that the oncoming wind pushes on both sides of the blades, creating an issue of excess drag and decreased performance.
Horizontal Axis Wind Turbines (HAWT)
Like most wind turbines and windmills. This design has been relatively untouched for centuries. Whether considering the windmills of Holland or the old windmills on the prairies of West Texas, these systems have been the most productive of all. There are essentially two types of HAWT: Upwind and Downwind.
Upwind HAWT
Upwind systems are the most common of the "small wind" market, which is reserved for generators that range in output power of up to 50kW. To face into the wind, these systems incorporate a tail vain, which in many cases, as in our PowerMax+ 20K and PowerMax+ 25K units, automatically adjusts to the angle of the wind to limit overspeed rotation.
Downwind HAWT
Facing away from the wind and without a tail, these systems are usually what appear in large-wind megawatt wind farms.
Practical Explanation:
Simply put, tail-furling and upwind systems lose power during high winds. This decrease in productivity is caused when the blades spin so fast that the oncoming wind meets a "wall of blades" and cannot pass through the blades to create the drag necessary to rotate the shaft with any efficiency.
The result is a dramatic reduction on the power curve after the upwind system reaches its peak power. Mimicking the pitching blades of the megawatt turbines, the Talon series from A&C Green Energy reaches its peak power quickly and then maintains the peak output up to 56 mph.
In the graph below, the Talon is represented by the BLUE curve, while the RED curve is from a typical upwind system of the "same" rated output.
Because of Variable Pitch Technology, the Talon produces higher wattage output at any given wind, reaches its peak power in lower wind and is able to sustain that peak output in higher winds.
This increased wattage output means higher energy production. Higher energy production means more energy savings and more money for you. The longer your Talon is in service, the more money you will earn over a similar upwind system.
Vertical Axis Wind Turbines (VAWT)
These turbines spin around like a record and have their axis running up and down. These systems are good in urban areas where there is a limited amount of space. The drawback to these systems is that the oncoming wind pushes on both sides of the blades, creating an issue of excess drag and decreased performance.
Horizontal Axis Wind Turbines (HAWT)
Like most wind turbines and windmills. This design has been relatively untouched for centuries. Whether considering the windmills of Holland or the old windmills on the prairies of West Texas, these systems have been the most productive of all. There are essentially two types of HAWT: Upwind and Downwind.
Upwind HAWT
Upwind systems are the most common of the "small wind" market, which is reserved for generators that range in output power of up to 50kW. To face into the wind, these systems incorporate a tail vain, which in many cases, as in our PowerMax+ 20K and PowerMax+ 25K units, automatically adjusts to the angle of the wind to limit overspeed rotation.
Downwind HAWT
Facing away from the wind and without a tail, these systems are usually what appear in large-wind megawatt wind farms.
Practical Explanation:
Simply put, tail-furling and upwind systems lose power during high winds. This decrease in productivity is caused when the blades spin so fast that the oncoming wind meets a "wall of blades" and cannot pass through the blades to create the drag necessary to rotate the shaft with any efficiency.
The result is a dramatic reduction on the power curve after the upwind system reaches its peak power. Mimicking the pitching blades of the megawatt turbines, the Talon series from A&C Green Energy reaches its peak power quickly and then maintains the peak output up to 56 mph.
In the graph below, the Talon is represented by the BLUE curve, while the RED curve is from a typical upwind system of the "same" rated output.
Because of Variable Pitch Technology, the Talon produces higher wattage output at any given wind, reaches its peak power in lower wind and is able to sustain that peak output in higher winds.
This increased wattage output means higher energy production. Higher energy production means more energy savings and more money for you. The longer your Talon is in service, the more money you will earn over a similar upwind system.
Technical Explanation:
When the wind speed is below 7 mph (3m/s), the turbine blade angle remains static and the angle (X1) formed between the blade and turbine plane is B° (X1=B°). This is the ideal angle for the blades to begin their rotation. As long as the wind speed reaches 7 mph, the blades will begin to rotate.
While rotating, the outermost edge of the blade will be driven by the centrifugal force generated by the rotation of the blade to tilt toward the turbine plane. As the wind speed increases, the blade angle (X1) will then decrease to 0° so that the blade is parallel with the turbine plane. At this angle, the turbine has nearly reached its rated output power.
