Friday, April 12, 2013

Solyndra, Beacon, Sun Power and Government Loan Guarantees

Government Subsidies versus Loan Guarantees
Earlier this week, Beacon Power, a company that builds systems to stabilize solar and energy power, declared bankruptcy. The company's Massachusetts plant will continue to operate at full capacity, but its finances will be restructured. This is big news mostly because Beacon Power received $43 million in Department of Energy loans, and because it follows the recent closure and bankruptcy of Solyndra, which got $534 million from DOE.

Solar is growing rapidly, averaging 65% compound annual growth rate for the last 5 years. Worldwide solar installations doubled from 2009 to 2010. The total amount of solar installed in 2010 was 17 Giga Watts! A gig watt is a big deal. One gig watt is equivalent to one nuclear power plant. Although a nuclear power plant produces more energy overall, solar provides "peak energy" and is critical to our society during high energy use times. So in 2010, solar negated the peak energy need for 17 nuclear power plants! All this, and installed in just one year! A nuclear power plant typically takes ten years or more from inception to actually producing power. These plants, unlike solar, are usually slated to be removed from service in approximately 20 years.

Some naysayers have gone on the record as saying solar should not be subsidized. No one I am aware of has ever endorsed loan guarantees. Especially for the likes of Solyndra whose business plan and installed costs were much too high to ever legitimately compete and succeed in the market place. What the solar industry has asked for is help in creating demand for a product that would ultimately require vast amount of private investment dollars to get a foot hold in the market place. Just for the record, government subsidies in oil and gas dwarf solar subsidies, and gas and oil industries are already established and should receive no subsidies from the American tax payer.

However, because of these subsidizes in solar, panel prices have dropped from $4.10 per DC watt in 2006 to $.60 per DC watt in 2012! These large drops in pricing are because the subsidies allowed for private investment into technology, research, manufacturing, and have ultimately helped establish volume discounts across the board. This is a perfect example of how subsidies should work and help every single American tax payer. Creating jobs, jobs that generate income taxes, employees that realize better buying power as consumers, consumers who have more money left over every month to invest or spend, and reducing our dependency on foreign oil are just a few of the benefits of solar subsidies.

Consumers are very aware that owning their own energy and preserving their current lifestyle, is paramount for their quality of life especially in retirement. In these very difficult economic times, when so many households are truly stretched, these subsidies have created an opportunity to lower consumer’s monthly electric bills while on their way to ultimate ownership of this energy.

Thanks to government subsidies and subsequently lower prices, we are now nearing grid parity in the solar industry. Grid parity is realized when no government incentives are needed to create demand for an industry.













"How Your Computer and TV Add to Your Energy Bills"

If you want to save as much energy as you can, there is one more thing you can do once you have optimized the heating and cooling systems, kitchen appliances and laundry routines. This thing is your electronic appliances. While most of them are thought to use only a trickle of energy, the total amount of electricity needed to power them is considerable.1) Never leave your computer on if you can turn it off. If you have two PCs at home and they are running all the time, you will be charged around $100 a month for the electricity they use. Once upon a time people left their computers in order to prolong their usable life, much they way tank crews during WWII left their tank engines running all the time. These times are over. It means that tanks can be started up any time as well as your PC without fear of damaging anything.2) Never keep your chargers plugged in when you don't need them. You may not know about it, but they still use up energy even if you don't charge any batteries. Of course, it is only around $5 per family per month, but do you feel like giving out $3 every month for your electricity provider for nothing?3) Unplug any electronic gadgets you don't need. Remember that your TV, DVD player and all other electronic appliances use energy even if in the standby mode. The only way to prevent this is a hard power down (using a button on the appliance rather than the one on your remote).4) Keep in mind that seemingly similar devices may need various amounts of energy. Generally, look for the Energy Star mark - it means that the device is considered energy-efficient and uses up to a third of energy needed to power the gadgets without the Energy Star.

Why Solar in 2013

Solar in 2013




The high cost of electricity is expected to soar in the next 5 years and nearly everyone is looking for a way to lower their costs. Solar power is a great way to do this because you own and operate your own system plus state and federal rebates pay for about half of the investment price.

According to the Environmental Protection Agency, “solar energy systems are the best way to generate power because they do not cause pollution or noise.” In fact, a 6KW solar system can, over 25 years, reduce carbon dioxide by over 350,000 lbs., NOx by 1124 lbs., SO2 by 1124 lbs., and asthma causing particulate by 69 lbs. This is the equivalent of not driving 569,818 miles, or
planting 3 acres of trees.


