Products & Services
See also: Categories | Featured Products | Technical Articles | More Information-
Supplier: ENERCON GmbH
Description: long service life. Depending on the wind turbine type and site, the towers are available in various hub heights. Foundation The foundation is the link between the tower and the subsoil, and bears all static and dynamic loads from the wind turbine. The ENERCON foundation
- AC Prime Power Rating (Watts): 800000 watts
- Cut-out Wind Velocity: 62.62 to 76.04 miles/hr
- Mounting/Location: Tracking Mount
- Orientation: Vertical axis
-
Supplier: ENERCON GmbH
Description: the nacelle. During operation of the WEC, the nacelle is turned automatically to the wind in order to enable maximum WEC power. The number of yaw drives used varies according to the wind turbine type. E-module The E-module is borne by the wind energy converter tower base.
- AC Prime Power Rating (Watts): 900000 watts
- Cut-out Wind Velocity: 62.62 to 76.04 miles/hr
- Mounting/Location: Tracking Mount
- Orientation: Vertical axis
-
Supplier: ENERCON GmbH
Description: -module is borne by the wind energy converter tower base. Power cabinets and other components are arranged on different levels. They use inverters to transform direct current into alternating current that conforms to grid requirements. Inverter technology and control systems are among
- AC Prime Power Rating (Watts): 2.35E6 watts
- Cut-out Wind Velocity: 62.62 to 76.04 miles/hr
- Mounting/Location: Tracking Mount
- Orientation: Vertical axis
-
-
Supplier: ENERCON GmbH
Description: stability and a long service life. Depending on the wind turbine type and site, the towers are available in various hub heights. Foundation The foundation is the link between the tower and the subsoil, and bears all static and dynamic loads from the wind turbine. The
- AC Prime Power Rating (Watts): 3.00E6 watts
- Cut-out Wind Velocity: 62.62 to 76.04 miles/hr
- Mounting/Location: Tracking Mount
- Orientation: Vertical axis
-
Supplier: Nordex AG
Description: With over 2,700 wind turbines installed, the AW1500 has a long and successful history, which has provided the basis for the evolution of all Acciona Windpower wind turbines. Proven track record With approximately 4,000 MW installed in 15 countries, the AW1500 global average
- AC Prime Power Rating (Watts): 1.50E6 watts
- Cut-in Wind Velocity: 6.71 to 10.06 miles/hr
- Cut-out Wind Velocity: 55.91 miles/hr
- Orientation: Horizontal Axis
-
Supplier: Suzlon Energy Ltd.
Description: 1. S97 90m has the following features:- Tubular tower that reaches a height of 90 meters All steel tower 2. S97 120m has the following features:- A 120 meter tall hybrid tower which is a combination of the lattice and tubular towers
- AC Prime Power Rating (Watts): 2.10E6 watts
- Cut-in Wind Velocity: 6.71 miles/hr
- Cut-out Wind Velocity: 46.96 miles/hr
- Height: 90 to 120 ft
-
Supplier: Nordex AG
Description: With one of the largest swept areas in the 3MW segment, 13,720 m2, the AW132/3000 optimizes energy output and significantly reduces cost of energy in low wind sites (IEC class IIIb). It is available on a 120 and 137.5 meter concrete tower as well as an 84 meter steel tower,
- AC Prime Power Rating (Watts): 3.00E6 watts
- Cut-in Wind Velocity: 6.71 miles/hr
- Cut-out Wind Velocity: 55.91 miles/hr
- Orientation: Horizontal Axis
-
Supplier: Nordex AG
Description: Now upgraded to IEC class IIb, the AW125/3000 optimizes energy generation in medium wind sites with low turbulence intensity. It is available with a 87.5m-high steel tower or 100, 120 and 137.5m concrete tower. Optimized performance for medium wind sites Proven and
- AC Prime Power Rating (Watts): 3.00E6 watts
- Cut-in Wind Velocity: 7.83 miles/hr
- Cut-out Wind Velocity: 55.91 miles/hr
- Orientation: Horizontal Axis
-
Supplier: Suzlon Energy Ltd.
