Front End Loading
www.FrontEndLoading.com

Front End Loading




Front End Loading and Engineering Services Available Through 
the Renewable Energy Institute

 

info@FrontEndLoading.com

 






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Front End Loading
www.FrontEndLoading.com

Front End Loading 


What is Front End Loading?

Front-end Loading, also known as Front End Engineering Design, or "FEED," is the preliminary engineering and conceptual design completed in advance of the start of EPC (Engineering, Procurement Construction). Front End Loading oftentimes concludes with the engineering firm's presentation of an Engineering Feasibility Study or Analysis.

Front End Loading includes a design team that includes and integrates all or most engineering fields such as mechanical engineering, electrical engineering, environmental engineering, civil engineering, power engineering, chemical engineering, etc. The FEED design team includes the project visualization and conceptualization stages, including "what-if" decision making analyses, integrating the client company's goals, objectives into an efficient and economic engineering solution.

Front-end Loading is a highly valuable engineering design service not only for the client but the engineering company as well because it includes "robust" planning and engineering design early on in a project's lifecycle (i.e., the front-end of a project).  This is particularly beneficial at the early stage of a project as this is when the ability to influence changes in the design is relatively high and the cost to make those changes is relatively low.  Front-end Loading typically applies to industries with highly capital intensive, long lifecycle projects (millions or billions of dollars - and several years before revenues are generated from the completed and commissioned project). 

Although Front End Loading adds a small amount of time and cost to the early stage of a new project, these costs are minor compared to the expenses and efforts required to make any changes at a later stage in the project's life-cycle.  In addition, Front End Loading typically includes a "stage-gate" process, whereby the project must pass through formal "gates" at pre-defined milestones within the project's lifecycle before funding is received to proceed to the next stage of work.

About us:

We provide engineering, energy and renewable energy project development services including;


Our work is performed on a strict adherence to "vendor-neutrality." We are client and project focused and seek to maximize our client's return on their investment while simultaneously minimizing their operational expenses and environmental exposure. 

Interim expenses may be at client's expense but will be refunded at the close of Power Purchase Agreement or other project financing. Some of our engineering and related EPC services provided by our top-ranked ENR Engineering/EPC partner companies.

For qualified clients we will design, build, finance, own, operate and maintain a new:

Cogeneration

Concentrated Solar Power

EcoGeneration

Renewable Energy Park

Solar Power Park

Trigeneration

Waste Heat Recovery

energy system, through a Power Purchase Agreement that guarantees
a minimum 10% reduction in our client's energy expenses.

(NOTE: Engineering and related interim project development expenses may be at client's expense but will be
refunded at the close of Power Purchase Agreement or other project financing. Some of our engineering
and EPC services may be provided by one of our Top-ranked ENR Engineering/EPC partner companies.)


To receive a preliminary no-obligation review of your energy, engineering or project plans, 
send an introductory email to us at the following email address:

info@FrontEndLoading.com

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What is Concentrating Solar Power?

Concentrating solar power plants or "CSP" plants, generate electric power by converting the sun's energy into high-temperature heat using various mirror configurations. The heat is then channeled through a conventional generator. The plants consist of two parts: one that collects solar energy and converts it to heat, and another that converts heat energy to electricity.

Concentrating solar power systems can be sized for village power (10 kilowatts) or grid-connected applications (up to 100 megawatts). Some CSP systems use thermal storage during cloudy periods or at night. Others can be combined with natural gas and the resulting hybrid power plants provide high-value, dispatchable power. These attributes, along with world record solar-to-electric conversion efficiencies, make concentrating solar power an attractive renewable energy option in the Southwest and other sunbelt regions worldwide.


Why Concentrating Solar Power is one of the Few "Superior" Renewable Energy Technologies 

Concentrating solar power plants use the high annual solar irradiance of the geographic location to generate "carbon free energy" and "pollution free power."

For generating power after the sun sets, many owners/developer of concentrating solar power plants are now installing "Molten Salt Storage" systems that reserves enough energy to allow for electricity generation throughout the nighttime period.  

Steam turbines and gas turbines powered by coal, uranium, oil and natural gas are the fuels used today for generating power and electric grid stability.  These fuels provide both base-load and peak power.  However, these same steam turbines can also be powered by the high temperature heat from concentrating solar power plants. 