Solar works when photons from the sun strike the semi conductor material of the solar panel and are absorbed by electrons in the silicon semi conductor.  Electrons are “bumped” into a flow producing DC electricity. This DC current is sent to an inverter which changes the current from DC to AC. The AC current is then used to satisfy the home’s electric needs. Should extra energy be produced, it is sent out to the grid to “help out” the community’s energy needs. California uses “Time of Use” rate structures for solar customers, which means that this excess electricity sent out to the grid during the day puts credits in the customer’s account at a higher dollar value than the electricity he buys back at night.

In a recent study, 80% of the American respondents believe that all new homes should include solar. When informed of solar’s higher resale value, 2/3 of the respondents were willing to pay more money for a solar home. What’s more 1/2 of those surveyed said they would pay 10% more for solar energy systems built in.

Conservation is paramount in increasing costumer’s lifestyles and reducing energy needs. Conserving energy is normally 3 to 4 times less expensive than producing new energy. This conservation allows for building a smaller system while saving money at the same time!

The real estate Appraisal Institute published a study that states a home’s resale value increases $20.00 for every $1.00 saved in operating costs. A home that costs less to live in is more desirable, and people are willing to pay more for it.

The one negative to Solar is the initial investment involved. However, the State of California is offering a 10% cash rebate and the federal government is offering a 30% unlimited federal tax credit. Customers are now investing approximately 60 of the overall price of the solar system.

With these high credits, customers are realizing well over a 25% Internal Rate of Return on their investment.

Through the combination of energy and the very attractive state and federal rebates, customers are finding solar to be one of the most cost-effective investments they can make.

Monocrystalline, Polycrystalline and Amorphous Solar Panels

There are 3 main types of solar panels. Monocrystalline, Polycrystalline and Amorphous.

Monocrystalline solar modules are the most expensive and there is a reason for this. These modules are made from a single large silicon crystal. Typically, a monocrystalline module will begin producing electricity at about 5% of maximum sun energy while a polycrystalline module will start producing power at about 10% maximum sun energy. This means that the monocrystalline module will produce energy for more hours per day and in lower light conditions. Additionally, the monocrystalline module will perform better and produce more energy in hot conditions.

Polycrystalline solar modules are made by taking raw silicon, heating it, and forming it into an ingot. This ingot is sliced into cells. Polycrystalline cells typically are less efficient than monocrystalline as they require slightly more light to start up and they output less energy at higher temperatures. These panels look like pretty blue OSB particle sheeting when viewed.

Amorphous solar comes in a film that is deposited on a substrate. This substrate can vary and include glass, plastic or metal. This is often called thin film. While polycrystalline and monocrystalline modules will have efficiencies of 13% to 15%, amorphous silicon is typically around 8%-9%. Amorphous silicon is much less expensive. However, the cost of installation is typically much greater due to the fact that it requires much more area, more material and more labor.

When comparing solar systems, many people use peak power, such as, “I would like you to quote a 7kW system”. Peak power is a number that no system will ever hit unless it experiences a very cool day with direct sunlight and cloud edge effects which reflect and refract additional energy. The true test of a solar array is how much energy it generates when it is hot or when there are clouds or when the sun is just coming over the horizon. Peak power is a poor indicator of long term performance. The best performers, such as Sanyo and Sunpower, are the most expensive solar panels on the market and are very good when roof area is in short supply and a customer is looking to offset as much of their utility bill as possible. Mono Crystalline solar panels that are high performers and have over a 14.8 panel efficiency "Schuco solar panels" can be purchased for ten thousand dollars less on average and represent the best value. Mono Crystalline solar panels are the best value due their better performance during the hot Fresno summer months as well as under less than ideal conditions.

Saturday, April 6, 2013

SAVING ENERGY AND MONEY THROUGH CONSERVATION

Energy Saving Tips

Follow these tips to save on energy costs

1. Replace and recycle your old refrigerator and purchase energy-efficient models. Units only 10 years old can use twice as much electricity as a new ENERGY STAR® labeled model.