When the wind speed is between 20 mph - 55 mph (9m/s - 25m/s), the blade angle (X1) will stay near 0° with slight fluctuations in order to maintain it’s rated power.
When the wind speed is between 55 mph - 112 mph (25m/s - 50m/s), the wind will draw the blade by the centrifugal force, so the angle (X1) will continue to decrease to a negative angle (X1 = -B°) [B° and -B° are not the same].
Under this negative angle, the blade angle will produce a resistance on the rotation of turbine blades to slow down the turbine, thus protecting it from over speed operation.
The maximum rotation of the turbine will be no more than 380 RPM.
Blades (ABC), Centrifugal Hammers (abc)
Copyright 2005 - 2010 by A&C Green Energy. All Rights Reserved.
For More Info vist: http://www.acgreenenergy.com
About Wind Here: Winning with Wind
Wind Here believes that harmony exists in nature everywhere and a dual usage of the land is symbiotic and brings multiple benefits to the community that are compounded beyond the energy solutions of the wind farms alone.
Wind Here plans are in place to introduce economic development stimulus concepts in wind farms and wind parks that will increase rural economies with local job creation and investment opportunities with multiple revenue streams:
Eco parks: Nature Trails, Camping, Sports and Recreation
Wind Plex: Racing Parks, Amusement Parks, Water Parks, Restaurants, Hospitality, Golf Course, Museum, Shops
Wind Farms: Rural and Remote areas where dual usage is prohibitive beyond grazing livestock or agricultural activities
Windustrial Parks: Industrial and Commercial Green Zones powered by wind turbines
Wind Here Wind Farms and Wind Parks are professionally surveyed and site tested prior to installing appropriate wind turbine technology. Wind Here is currently conducting site suitability tests with three Talon 2 wind turbines manufactured by A & C Green Energy. http://www.acgreenenergy.com
Wind Here erects a group of wind turbines in the same location used for production of electric power. Individual turbines are interconnected with a medium voltage (usually 34.5 kV) power collection system and communications network. At a substation, this medium-voltage electrical current is increased in voltage with a transformer for connection to the high voltage transmission system.
A large wind farm may consist of a few dozen to several hundred individual wind turbines, and cover an extended area of hundreds of square miles, but the land between the turbines may be used for agricultural or other purposes. A wind farm may be located on-shore to harvest the inland thermals on hilly slopes and valleys and open plains or off-shore to take advantage of strong winds blowing over the surface of an ocean or lake.
SITE SELECTION
Wind Here Target Zones: Green Energy Wind Resources
Wind speed
Map of available wind power over the United States. Color codes indicate wind power density class. As a general rule, wind generators are practical if windspeed is 10 mph (16 km/h or 4.5 m/s) or greater. An ideal location would have a near constant flow of non-turbulent wind throughout the year with a minimum likelihood of sudden powerful bursts of wind. An important factor of turbine sitting is also access to local demand or transmission capacity.
Wind Here Site Selection
Sites are preselected on the basis of a wind atlas, and validated with wind measurements. Meteorological wind data alone is usually not sufficient for accurate sitting of a large wind power project. Collection of site specific data for wind speed and direction is crucial to determining site potential. Local winds are often monitored for a year or more, and detailed wind maps
A wind atlas contains data on the wind speed and wind direction in a region. These data include maps, but also time series or frequency distributions. A climatological wind atlas covers hourly averages at a standard height (10 meter) over even longer periods (30 years). But depending on the application there are variations in averaging time, height and period.
To collect wind data a meteorological tower is installed with instruments at various heights along the tower. All towers include anemometers to determine the wind speed and wind vanes to determine the direction.
The towers generally vary in height from 30 to 60 meters. The towers primarily are guyed steel-pipe structures, which are left to collect data for one to two years and then disassembled.
Data is collected by a data-logging device that stores and transmits data for analysis. Great attention must be paid to the exact positions of the turbines (a process known as micro-siting) because a difference of 30 m can nearly double energy production.