Description: The S111 90m tower has the following features:- Height of 90 meters All-steel tubular tower The S111 120m tower has the following features:- Height of 120 meters All-steel hybrid tower with lattice base and tubular tower Unique
- AC Prime Power Rating (Watts): 2.10E6 watts
- Cut-in Wind Velocity: 7.83 miles/hr
- Cut-out Wind Velocity: 44.73 miles/hr
- Height: 90 to 120 ft
-
Supplier: Nordex AG
Description: As an all-round turbine in the 2.5 MW product line, the N90/2500 can be deployed at strong-wind sites. With different tower heights, it covers wind class IEC 1. Nordex also offers it with the option of a frequency of 50 or 60 hertz. This makes the N90/2500 a very versatile 2.5
- AC Prime Power Rating (Watts): 2.50E6 watts
- Cut-in Wind Velocity: 6.71 miles/hr
- Cut-out Wind Velocity: 55.91 miles/hr
- Orientation: Horizontal Axis
-
Supplier: Vestas Wind Systems A/S
Description: The V100-2.0 MW™ IEC IIB turbine allows you to increase productivity by opening up low- and medium-wind sites which were previously regarded as non-viable. To maximise power output at such locations, the turbines' 100 m rotor gains more from the available wind – starting at an
- AC Prime Power Rating (Watts): 2.00E6 watts
- Cut-in Wind Velocity: 6.71 miles/hr
- Cut-out Wind Velocity: 49.2 miles/hr
- Orientation: Horizontal Axis
-
Supplier: Vestas Wind Systems A/S
Description: The V110-2.0 MW™ IEC IIIA is an extremely reliable turbine, which is documented through its strong availability and performance. This turbine allows you to increase productivity by opening up low-wind sites which were previously regarded as non-viable. To maximise power output at such
- AC Prime Power Rating (Watts): 2.00E6 watts
- Cut-in Wind Velocity: 6.71 miles/hr
- Cut-out Wind Velocity: 44.73 miles/hr
- Orientation: Horizontal Axis
-
Supplier: ZTE Corporation
Description: ZTE self-supporting towers (SST) are based on leading standards, advanced technology, optimized design, creative efforts and plentiful experience. The SST towers are designed according to customers’ requirements, such as design standard, antenna load, wind speed, etc. SST
- Applications: Communications / Antenna Support
- Height / Length Required: 230 ft
- Material: Steel
- Structure / Mount Types: Guyed Tower
-
Supplier: Vestas Wind Systems A/S
Description: On high wind-sites the V105-3.45 MW™, V112-3.45 MW™ and V117-3.45 MW™ are excellent turbine choices. A combination of the three variants can optimise your site layout and improve your production significantly. Due to the similar electrical properties, sound emissions and
- AC Prime Power Rating (Watts): 3.45E6 watts
- Cut-in Wind Velocity: 6.71 miles/hr
- Cut-out Wind Velocity: 55.91 miles/hr
- Orientation: Horizontal Axis
-
Supplier: Vestas Wind Systems A/S
Description: Built on the same proven technology as the V112-3.0 MW®, the V126-3.45 MW™ IEC IIA/IEC IIB operates on medium-wind sites. Equipped with the industry known structural shell blades, the blades of the V126-3.45 MW™ turbine do not weigh more than those of the V112-3.0 MW®. The
- AC Prime Power Rating (Watts): 3.45E6 watts
- Cut-in Wind Velocity: 6.71 miles/hr
- Cut-out Wind Velocity: 50.32 miles/hr
- Orientation: Horizontal Axis
-
Supplier: Campbell Scientific, Inc.
Description: The UT30 is a durable instrument tower that can be used for a variety of applications. It supports a 30 foot (10 m) measurement height for wind sensors as well as sturdy attachment points for antennas, solar panels, environmental enclosures, radiation shields, and crossarms. The
- Applications: Meteorology / Instrument / Sensor
- Height / Length Required: 30 ft
- Material: Aluminum
- Structure / Mount Types: Guyed Tower, Self-supporting Tower
-
Supplier: DME Company
Description: Design Features: The non-rusting FRP casing and basin, circular in shape eliminates special installation requirements. Prevailing wind directions will not affect tower performance. Lightweight and compact, this cooling tower provides quick and easy installation. Job site
- Construction / Material: Fiberglass Reinforced Polyester (FRP), Polyvinyl Chloride (PVC)
- Design: Cross Flow
- Features & Options: Corrosion Resistant, Ladder
- Flow Rate: 6 to 5653 GPM
-
Supplier: Campbell Scientific, Inc.