2. Insulate ceilings to R-38 levels if your attic has less than R-19.

3. Caulk windows, doors and anywhere air leaks in or out. Do not caulk around water heater and furnace exhaust pipes.

4. Weatherstrip around windows and doors.

5. Wrap heating and cooling ducts with duct wrap, or use mastic sealant.
6. Install energy-saver showerheads.

7. When buying new appliances, be sure to purchase energy-efficient ENERGY STAR® labeled models.

8. Set the furnace thermostat at 68 degrees or lower, and the air-conditioner thermostat at 78 degrees or higher, health permitting. 3 percent to 5 percent more energy is used for each degree the furnace is set above 68 degrees and for each degree the air conditioner is set below 78 degrees.

9. If your old air conditioner is on its way out replace it with ENERGY STAR® labeled energy-efficient model.

10. Use compact fluorescent lamps. You can lower your lighting bill by converting to energy-efficient low-wattage compact fluorescent lighting and fixtures.

11. Replace old windows with new high performance dual pane windows.

12. Clean or replace furnace and air-conditioner filters regularly, following manufacturer's instructions.

13. Set the water heater thermostat at 140 degrees or "normal." If you have a dishwasher. Otherwise, set it at 120 degrees or "low." Check your dishwasher to see if you can use 120 degree water. Follow the manufacturer's direction on yearly maintenance to extend the life of your unit.

14. Fix defective plumbing or dripping faucets. A single dripping hot water faucet can waste 212 gallons of water a month. That not only increases water bills, but also increases the gas or electric bill for heating the water.

15. Wash only full loads in a dishwasher and use the shortest cycle that will get your dishes clean. If operating instructions allow, turn off the dishwasher before the drying cycle, open the door and let the dishes dry naturally.

16. Defrost refrigerators and freezers before ice buildup becomes 1/4-inch thick.

17. Install shades, awnings or sunscreens on windows facing south and/or west to block summer light. In winter, open shades on sunny days to help warm rooms.

18. Close the damper when the fireplace is not being used. Try not to use the fireplace and central heating system at the same time.

Water Conservation and Saving Energy $$ at the Same Time!

Water and PV Solar

Water conservation is set to be as important as saving energy in terms of our financial investment into our current lifestyle. Homes are being prepared to have water rates spike as early as next year and homes that have never seen a water meter will be getting one of these meters in the near future. If customers are in the country and have their own well, the less it runs the less they pay. If they decide to go solar, and convert to a time of use rate, they can usually same money by watering at night at only 8 cents a KWH, and run pool pumps and auto fills at the same time. If like most people, they shower prior to one pm, they can see a reduced rate of 11 cents per KWH.

1. An Energy Star clothes washer uses 15 to 18 gallons of water per load compared to 40 gallons with a regular washer.

2. Avoid using appliances that consume a lot of water like dishwashers and clothes washers during peak hours of consumer use between 5 p.m. and 9 p.m.

3. Use dishwashers and clothes washers when you have full loads only.

4. Replace toilets with low-water-use models.

5. Use less water by showering rather than bathing, and install a water-saving shower head.
6. Don’t allow water to run consistently when brushing teeth. This wastes up to 20 gallons a day with a family of 4 who brush their teeth to dental guidelines.
7. Save water by installing an Instant Hot Water Recirculation System. This is a pump and valve combination that delivers hot water in an instant to any faucet or bath in your home. It uses the pump at the water heater along with the patented under-sink sensor valve installed furthest away from the water heater. This combination creates a pressure differential that allows the cold and cool water in the hot water supply line to "bypass" (at a low volume) into the cold water supply line through the thermostatically controlled sensor valve, keeping the water in the hot water supply line at a "no-wait" temperature throughout the home. The timer on the pump makes it more efficient during downtime.
How Much Water is Wasted Waiting for It to Get Hot?

Example:
An average home has approximately 125 ft of 3/4 inch piping.
125 feet of 3/4" pipe holds 3.14 gallons of water.
10 draws per day wastes over 31 gallons of water waiting for the water to get hot.
Over a year, the wasted water equals 11,461 gallons and uses less than a 25 watt light bulb!

SMART METERS...FRIEND OR FOE

Smart meter capabilities
A smart meter system allows for two-way communication between a customer and PG&E. The smart meters record energy use information daily. The technology allows for the meters to be read automatically without the need for a physical visit from one of PG&E’s meter readers. However for quality assurance purposes, after meters are installed, meter readers will continue to read meters for the next few months. In addition, customers will still need to allow PG&E access to the meters for maintenance and safety checks.

The two-way communication capability means PG&E will be able to better manage overall energy needs, implement “green” demand-response programs, quickly detect power outages as they happen, and offer enhanced customer services.