Concentrating solar power plants in the 30 MW - 200 MW range are now operating successfully in locations from California to Europe.  Nearly every day now, new concentrating solar power plants are being planned for construction.  The concentrating solar collectors are very efficient and they also completely replace the fossil fuels that were used in traditional power plants.  Today's concentrating solar power plants generate the heat needed to generate electricity at a cost equivalent to $50 - $60 per barrel of oil (equivalent).  This cost is expected be slashed by 50% to below $25 - $30 per barrel in the next 10 years.  

Just like conventional fossil-fueled power plants, concentrating solar power plants generate  base-load and peaking power electricity.  

Just like fossil fuel fired conventional power plants, concentrating solar power plants have an availability that is close to 100 %, but without the carbon emissions, carbon dioxide emissions, hazardous air pollutants, nitrogen oxides, volatile organic compounds and greenhouse gas emissions that fossil fuel power plants emit.

A concentrating solar power plant with a molten salt storage facility for full load operation during the nighttime period is currently being built in Nevada. This concentrating solar power plant will generate 50 MW of power.
Another feature that distinguishes concentrating solar power plants is the opportunity for combined generation of heat and power - a technology that is called "Integrated Solar Combined Cycle" which achieves the highest possible efficiencies for energy conversion. In addition to power generation, such plants can provide steam for absorption chillers and/or adsorption chillers, industrial process heat or thermal ocean water desalination. A design study for such a plant was completed in 2006.  This plant is scheduled to be commissioned in early 2009. This Integrated Solar Combined Cycle will provide 10 MW of power, 40 MW of district cooling and 10,000 cubic meters per day of desalted water for a large hotel in Jordan.


What is a "Parabolic Trough" or a "Parabolic Trough Collector"?

A parabolic trough or a parabolic trough collector, is one of the components that make up a concentrating solar power plant.

Parabolic Troughs are, in essence, curved mirrors designed to reflect the energy from the sunlight, onto a "Dewar Tube" that  run the length of the parabolic trough's focal point.  Parabolic Troughs are typically constructed with either a coated silver or polished aluminum. 

Parabolic Troughs are aligned on a north-south basis and they track or rotate throughout the day to follow the sun in order to keep the maximum amount of the sun's available energy concentrated on them.

Inside the Dewar Tube is a "heat transfer fluid" that absorbs the heat energy from the sun, which is then pumped from the Dewar Tube to a Heat Recovery Steam Generator, where the heat energy is converted into steam, which then drives one or more steam turbines, which is connected to a synchronous generator, which then generates electricity and is sent to the electric grid. 

The temperature of the heat transfer fluid quickly reaches 750 degrees as the sun's energy is captured by the Parabolic Troughs.  The overall process is very economical and thermal efficiency ranges from about 60% to as high as 80%.

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All the Electricity the World Needs With Zero Greenhouse Gas Emissions
from Concentrating Solar Power Plants Using a Very Small Part of the Desert

In the map below, the larger red square on the left shows an area of hot desert that, if covered with concentrating solar power plants, 
would produce as much electricity as the world currently uses. The smaller square shows a corresponding area for providing all of the 
power needed by the European Union.

map

The map and information above courtesy of www.Desertec.org


The Following Press Release Re-printed with Permission from The World Bank

Over $5.5 billion in New Investment for Clean Energy Technology in the Middle East and North Africa Region

 Washington, D.C.,  December 1, 2009 -  Concentrated Solar Power project financing in the amount of $750 million was issued on December 2, 2009, and will mobilize an additional $4.85 billion from other sources, to accelerate global deployment of Concentrated Solar Power (CSP). It will do so by investing in the CSP programs of five countries in the Middle East and North Africa: Algeria, Egypt, Jordan, Morocco, and Tunisia. The CTF is a multi-donor trust fund to facilitate deployment of low-carbon technologies at scale. Specifically, the CTF approved an investment plan which will:

The proposed gigawatt-scale deployment through 11 commercial-scale power plants over a 3-5 year time-frame would provide the critical mass of investments necessary to attract significant private sector interest, benefit from economies of scale to reduce cost, result in learning in diverse operating conditions, and manage risk.

Officials stated "This is a most strategic and significant initiative for MENA countries. The initiative would leverage energy diversification, while promoting Euro-Mediterranean integration to the benefit of MENA countries that will be able to exploit one of the major untapped sources of energy. This endeavor is far-reaching with global objectives, implications, and potential impact. It will facilitate faster and greater diffusion of this technology in this region which holds significant potential for CSP".

