I would like to take a moment to write a summary of my patent. It's a national solar grid concept, which utilizes our existing infrastructure i.e., the trucking industry and the U.S. highway system, for generation, storage and management of energy, to supplement the national grid.

I would like to give you some numbers to illustrate the impact trucking industry has on the economy and the evironment.

- Nearly 80% of U.S. communities receive their goods by a truck.

- Trucking moves nearly 70% of all freight tonnage in U.S.

- Presently ther are nearly 2 million tractor-trailers registered in U.S., generating combined revenue of over $650 billion.

- Trucking consumes 54 billion gallons of diesel and gasoline per year, and as fuel prices have risen and remained high, profit margins have sharply decreased.

- Truck idling amounts to 1 billion gallons of fuel burned, without advancing the cargo towards its destination.

- Single long haul truck has to take 10 hours off after driving for 11 hours. At 1 gallon of fuel per hour spent idling, that translates to 10 gallons of fuel wasted per day.

- Truck idling emits an estimated 11 million tons of CO2, 18,000 tons of NOx, and 5,000 tons of particulate matter annually.

In view of these circumstances, there is a pressing need to reduce fuel consumption, offset rising fuel costs, and reduce the carbon foot print of each truck on the road, and the carbon foot print of the nation as a whole.

It is an object of the present invention to provide a mobile electricity distribution network that can accumulate, store and distribute electricity into existing power grid, in turn lowering the necessity of power plants to burn fossil fuels. Some of the "by products" of the invention are lowering of the fuel costs by eliminating idling which in turn will drive down the cost of the goods delivered, while reducing the carbon foot print of the trucking industry. This system could power up some of the charging stations for electric vehicles. Also, there is a pressing need to update the inefficient, and antiquated power grid, which will become prone to blackouts, as well as the possibility homeland security issues. By implementig this idea we will be able to create a backup power distribution network, which in the time of need will be at the least a back up system for emergency systems.

The aim of my invention is to lease the roof space of the trailers and install solar panels on them which will be tied to a battery and inverter module, which will be built into the chassis of the trailer. The stored energy will transfer to the power grid where ever the truck stops, for rest, refueling or back at the hub of operation. There the stored trailers will continue to produce power which can be used to power up the facilities or be sold back to the power grid. All of the onboard electric need will be supplied by the battery bank and eliminate idling. Back at the storage facilities the unused trailers will be able to interconnect and become a major power producing plant. This translates into trains and container shipping.

By utilizing thin film PV technology, we will be able to keep the weight down, and with the advancements in battery efficiency, I believe that innovation will catch up to the implementation of this solar grid backup.

This system will create many jobs which at the current state of economy is a very welcome sight. The power discharge stations will be manned by certifed electricians, the racking of the panels and discharge stations will employ many people. There is a very limited impact on the infrastructure as well as landscape, which many are concerned about. It takes care of the space allocation problems as well as the aestetic infrastructure required for installation of solar arrays.

Thank you for your time,

Konrad Kwiatkowski

Managing Partner

Interstate Solar Utilities, LLC

11 Main Street

Old Mystic, CT 06355

Office 860-572-0089

Fax 860-572-0084

Social media does have the power to not only engage/inform customers about company's sustainability efforts but also to engage employees in sustainability initiatives. In my conversation with CSO's I have found that social media offers an opportunity to engage and create sustainability culture within a company. Also, data from a recent consumer survey I conducted shows that employees are more likely to engage in work sponsored communities for saving energy at home.

So there is an opportunity for CSO's to engage with employees using social media. They just have to make it personal and meaningful to the employees.

1) Finding the leverage. If solar-powered engines cost less than existing diesel engines and they cost much less to operate, no other leverage should be required. What will be required are non-exclusive development and production license agreements that will maintain the competitive nature of the engines market. Massive Nibble does not want to become the biggest engine maker in the world. We want to enable people and existing companies, to profitably make and sell solar-powered engines. They should power everything from models to lawn mowers, cars, trucks, airplanes, tractors, boats, ships, etc. By staying with the existing technologies of crankshafts, connecting rods, pistons, cylinders, etc., existing engine manufacturers have the machinery and tooling to make our engines, on the shelf and plant floor. By providing a rotating crankshaft output (PTO), existing manual and automatic transmissions can be retained. A 700 hp engine should only be about 2 feet long, 4 feet wide and 1.5 feet high, providing a drop-in replacement for most cars, trucks and airplanes, although the radiator capacity will probably need to be doubled.

When driven, the Zero Pollution Engine(TM) becomes a Zero Pollution Heat Pump(c), allowing the it to serve two profitable roles and eliminating most of the fuel expense and (both noise and air) pollution associated with refrigerated trucks. We'd like to use the ZPE(c) to drive a ZPHP(c), mount them on top of refrigerated truck boxes and retain the existing systems for backup. It would also seem like a good idea to put similar units on top of refrigerated warehouses and your car, home and office building.

2) Staying technology neutral. Our solar-powered engines are perfect for use with any battery EV or electric, flywheel or hydraulic hybrid and regenerative systems. They can provide drastic reductions in the demand for fossil fuel, since everyone will be able to go for free on a sunny day. Renewable fuel backup systems for use on cloudy days and at night can be anything from bio-diesel to firewood, wood pellets, grain, weed and straw bales, biodigester methane, trash, even dewatered manure and sewage. By using locally-available renewable fuels, transportation costs and pollution are largely eliminated. Local economies will be strengthened by eliminating the drain on the money supply caused by purchasing fossil fuels.

3) Keeping both eyes on the prize. Measure the emissions from a solar-powered Zero Pollution Engine (TM) any way you want, there aren't any if it's operated only on sunny days. If "tons of carbon per ton-mile of transport" is measured during ZPE(c) use when no sunlight is available, I'll bet we'd still be much more efficient than any other rotating power system (engine).

Since you can't be certain that ours is a viable technology without third party confirmation, we'd be pleased if EDF would pick an engineer that you trust (Dean Kamen?), who is willing to sign a confidentiality/non-disclosure agreement, to inspect our engine and solar heating system designs.

Thank you for the chance to speak out.

Sincerely,
Michael Howard
R&D, General Manager
Massive Nibble
P.O. Box 5
Knightstown, IN 46148 USA
mncontact at spitfire dot net