There has just been a startling admission from PG&E about the controversial Smart Meters. The utility has insisted its new meters are accurate, but have admitted to some problems at a state Senate committee hearing in 2010.

PG&E confirmed that more than 43,000 of its Smart Meters have suffered from various problems. The utility remains insistent however that these problems have had little impact on customers' bills.

The Senate's new Select Committee on the Smart Grid called PG&E's senior vice president of customer relations as its first witness. Helen Burt told the committee only a handful of customers had inaccurate SmartMeters.

This may be true, but we have only isolated one customer whose has felt that their electric consumption has remained the same or decreased since the Smart Meters have been installed.

PG&E has stated that the older meters were not measuring the customer's usage correctly. In many cases, the older meters were in fact under measuring the KWH usage. They also wanted to cut overhead by utilizing the smart technology that these meters enjoy.

Customers should keep a watchful eye on their usage this summer as with the new price increases at almost $.5o per KWH in tier 5, and smart meters potentially reading higher kilowatt hour usage, utility bills may be much higher this year over previous years.

HOW MUCH POWER SHOULD YOU OFFSET?

When you are purchasing a solar system, you have the option to offset part or all your power. Here in Fresno and the Central Valley, summer bills can get out of control with air conditioning use and kids being out of school so it pays to think this through before finalizing the purchase.

Many solar companies here in Fresno and the in Central Valley will usually recommend offsetting all your usage except for the "lower two tiers" of your bill. They are referring to the baseline and the next tier after the baseline, which have been locked by the California Public Utility Commission (CPUC) to low pricing to help lower income individuals from high bills.

Recently, PGE was able to coerce the CPUC into removing the pricing lock for the lower 2 tiers, meaning that PGE can raise rates even though this will affect low income individuals and raise utility bills for every one. These two tiers will run from $80 to $100 per month before moving on to higher rates, depending where you live.

Going back to how much power should you offset, when you purchase a solar system you are getting rebates and tax credits as a one time payment to help you offset the cost of solar. If you leave a part of your bill, even though they are called "cheap energy", you are still tied to the utility company paying something every month. You have made a significant investment to go solar/green and yet you still have a bill due every month, for the rest of the life of the system.

Let's think about this: the State of California the Federal Government and in some cases, your city/county is paying for such a huge part of your solar system, go ahead and offset 100% of your bill. It is true that your IRR will drop because you are using solar to offset cheap energy.
Your internal rate of return (IRR) might not look as good, but you will not end with a $1,400 - $1,800 bill at the end of the year when your True-Up Period is due. You can use that extra 1,500 per year and put it to your kids college fund, your Ferrari fund, whatever makes you happy.

Remember that every dollar you send to the utility company is an after tax dollar. Realize that even the cheap energy builds up and becomes quite a bill at the end of the year.

On another note, once you start using a lot of your energy on a Non-Peak Time of Use (TOU) you can start paying HUGE rates if your system is not designed to offset all of your bill. TOU penalizes you for using power during PEAK times AND when your power consumption is high on Non-Peak and Part-Peak. I will go over this on the TOU page.

Rates at the first two tiers on Non-Peak and Part-Peak are cheap, but as soon as you pass the first two tiers in consumption (at around 500 kWh/month in Winter, 800 kWh/month in Summer) you will be paying OUTRAGEOUS rates per kWh.

Remember, this is a one time purchase, heavily subsidized. Yes, your IRR will not look as good, but that is only a figure on paper. In the end, taking into consideration other factors, it pays to offset as much as you can up front than to have to pay a lot at the end of your True-Up Period

SOLAR PANEL COMPARISONS

Solar Panels and Kilowatt Hour Productions

Consumers interested in going solar often wonder which solar panels are the “best” and also which panels represent the best “value”
A lot of emphasis will be placed on the financial stability, years in business, and warranty differences by solar sales people. So, which solar panels are the best value???
Below is a list of solar panels that compare eleven different solar panels. The calculations are targeting the total annual kilowatt hours produced as per the state’s solar production calculator.