Potential for Green House Gas (GHG) reduction: The proposed projects will avoid about 1.7 million tons of carbon dioxide per year from the energy sectors of the countries. If the program is successful and replicated, the global benefits will be far larger. The transformational objective of this investment plan is served by accelerating cost reduction for a technology that could become least-cost globally, and then be replicated in other countries with high GHG emissions.

Expected Results from the Investment plan: The results indicators for the investment plan are:

§ GHG reductions of at least 1.7 million tons of CO2-equivalent per year.

§ Approximately 900 MW of installed CSP capacity by 2020.

§ $4.85 billion of co-financing mobilized, including sufficient financing to ensure viability of CSP plants.

§ Cost of typical solar field in US$ per m2 is expected to decline over the life of the program.


Click Here to Learn More About Concentrated Solar Power

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Engineering Procurement Construction, also referred to as; Engineer Procure Construct, "EPC" or Engineering Procurement and Construction, is the terminology used when an owner, for example, is seeking to build a new cogeneration power plant uses when the owner is seeking a "turnkey" project solution.  EPC contracts are not only a very common form of contracting within the construction industry,  but increasingly becoming the norm, particularly in the electric power generation (power plants) and utility sector. 

The construction company, via the EPC contract with the owner, provides for the design, engineering, procurement of all related supplies, components, materials, labor, services, etc.  The contractor, with approval/permit by EPC contract with the owner, may sub-contract part of the work. 


What is Front End Engineering Design?

Front-end Engineering Design, also known as Front End Engineering  or "FEED," is the preliminary engineering and conceptual design completed in advance of the start of EPC (Engineering, Procurement and Construction).  Front End Engineering usually concludes with the engineering firm's presentation of an Engineering Feasibility Study or Analysis.

Front-end Engineering Design includes a design team that includes and integrates all or most engineering fields such as mechanical engineering, electrical engineering, environmental engineering, civil engineering, power engineering, chemical engineering, etc.  The FEED design team includes the project visualization and conceptualization stages, including "what-if" decision making analyses, integrating the client company's goals, objectives into an efficient and economic engineering solution. 


What is Balance of Plant?

Balance of plant or "BOP," consists of the remaining systems, components, and structures that comprise a complete power plant or energy system - not included in the prime mover and waste heat recovery (ex. gas turbines, steam turbines, heat recovery steam generators (HRSG), waste heat boilers, etc.) systems.  In solar power parks, BOP is referred to as BOS or balance of system.

 

Engineering, Procurement and Construction 
(EPC) Contracts 
and Performance Guarantees


Engineering Procurement and Construction or "EPC" contracts with long-term performance guarantees are becoming increasingly popular for some renewable energy technologies, such as commercial-scale Distributed Solar Generation / Distributed PV systems. 

Engineering Procurement and Construction contracts give the owner unprecedented assurance that the system will provide the long-term energy benefits advertised without wasting time and money with the Architectural and Engineering ("A&E") firm or expensive change orders that take additional time and resources to process and integrate. These performance guarantees cover the entire installation and go way beyond manufacturer warranties that only cover specific parts and not the system as a whole.

EPC and performance guarantee contracts can be a wise choice for many reasons. Oftentimes, the Architectural and Engineering firms do not have the in-house expertise to understand fully how to specify renewable energy systems. Due to the newer nature of these technologies and the rapidly developing nature of many technologies, this is a specialized field of its own for each renewable technology type.  If the Architectural and Engineering company specifies particular equipment, while it may be feasible, it may not be the optimal design or the most likely to be available at construction.

EPC contracts also provide more flexibility in equipment choices that can reduce change orders and construction delays. For example, many photovoltaic modules change specifications and dimensions on almost a monthly basis. Even the oldest and most reputable manufacturers are working to keep pace with fierce competition in the field today. Given that the modules are the heart of the photovoltaic system, it reasons that specifying a particular module in the construction documents might result in a change order and result in cost over runs and delays by actual construction.

Contractor Benefits

In an EPC contract with a performance guarantee, the contractor has a strong financial incentive to use the most reliable and highest performing equipment and to ensure the highest standards are maintained throughout installation and that any details that could influence long-term performance are addressed. Practices ranging from cherry picking the highest output modules to over-sizing wiring and conduit to improved operations and maintenance (O&M) plans might not be necessary for inspection or commissioning but can contribute to meeting the contractor's long-term performance liability. These same practices in turn enhance the long-term energy performance to the greater benefit of the facility and those that operate it.