Description: The UT10 is a durable, lightweight instrument tower that can be used for a variety of applications. It supports a 10 ft (3 m) measurement height for wind sensors as well as sturdy attachment points for antennas, solar panels, environmental enclosures, radiation shields, and crossarms.
- Applications: Meteorology / Instrument / Sensor
- Height / Length Required: 10 ft
- Material: Aluminum
- Structure / Mount Types: Guyed Tower, Self-supporting Tower
-
Supplier: Lasko Products, Inc.
Description: Space-saving desktop size – slim 6” diameter Pivoting top module for precision air delivery Combine pivot with oscillation for even greater coverage Front-mounted electronic controls Three refreshing speeds Fully assembled Includes a patented, fused safety plug E.T.L. listed 6"L x 6"W x 14"H
- Applications: Personnel (Mancooler, Box Fans, etc.)
-
Supplier: Lasko Products, Inc.
Description: Multi-function remote control Electronic 7-hour timer Widespread oscillation Three quiet speeds On-board remote storage Easy-carry handle Built-in remote control storage area Includes a patented, fused safety plug E.T.L. listed 12"L x 12"W x 38"H
- Applications: Personnel (Mancooler, Box Fans, etc.)
-
Supplier: Lasko Products, Inc.
Description: Space-saving desktop size – slim 6” diameter Pivoting top module for precision air delivery Combine pivot with oscillation for even greater coverage Front-mounted electronic controls Three refreshing speeds Fully assembled Includes a patented, fused safety plug E.T.L. listed 6"L x 6"W x 14"H
- Applications: Personnel (Mancooler, Box Fans, etc.)
-
Supplier: Lasko Products, Inc.
Description: Multi-function remote control Space-saving design—ideal for home or office Electronic timer (up to 7 hours) Three quiet speeds Widespread oscillation Easy-carry handle Simple base assembly required Includes a patented, fused safety plug E.T.L. listed 12 1/2"L x 12 1/2"W x 38"H
- Applications: Personnel (Mancooler, Box Fans, etc.)
-
Supplier: Campbell Scientific, Inc.
Description: The UT20 is a durable instrument tower that can be used for a variety of applications. It supports a 20 foot (6 m) measurement height for wind sensors for fire weather applications. It also provides sturdy attachment points for antennas, solar panels, environmental enclosures,
- Applications: Meteorology / Instrument / Sensor
- Height / Length Required: 20 ft
- Material: Aluminum
- Structure / Mount Types: Guyed Tower, Self-supporting Tower
-
Supplier: Baltimore Aircoil Company
Description: PT2 Cooling Towers deliver independently verified, fully rated thermal performance over a wide range of flow and temperature requirements. Standard design features satisfy today’s environmental concerns, minimize installation costs, maximize year-round operating reliability, and simplify
- Cooling Capacity: 117 to 787 tons
- Design: Cross Flow, Counter Flow
- Motor Power: 5 to 40 HP
- Operating Weight: 5670 to 5950 lbs
-
Supplier: ZTE Corporation
Description: Camouflaged tower can blend in environment well when the site is placed in theme park, resort, museum, golf course, and zoo and so on, which can solve the site acquisition and environmental protection issues. The camouflaged tower is designed according to customers’ requirements
- Applications: Communications / Antenna Support
- Height / Length Required: 131 ft
- Material: Steel
- Structure / Mount Types: Concealed / Stealth Structure
-
Supplier: ZTE Corporation
Description: Monopole is made up of single steel tubular and equipped with working platform, ladders, etc. The monopole is designed according to customers’ requirements, such as design standards, antenna loads, wind speed, etc. ZTE monopole is based on leading standards, advanced technology, optimized
- Applications: Communications / Antenna Support
- Height / Length Required: 180 ft
- Material: Steel
- Structure / Mount Types: Monopole
-
Supplier: Conductix-Wampfler
Description: Handling and installing power cables in wind turbine towers is difficult and costly. The solution is Tower BussTM by Conductix-Wampfler. Conductix-Wampfler has applied its extensive knowledge and experience in rigid conductor design to develop the Tower Buss
- Crane Electrification System: Yes
- Environment: Indoor, Outdoor
- Features: Slip Rings, High Temperature, Copper Conductors
- System Type: Conductor Rail, Transit Rail
-
Description: superb choice for your long lift electric hoist needs. Built for use as a service hoist for wind turbine maintenance within the nacelle or tower. To arrange a meeting or learn more about the CM Wind Edition wind turbine hoists, contact a sales representative today.