These calculations are based on:

1. 8.10 Kw DC system
2. SMA SB8000US inverter
3. Solar panels facing south
4. 22 degree slope

Solar Panels---------- Annual Kilowatt Production


Talesun 240 660P-----------12,454 kWh
Schuco 225 PS09 ------------12,446 kWh
Centro Solar E225-----------12,382 kWh
Mage Solar 225/6PH -------12,375 kWh
SunPower 230M------------- 12,350 kWh
Sun Tec 225 W-20/Wd-----12,325 kWh
Mitsubishi -------------------12,325 kWh
BP 3225-T------------------- 12,320 kWh
Kyocera KD 2256X-LPB----- 12,310 kWh
Solar World 225P -----------12,291 kWh
Sharp 224 ND-U224C1 ------12,158 kWh

It is interesting to note that three of the top four manufacturers are all German engineered panels. All four are well established, have very heavy aluminum frames, and offer top industry warranties. Talesun benefits by being the newest plant with state of the art manufacturing equipment. It incorporates all German robotic equipment, and enjoys the highest efficiency rating of the panels listed and is the largest solar manufacturing facility in the world.

Right under the Talesun are the German panels. Talesun and Schuco are the top performing panels as per the EPBB State calculator. These are both very good panels and have a higher efficiency rating than all the other panels. A lot to do is made of panel efficiency. Higher efficiency allows the contractor to install the same size KW system as competitors only in a smaller area. This is usually only one panel on an average system. However, pricing is typically lower for ground mounted systems due to the smaller footprint of these higher efficiency panels. Warranties are similar with the Top Five Solar Panels.

At Nova West Solar, we are committed to high quality solar panels and inverters. We offer Schuco, Centro Solar, Talesun, and Mage Solar panels. Our experience is that all four overproduce what the calculators say. On my Schuco solar system, the EPBB calculator estimated my system should produce 13,469 KWH per year. I recently reached a one year true up period. My system produced over 15,500 KwH’s!!!

Needless to say I will truly enjoy receiving the overproduction check PG&E is sending me. With utilizing our advice on time of use times, cleaning solar panels, as well as owning an energy efficient home, my rebate check will be in the $290 range. I am going to let PG&E help subsidize MY retirement by not having a utility bill. As I plan on investing these monies every year, PG&E will help add to my 401K.

It is also our belief that contractors that support and install high quality equipment are in the industry for the long haul and are most likely to back up the best equipment with quality installs and service.
Government Subsidies versus Loan Guarantees
Earlier this week, Beacon Power, a company that builds systems to stabilize solar and energy power, declared bankruptcy. The company's Massachusetts plant will continue to operate at full capacity, but its finances will be restructured. This is big news mostly because Beacon Power received $43 million in Department of Energy loans, and because it follows the recent closure and bankruptcy of Solyndra, which got $534 million from DOE.

Solar is growing rapidly, averaging 65% compound annual growth rate for the last 5 years. Worldwide solar installations doubled from 2009 to 2010. The total amount of solar installed in 2010 was 17 Giga Watts! A gig watt is a big deal. One gig watt is equivalent to one nuclear power plant. Although a nuclear power plant produces more energy overall, solar provides "peak energy" and is critical to our society during high energy use times. So in 2010, solar negated the peak energy need for 17 nuclear power plants! All this, and installed in just one year! A nuclear power plant typically takes ten years or more from inception to actually producing power. These plants, unlike solar, are usually slated to be removed from service in approximately 20 years.

Some naysayers have gone on the record as saying solar should not be subsidized. No one I am aware of has ever endorsed loan guarantees. Especially for the likes of Solyndra whose business plan and installed costs were much too high to ever legitimately compete and succeed in the market place. What the solar industry has asked for is help in creating demand for a product that would ultimately require vast amount of private investment dollars to get a foot hold in the market place. Just for the record, government subsidies in oil and gas dwarf solar subsidies, and gas and oil industries are already established and should receive no subsidies from the American tax payer.

However, because of these subsidizes in solar, panel prices have dropped from $4.10 per DC watt in 2006 to $1.00 per DC watt in 2011! These large drops in pricing are because the subsidies allowed for private investment into technology, research, manufacturing, and have ultimately helped establish volume discounts across the board. This is a perfect example of how subsidies should work and help every single American tax payer. Creating jobs, jobs that generate income taxes, employees that realize better buying power as consumers, consumers who have more money left over every month to invest or spend, and reducing our dependency on foreign oil are just a few of the benefits of solar subsidies.

Consumers are very aware that owning their own energy and preserving their current lifestyle, is paramount for their quality of life especially in retirement. In these very difficult economic times, when so many households are truly stretched, these subsidies have created an opportunity to lower consumer’s monthly electric bills while on their way to ultimate ownership of this energy.

Thanks to government subsidies and subsequently lower prices, we are now nearing grid parity in the solar industry. Grid parity is realized when no government incentives are needed to create demand for an industry.