Information on Small Wind

WECC recently launched a small wind information site to assist consumers and businesses by providing information on the benefits of a small wind solution, help determine if a small wind system is right for you, and with providing guidance on implementation. Siting, understanding interconnection with your utility and turbine selection are critical factors to understand; although there are many additional factors to consider. Especially with turbine selection, since there currently is no true certification system for small wind turbine generators, the buyer is at the mercy of claims by the turbine manufacturer. Although this soon changing in North America.

The Small Wind Certification Counsel now exists and will begin to accept applications from wind turbine generator manufacturers in early 2010. In fact, at next week's AWEA Small & Community Wind Conference and Exhibition in Detroit, the SWCC with submit and approve plans that will be utilized to certify wind turbines to the AWEA Small Wind Turbine Performance and Safety Standard. This is a significant step toward protecting consumers and improving industry credibility and performance.

WECC offers a FREE WindSight initial wind assessment with no obligation. Upon submitting basic information into a simple online form regarding your site and electric usage, a report will provide prepared by a WECC Wind Technician. The report will be sent to you that informs of the wind regime at your location, an initial siting assessment and a recommendation on the turbine size (if good wind exists) to help you get started with the decision process. Give it a try!

The Aesthetic Excuse

Americans have long been known for our obsession with appearances. Our collective beauty obsession and the pursuit of perfection have spawned multiple magazines, miracle creams and, no doubt, trips to the therapist’s office.

You may be wondering why I’m discussing the American aesthetic on a blog about wind energy. Did you know that there is a movement against wind energy based almost entirely on the aesthetics of wind turbines?

Perhaps it’s just me but I cannot find a single aesthetically pleasing thing about a power plant. I’ll admit, my opinion may be unfairly influenced by the ever present aroma of chemical pollutants or the surprising sting of smog as it hits my eyes – but I just don’t get it. I cannot find any logic to the argument that since some people in our country don’t like the way that turbines look, we’re going to continue poisoning ourselves by building more of what is apparently seen as the more attractive option – the conventional power plant.

I’ve included some photos for comparison:

Feel free to tell me how crazy I am for not finding the smoke spewing, pollutant belching power plant more aesthetically pleasing than a wind farm.

Wind turbines, some of which are designed to be no taller than a cell tower, are an excellent way to produce our own clean, renewable energy. We've grown accustomed to the sight of cell towers, water towers and utility poles on the horizon - why not turbines?

I think we can all agree that it is in our best interest to be less reliant on foreign powers for our energy needs. We all share a common desire to protect that which is dear to us. Decisions that will affect the future of the prairies, lakes, beaches, rivers and mountains of this great country should not be made based on someone’s idea of beauty.

*Power plant photo from www.coal-is-dirty.com, Wind farm photo from www.focalenergy.nl

Wind Project Risk Assessment

Risk management is critically important in a wind project. A systematic method is required to identify risk factors, quantify the risk factors, compute the impact of risk factors on project performance and mitigate the risk.

Download Wind Project Risk Assessment whitepaper for details. In it a framework is presented for: Categorizing risk, quantifying risk and assessing impact of risk on the project. In addition, strategies for mitigating risk are described.

Risk is categorized based on phases of a wind project:

• Planning/installation risk is related to factors during the pre-energy production stage that impact the cost of and timeframe for implementation of a project.
  
• Operational risk factors are those that lead to uncertainty in revenue and cost after the implementation, which is during the energy production phase of the project.
  
• Systemic risk factors are those that impact both implementation and operations.

Planning/Installation Risk	Operational Risk	Systemic Risk
Prospecting risk: Cost and time of finding the most suitable parcel of land for wind farm	Wind resource: Uncertainty in energy production due to wind speed, shear, turbulence, air density and others	Interest rate risk
Land lease risk: Cost and time of signing a land lease agreement	Turbine and plant performance: Uncertainty in energy production due to power curve, losses	Currency risk
Permitting risk: Cost and time of state/local government permits, environmental and transmission permits	Grid access: Energy cannot be delivered due to grid outage	Locale risk

In the framework risk is quantified along three parameters:

• What does this risk factor impact? Choose one or more.
  
  • Revenue
    
  • Cost
    
  • Time
    
• What is the amount of uncertainty?
  
• What is the impact of risk factor on Revenue, Cost and Time? And how does the impact change over time?

The impact of risk is estimated based on the P84, P90 and more generically Pn estimates, where n is any number greater than 50 and less than 100. In the whitepaper the concept is explained through examples.

Article written by Pramod Jain

Visit Wind Energy Consulting and Contracting Inc.

New Free WindSight Small Wind Assessment

We recognize the inherent value of wind energy projects, of all sizes. And, no matter the size of your project, you need to do your homework. For everyone considering a wind project, we've created the Free WindSight Assessment for you. Whether you are just curious about what kind of wind resource your site has, or if you have a real project in mind, Our WindSight Assessment is a quick and easy way for you determine if wind will work for you.

Our simple, straight-forward online form takes just a few minutes to fill in, then we get your report back to you in two days. We're going to ask about your electricity use, so have your latest utility bill handy. Our WindSight Assessment is your first step to going green. Go to www.wind-consulting.com/websales/ to request your free WindSight report.

Sustainable Energy Solutions for Facility Managers with Behind-the-Meter Wind Projects

Commercial applications of single or a few wind turbines with rated power capacity in the range of 50KW to 2,500KW are the focus of this blog. Such turbines can be cost effective for a wide range of applications: Factories; warehouses; office parks; housing communities; schools/colleges; hospitals; municipal facilities like jails; water treatment facilities; and others. These projects are referred to as "Behind the Meter" projects.