- Hoist Mounting: Suspension Hook
- Line Type: Chain
- Load Capacity: 2000 to 6000 lbs
- Load Hook: Single
-
Supplier: Vaisala
Description: for the difference in wind behavior from the Triton Wind Profiler to the nearby met tower. Features • A CSV file of the original remote sensing data set • A CSV file of the corrected remote sensing data set with wind speed adjustments at standard station heights
-
Supplier: Philatron Wire & Cable
Description: World leading manufacturer of wind power cables. Torsion Tested to 30,000 Cycles. Nacelle 600 Volt - Oil and Heat Resistant Loop - Torsion Tested to 30,000 Cycles Tower - Extra Flexible Copper Cable Medium Voltage to 35KV Single and Multi-Conductor Power Cables Grounding Cable UL
- Product Category: Bulk Cable
- Rated Voltage: 0.6000 kilovolts
- Standards: UL Recognized Component Mark (US and Canadian)
-
Supplier: Vaisala
Description: curtailments into the forecast. MOS-correction can be applied to improve forecast accuracy and reduce bias when at least one year of historical met tower or power production data is available. A Seasonal Wind Power Forecast can be added to your wind forecast, which projects 12
-
Supplier: Vaisala
Description: historical weather for each met tower and wind turbine location. Model output is statistically calibrated using quality-controlled observations from the site met towers in a process known as MOS (Model Output Statistics) correction. This technique is applied after conducting a
-
Supplier: CSA Group
Description: Preface This is the first edition of ASME A17.8/CSA B44.8, Standard for wind turbine tower elevators. Originally, wind turbine tower elevators were covered in ASME A17.1-2013/CSA B44-13, Section 5.11, published in October 2013. This Code supersedes those requirements.
-
Supplier: Vaisala
Description: Wind Performance Reconciliation puts recent and future wind performance in context so you understand the risks and implications of variability at potential or existing projects across your portfolio. Vaisala 3TIER Services enables you to optimize and diversify your assets and our
-
Supplier: CSA Group
Description: ISO 4354:2008 describes the actions of wind on structures and specifies methods of calculating characteristic values of wind loads for use in designing buildings, towers, chimneys, bridges and other structures, as well as their components and appendages. The loads are suitable
-
Supplier: Micromega Dynamics
Description: The SHM.Tower monitoring system has been developed for continuous measurement of the vibration loads of wind turbine towers. Since it issues warnings if threshold values are exceeded, the system provides considerable added value during ongoing operation. Wind turbines
- Monitored Properties: Acceleration / Vibration
-
Supplier: Bentley Systems, Inc.
Description: be edited to achieve the desired shape and configuration. With STAAD.Tower, external components like antennas, appurtenances, and platforms can easily be attached and can generate wind, ice, and seismic loads following the TIA codes along with other standard reference loads. The robust
- Licensing: Perpetual, Subscription
- Source Code: Proprietary
- Use: Professional
-
Description: IEC 61400-6:2020 specifies requirements and general principles to be used in assessing the structural integrity of onshore wind turbine support structures (including foundations). The scope includes the geotechnical assessment of the soil for generic or site specific purposes. The strength of
-
Supplier: Belden Inc.
Description: Outdoor Wind Tower tight buffered optical fiber cable with glass yarns as strength member and improved rodent protection with Polyethylene outer jacket. 8 fibers MM OM4.