Performance guarantee contracts attract top renewable energy contractors with long-term success in their fields. Less capable or experienced contractors will not savor the extra liability involved, nor will they have the expertise or even access to the top quality equipment necessary to fulfill a performance guarantee.

Contract Provisions

Certain provisions should be included with any EPC contract to ensure coordination and consistency with the remainder of the project. All contracts and subcontracts related to the project should include provisions requiring participation in the integrated design process including coordination of design with other related aspects of the project.

The EPC contractor needs to work with the Architectural and Engineering firm to understand the building elements that are necessary to the integration of the renewable energy system. In addition, an EPC contract needs provisions to ensure coordination with the larger project construction team. While coordination is important, this type of design and construction contract allows the contractors to do what they do best and frees more of the agency's critical planning resources for other aspects of the project.

Additional provisions standard with other construction contract terms should also be included in the EPC contract. These include requiring the team to perform enhanced commissioning over the first year and developing an O&M manual and training for the system.

Through a combination of EPC contracts combined with long-term performance guarantees, the construction relationship is transformed from being sometimes adversarial to being a win/win situation for everyone involved.


Engineering Procurement Construction and 
Front End Engineering Design (FEED) and 
Project Development Services

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GreatSkin.com

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What is "Cogeneration"?

Did you know that 10% of our nation's electricity now comes from "cogeneration" plants?

And because cogeneration is so efficient, it saves its customers up to 40% on their energy expenses, and provides even greater savings to our environment through significant reductions in fuel usage and much lower greenhouse gas emissions.

Cogeneration - also known as “combined heat and power” (CHP), cogen, district energy, total energy, and combined cycle, is the simultaneous production of heat (usually in the form of hot water and/or steam) and power, utilizing one primary fuel such as natural gas, or a renewable fuel, such as Biomethane, B100 Biodiesel, or Synthesis Gas.

Cogeneration technology is not the latest industry buzz-word being touted as the solution to our nation's energy woes. Cogeneration is a proven technology that has been around for over 120 years!

Our nation's first commercial power plant was a cogeneration plant that was designed and built by Thomas Edison in 1882 in New York. Our nation's first commercial power plant was called the "Pearl Street Station."


What is "Trigeneration"?

Trigeneration is the simultaneous production of three forms of energy - typically, Cooling, Heating and Power - from only one fuel input. Put another way, our trigeneration power plants produce three different types of energy for the price of one.

Trigeneration energy systems can reach overall system efficiencies of 86% to 93%.  Typical "central" power plants, that do not need the heat generated from the combustion and power generation process, are only about 33% efficient.



Trigeneration Diagram & Description
Trigeneration Power Plants' Have the Highest System Efficiencies and are 
About 300 % More Efficient than Typical Central Power Plants


 Trigeneration plants are installed at locations that can benefit from all three forms of energy.  These types of installations that install trigeneration energy systems are called "onsite power generation" also referred to as "decentralized energy."   

One of our company's principal's first experience with the design and development of a trigeneration power plant was the trigeneration power plant installation at Rice University in 1987 where our trigeneration development team started out by conducting a "cogeneration" feasibility study.  The EPC contractor that Rice University selected installed the trigeneration power which included a 4.0 MW Ruston gas turbine power plant, along with waste heat recovery boilers and Absorption Chillers.  A "waste heat recovery boiler" captures the heat from the exhaust of the gas turbine.  From there, the recovered energy was converted to chilled water - originally from (3) Hitachi Absorption Chillers - 2 were rated at 1,000 tons each, and the third Hitachi Absorption Chiller was rated at 1,500 tons. The Hitachi Absorption Chillers were replaced shortly after their installation by the EPC company.  The first trigeneration plant at Rice University was so successful, they added a second 5.0 MW trigeneration plant so today, Rice University is now generating about 9.0 MW of electricity, and also producing the cooling and heating the university needs from the trigeneration plant and circulating the trigeneration energy around its campus.




Trigeneration Chart
Trigeneration's "Super-Efficiency" compared 
with other competing technologies
As you can see, there is No Competition for Trigeneration!