PRODUCTS
Talon 2
Featuring the Variable Pitch Technology
2000 Watts constant power output
2500 Watts maximum power output
Downwind design
Ideal for small to medium cabins,
barns and ranches
Talon 5
Featuring the Variable Pitch Technology
5,000 Watts constant power output
5,400 Watts maximum power output
Downwind design
Ideal for homes, large cabins and medium
to large barns
Talon 10
Featuring the Variable Pitch Technology
10,000 Watts constant power output
12,500 Watts maximum power output
Downwind design
Ideal for large homes and
large businesses
Talon 30
Featuring the Variable Pitch Technology
30,000 Watts constant power output
32,000 Watts maximum power output
Downwind design
Ideal for homes, large cabins and medium
to large barns
PowerMax+ 20kW
20KW rated power output
23KW maximum power output
Automatic Tail Furling and
Braking Disc Mechanism
Ideal for large homes, ranches,
farms and businesses
Turn Key Solution cost: $110,000.
Click for discount price
PowerMax+ 25kW
25 KW rated power output
29.8 KW maximum power output
Automatic Tail Furling
and Braking Disc Mechanism
Ideal for large homes, ranches, farms
and businesses
Turn Key Solution cost: $135,000.
Click for discount price
PowerOne (formerly Magnetek) Aurora PVI series
Specifically matched to our Talon2
(grid-tie) and Talon5.
Computer software to monitor
energy production.
Pure sine wave output to power
any household appliance
SMA WindyBoy series
Specifically matched for our Talon10
and Talon30
Specifically matched for our
PowerMax+ 20kW & 25kW
Pure sine wave output for GRID-TIE
applications
Outback
Specifically matched for our Talon2
Rugged OFF-GRID application
Pure sine wave output
PowerMax+ Off-Grid Power Inverters
OFF-GRID applications for
Talon and PowerMax+
Easily programmed
Pure sine wave output to power
any household appliance
Talk to Our Sales rep now:
Phone: 516-804-0263
eMail: Anthonyleone@windhere.com
MANAGEMENT TEAM
Mark K. Ryun President / CEO
Mark Ryun was appointed as president secretary, treasurer and director of Here Enterprises, Inc. (HRTE) on March 4, 2010. Since July of 1991, Mr. Mark K. Ryun has been the president and chief executive officer of the Coastal Wood Floors, a full-service hardwood flooring contracting company based in Haleiwa, Hawaii.
Over the past 18 years, Mr. Ryun has been a member of the board of directors with the Honolulu Board of Contractors in the State of Hawaii, the National Wood Flooring Association (NWFA), and the Better Business Bureau of Hawaii (BBB). Since June of 1992, Mr Ryun raced professional motocross for Pflueger Honda, Montgomery Motors, No Fear and Oakley. He competed in Motocross events for ten years.
In 2000, Mr. Ryun built motocross tracks for Hawaii Motorsports Association, finishing all phases from financially funding the build, designing the course and directing the crew until it was completed. As a leader, Mr. Ryun has demonstrated high standards of integrity in his business operations through personal commitment and a “hands on” involvement in every aspect of the business. Mr. Ryun maintains the corporate vision on a day-to-day basis through a tireless commitment to solid communication at all levels.
George Russell / CFO
George Russell was appointed as Chief Financial Officer of Here Enterprises Inc. (HRTE) on May 6th, 2011. Since 1996, Mr. Russell has acted as investment adviser, financial planner, and retirement consultant for affluent clients, small businesses, and medium capitalization companies.
He was presented the Blue Chip Award five consecutive years for excellence in client services. He was certified and performed as a Portfolio Manager of individual equities. In 2006, Mr. Russell was named Managing Director and Controller of a new construction/ remodeling conglomerate operating throughout the state of Texas.
Mr. Russell earned an Executive MBA in Management and Strategy and holds a Bachelor’s degree in Business Administration. He proudly served in the United States Army, and is a highly decorated, combat veteran of Operation Desert Storm.
RECENT PRESS RELEASES
Wednesday, October 12, 2011
HERE ENTERPRISES, INC. FinancialsEDGAR Online Financials (Wed, Oct 12)
Thursday, October 6, 2011
HERE ENTERPRISES, INC. Files SEC form 10-K, Annual ReportEDGAR Online (Thu, Oct 6)
Monday, August 1, 2011
Here Enterprises' Cycle Ranch Featured in History Channel's Top Gear Season PremierePR Newswire (Mon, Aug 1)
CONTACT US
Here Enterprises, Inc.
848 North Rainbow Boulevard
Suite 2952
Las Vegas, NV 89107
Phone: 210-957-7879
Website: http://www.windhere.com
Investor Relations
investors@hereenterprises.com
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