- Bending Radius: 80 mm
- Cable Weight: 0.1473 lbs/ft
- Operating Temperature: -30 to 70 C
-
Supplier: Belden Inc.
Description: Outdoor Wind Tower tight buffered optical fiber cable with glass yarns as strength member and improved rodent protection with Polyethylene outer jacket. 12 fibers MM OM4.
- Bending Radius: 89.6 mm
- Cable Weight: 0.1875 lbs/ft
- Operating Temperature: -30 to 70 C
-
Supplier: Belden Inc.
Description: Outdoor Wind Tower tight buffered optical fiber cable with glass yarns as strength member and improved rodent protection with Polyethylene outer jacket. 4 fibers MM OM2.
- Bending Radius: 75.2 mm
- Cable Weight: 0.1310 lbs/ft
- Operating Temperature: -30 to 70 C
-
Supplier: Belden Inc.
Description: Outdoor Wind Tower tight buffered optical fiber cable with glass yarns as strength member and improved rodent protection with Polyethylene outer jacket. 8 fibers MM OM3.
- Bending Radius: 80 mm
- Cable Weight: 0.1473 lbs/ft
- Operating Temperature: -30 to 70 C
Find Suppliers by Category Top
Featured Products Top
-
lubricants needed to protect the equipment. Going up-tower costs your wind industry customers money. That’s why they want long-lasting gear oil that minimizes maintenance while enhancing equipment life and reliability. Lubricant manufacturers must formulate lubricants that improve gearbox (read more)
Browse Synthetic Oils, Greases, and Lubricants Datasheets for ExxonMobil Chemical Company – Synthetic Base Stocks -
The Ivanpah tower power station in the Mojave Desert, California, as the world’s largest solar thermal station with 392MW of installed gross (read more)
Browse Brushless Motors Datasheets for 3X Motion Technologies Co., Ltd -
Electric Tower Design Environmental Simulation Design (read more)
Browse Accelerometers Datasheets for Silicon Designs, Inc. -
Arctic Control System Sensor Coal Mine Structural Health Monitoring Electric Tower Design (read more)
Browse MEMS Devices Datasheets for Silicon Designs, Inc. -
3X Motion BLDC geared motor used in tower solar heliostat rotation system 42mm BLDC geared motor of 3X Motion is mainly used in tower solar heliostat rotation system. The heliostat is one of the main devices in tower solar thermal power station (read more)
Browse DC Motors Datasheets for 3X Motion Technologies Co., Ltd -
towers, transformers, etc. Whether you are working with traditional fuels for energy production, or building new wind and solar plants, Bayou City Bolt can help you stay on schedule. View our line card (read more)
Browse Bolts Datasheets for Bayou City Bolt & Supply Co., Inc. -
towers, transformers, etc. Whether you are working with traditional fuels for energy production, or building new wind and solar plants, Bayou City Bolt can help you stay on schedule. (read more)
Browse Bolts Datasheets for Bayou City Bolt & Supply Co., Inc. -
, and aerospace. For example, offshore oil platforms and wind turbines, wireless communications towers, weather stations, and defense systems, can experience temperatures ranging from -40o F to more than 120o F. In steel production, very high temperatures are routine in (read more)
Browse Electrical Conduit Datasheets for Electri-Flex Company -
blistering heat, cold, high winds, and heavy rain. They may need to climb tall transmission towers, navigate difficult terrain, and work at great heights. Despite these challenging circumstances, linemen are dedicated to ensuring that the electrical grid remains operational and reliable. 2 (read more)
Browse Hand Tools Datasheets for Lowell Corporation -
– whether coal-fired, oil-fired, nuclear fission, hydropower, waste to energy plant, wind turbine, natural gas power plants, diesel power backup power, or concentrated solar power (CSP) plants – actuators are needed throughout the plant for effective valve and damper automation. Some typical uses of (read more)
Browse Electric Rotary Actuators Datasheets for Indelac Controls, Inc.