A white paper is available that briefly describes: How such projects can fit into your energy mix; how much energy can be produced; how is variability of wind energy managed; what are the incentives; what is the cost of wind energy; what is the ideal location of a wind project; and what to avoid.

It concludes that such projects can deliver electricity at stable costs (because raw material is free) and under the right wind conditions such projects may deliver electricity at a cost that is below retail.

Article written by Pramod Jain

Visit Wind Energy Consulting and Contracting Inc.

Small Wind: Buyer Beware!

Small wind solutions are increasingly becoming financially viable thanks to local and federal incentives, and from a technical perspective the quality factor is improving. The historically negative aspect about installing a small wind solution was that it would take an extraordinarily long period of time to pay back associative costs; if ever during the expected life span of the wind turbine generator.

From my vantage point ‘quality’ and ‘pricing’ in small wind are among the largest concerns. However, of greater concern is that there seems to be a growing abundance of misleading, if not deceptive advertising and false or unrealistic claims by many manufacturers. These take the form of claiming higher energy output, faster payback periods (using higher than what can normally be expected wind speeds in their energy calculations), and other types of unethical claims and behaviors.

But help is on the way, manufacturers of small wind turbines that form the legitimate face of the small wind industry are in the process of creating accountability within their segment of the industry. In addition to industry events, we are seeing the advent of the Small Wind Certification Council. We may soon see a certification process that will eliminate the industry’s seedier side. New small wind turbine generators are rapidly emerging from individual’s garages to manufacturers in both newer vertical and the more traditional horizontal models.

Vertical wind technology remains in its infancy and energy power output claims by manufacturers are almost always overstated…sometimes grossly overstated (the same applies for many horizontal wind turbine generators on the market). In my view, only one vertical wind turbine generator (VWTG) manufacturer is really trying to get it right (I applaud Mariah Power) by subjecting its product to the testing rigors of the National Renewable Energy Laboratory (NREL). After NREL suspended testing for mechanical failure, Mariah Power continues to try and ‘get it right’ through modifications and through an independent testing regime. As of today WECC does not recommend any vertical wind turbine generator to our clients.

Note: Relative to the topic of VWTGs, Mick Sagrillo offers a strongly worded and germane Open Letter to Vertical Wind Access Turbine Manufacturers – worth the read!

We must recognize that in the current environment in most cases the manufacturer claims of power production, payback, power curve, size of generator vs. actual power output, and conditions of internal testing are solely the manufacturer’s, and the consumer must be able to trust that information that is presented to them is indeed reliable. In my view, to determine legitimacy any small turbine as a viable small wind solution, the manufacturer must subject their machine to the rigors of independent testing until such time that the Small Wind Certification Council has codified its processes and independent testing/reporting becomes an industry standard. Using the power curve and energy output data from an entity with no connection to the manufacturer adds strength and proves the manufacturer’s assertions. Up until now in most cases, we only have the manufacturer’s data in order to complete a cost/benefit analysis before purchasing a small wind turbine generator.

A sad fact is that in the past year many, many inventors and manufacturers are emerging in the ‘small wind’ space and the ‘checks and balances’ are not yet in place to protect the burgeoning small wind industry from itself. Until the Small Wind Certification Council gains some ‘legs and teeth’ and the legitimate small wind manufacturers gain momentum in policing the industry, we can expect continued consumer confusion and in some cases, unchecked deceptive practices. The long and short of this is Small Wind: Buyer Beware!

Article written by Wayne Hildreth
Email Wayne at hildreth@frombeginningtowind.com
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Impact of Variability and Uncertainty of Wind Resources on the Grid

Fact: The amount of wind energy that is produced and delivered to the grid depends on the wind speed.

Fact: Although wind speeds can be forecasted (uncertainty in forecast can be reduced), the variability in wind speed cannot be controlled. Meaning wind has its own schedule, we may be able to predict it, but we cannot match its schedule of the demand schedule.

Fact: The goal of a Utility is to provide reliable power, whenever the customer demands (of course within reason).

Question: What happens when wind is strong (high supply) and there is low demand on the grid?

Question: What happens when there is no wind (low supply) and demand is high on the grid?

Before answering these questions let me present the background. For simplicity there are three types of generators in a grid: Base load generators, spinning reserve and non-spinning reserves.

Base load generators are the large thermal and nuclear power plants that supply electricity. These generators operate 24x7, and produce almost constant amount of electrical power running close to rated power capacity.

Spinning reserves are generators that are spinning (or on) all the time and react of changes in electrical energy demand. Examples are natural gas fired and hydro generators. The amount of fuel is regulated by the demand. These generators are typically running at low output but can react to changes in demand quickly by increasing or decreasing output without sharp drop in efficiency.

Non-spinning reserves are generators that are turned on in case of large spike in demand or large decrease in supply. The startup time is 10 to 30 minutes. In case of unexpected events, these reserves relieve spinning reserves running at full throttle.

These reserves are pooled across utilities and grid operators manage uncertainties in demand and supply with reserves they own and moving energy from other utilities.

When wind energy is added the grid, it introduces variability to the supply side. The same mechanisms of spinning and non-spinning reserves which are used to manage variability in the grid are also used to manage wind energy variability. Meaning when wind energy is on, spinning reserves reduce output. According to Brady and Gramlich[1], when there is high penetration of wind energy, there may be a need to increase reserves, but the increase is modest. Studies have shown that integration of 10 to 20 percent wind can cost $0.005/kWh.

[1] D. Brady, R. Gramlich, “Getting Smart About Wind and Demand Response,” Wind Systems, pp. 28-33, July 2009.

Article written by Dr. Pramod Jain

Email Pramod at pramod@frombeginningtowind.com

Visit Wind Energy Consulting and Contracting Inc.