Conduct Research Top
-
Load Cell Application - Wind Tower
Utilizing a single or multiple load cells, you may monitor all stresses induced due to high wind activities on the towers located in remote areas. The load cells via a junction box are connected to inline amplifier and data acquisition computer system to record all data and make it available
-
Hard Automation Welding Options for Wind Power Industry
Arc Products TM weld tracking and positioning systems precisely position arc and track joints for wind tower section fabrication. Joint tracking and positioning systems from Arc Products TM, a Lincoln Electric company, deliver precise joint tracking and positioning for submerged arc or GMAW arc
-
ROTRONIC - Wind Turbines
Wind farms can extend over. kilometres of land or offshore. areas where the climate and. the wind speed can vary substantially,. especially in hilly. areas. Positioning towers only. slightly to the left or right can. make a significant difference. because the wind velocity can. be increased due
-
Sensor Solutions for the Reliable Inspection of Wind Turbines
Due to safety and cost reasons, wind turbines require 24/7 monitoring. Lightning, defective rotor blades or tower movements due to localized storms can have serious consequences until the wind turbine finally collapses. Precision sensor technology from Micro-Epsilon is already used during
-
Wind Turbine Manufacturer Implements Clean Air Initiative
When you think about generating electricity from wind, clean energy comes to mind. However, the wind turbine production process can be a major source of air pollution without the proper controls in place. Manufacturing and painting the blades, towers and nacelles requires composite construction
-
Bond Tester Helps Protect Wind Turbines from Lightning
Lightning strikes are a leading cause of damage to wind turbines even though they are designed with a lightning arrestor system that conducts the electricity from the tip of the blade, through the nacelle and down the tower to ground. A damaged turbine must be repaired before it can be returned
-
CASE STUDY: Safety Training Increases Abrasives Efficiency
A global industrial supplier to the energy market experienced high abrasive usage during the manufacture of its business towers and flanges for wind turbines. Learn how they reduced their abrasive usage and increased production by attending the S.P.O.T. Safety Training Program.
-
BBC NEWS Middle East Dubai plans 'moving' skyscraper
The world's first moving building, an 80-storey tower with revolving floors giving a shifting shape, will be built in Dubai, its architect says. The Dynamic Tower design is made up of 80 pre-fabricated apartments which will spin independently of one another. "It's the first building that rotates
More Information Top
-
http://usitc.gov/publications/701_731/pub4372.pdf
Utility Scale Wind Towers from China and Vietnam .
-
http://usitc.gov/publications/701_731/pub4304.pdf
Utility Scale Wind Towers from China and Vietnam .
-
LWST Phase I Project Conceptual Design Study: Evaluation of Design and Construction Approaches for Economical Hybrid Steel/Concrete Wind Turbine Towers; June 2...
The design wind tower height for the 3.6-MW wind turbine given by industry partner input is 94.5 m with hub height of 100 m.
-
Bird Mortaility at the Altamont Pass Wind Resource Area: March 1998--September 2001
… perching and flying behaviors exhibited by individual birds around wind turbines; (2) evaluate flying behaviors and the environmental and topographic conditions associated with flight behaviors; and (3) identify possible relationships between bird behaviors and bird mortality, wind tower design and operations, landscape …
-
Applied Mechanics and Civil Engineering
… set, the rectangular building compared to its roof wind speed increased, and the maximum wind speed ratio the height of the wind energy density increased to about 10%, increasing the most is the direction of the wind tower near the main building …
-
Environmental Wind Engineering and Design of Wind Energy Structures
The wind tower is a cantilever beam; in this sense, the simplest way is to perform a hand calculation, considering the tower clamped to its base.
-
Wind Energy Assessment Study for Nevada -- Tall Tower Deployment (Stone Cabin): 26 June 2005 - 31 December 2007
Description of the data used (locations/coordinates, elevation, etc.) Station 17 Tonopah 24NW ( Wind Tower ) Nevada: Data begin date: 11 November 2005 Wind data (good wind speed and direction) Begin date: 11 November 2005 End date: 31 December 2005 Data time increment: 5 …
-
NANA Wind Resource Assessment Program Final Report
Upgrade diesel gen-set controls and install wind tower foundations and towers, wind turbines, power line from wind turbines to power plant, system controllers, power converter and battery storage, resistance heaters in power plant and school, and a communications network linking all …