 Our trigeneration power plants are the ideal onsite power and energy solution for customers that include:  Data Centers, Hospitals, Universities, Airports, Central Plants, Colleges & Universities, Dairies, Server Farms, District Heating & Cooling Plants, Food Processing Plants, Golf/Country Clubs, Government Buildings, Grocery Stores, Hotels, Manufacturing Plants, Nursing Homes, Office Buildings / Campuses, Radio Stations, Refrigerated Warehouses, Resorts, Restaurants, Schools, Server Farms, Shopping Centers, Supermarkets, Television Stations, Theatres and Military Bases.

At about 86% to 93% net system efficiency, our trigeneration power plants are about 300% more efficient at providing energy than your current electric utility. That's because the typical electric utility's power plants are only about 33% efficient - they waste 2/3 of the fuel in generating electricity in the enormous amount of waste heat energy that they exhaust through their smokestacks.

Trigeneration is defined as the simultaneous production of three energies: Cooling, Heating and Power.  Our trigeneration energy systems use the same amount of fuel in producing three energies that would normally only produce just one type of energy. This means our customers that have our trigeneration power plants have significantly lower energy expenses, and a lower carbon footprint.


Our New "Integrated" Trigeneration Plants Have 
Very High Efficiencies & Low Fuel Costs

The Effective Heat Rate is Approximately 
4050 btu/kW & System Efficiency is 92% Plants Have 
Very High Efficiencies & Low Fuel Costs

Pictures (below) of a Cogeneration Plant Presently Being Built for New Customer.  

This Cogeneration Plant is Rated at 900 kW and Features:
(2) Natural Gas Engines @ 450 kW each on one Skid with Optional 
Selective Catalytic Reduction system that removes Nitrogen Oxides to "non-detect."

 

    



 Our onsite trigeneration power and energy system can be an ideal solution for customers wanting increased power reliability and decreased energy and environmental costs.  A few of the types of buildings and businesses that would benefit from an onsite trigeneration plant include the following:

Waste Heat Recovery in Cogeneration and 
Trigeneration power and energy systems

In most cogeneration and trigeneration power and energy systems, the exhaust gas from the electric generation equipment is ducted to a heat exchanger to recover the thermal energy in the gas. These heat exchangers are air-to-water heat exchangers, where the exhaust gas flows over some form of tube and fin heat exchange surface and the heat from the exhaust gas is transferred to make hot water or steam. The hot water or steam is then used to provide hot water or steam heating and/or to operate thermally activated equipment, such as an absorption chiller for cooling or a desiccant dehumidifer for dehumidification.

Many of the waste heat recovery technologies used in building co/trigeneration systems require hot water, some at moderate pressures of 15 to 150 psig. In the cases where additional steam or pressurized hot water is needed, it may be necessary to provide supplemental heat to the exhaust gas with a duct burner.

In some applications air-to-air heat exchangers can be used. In other instances, if the emissions from the generation equipment are low enough, such as is with many of the microturbine technologies, the hot exhaust gases can be mixed with make-up air and vented directly into the heating system for building heating.

In the majority of installations, a flapper damper or "diverter" is employed to vary flow across the heat transfer surfaces of the heat exchanger to maintain a specific design temperature of the hot water or steam generation rate.

Typical Waste Heat Recovery Installation


In some co/trigeneration designs, the exhaust gases can be used to activate a thermal wheel or a desiccant dehumidifier. Thermal wheels use the exhaust gas to heat a wheel with a medium that absorbs the heat and then transfers the heat when the wheel is rotated into the incoming airflow.

A professional engineer should be involved in designing and sizing of the waste heat recovery section. For a proper and economical operation, the design of the heat recovery section involves consideration of many related factors, such as the thermal capacity of the exhaust gases, the exhaust flow rate, the sizing and type of heat exchanger, and the desired parameters over a various range of operating conditions of the co/trigeneration system — all of which need to be considered for proper and economical operation.

For more information on Waste Heat Recovery and Waste Heat Boilers, call/email us.

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Carbon Dioxide Emissions
Since the year 1750

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World CO2 since 1750 (cubic feet)

World Carbon Dioxide Emissions since 1750 (cubic feet)


The carbon clock tracks total carbon dioxide emissions in metric tons since 1750.

Since 1750, humans have emitted over 5 trillion pounds of carbon emissions into the atmosphere. Roughly half of this has ended up in the oceans where it is beginning to damage the coral reefs. The other half is still in the atmosphere and causing global warming. Each pound of CO2 takes up as much space as a 500 pound person.

The formula (which should be good for a year or two) is:
C(t) = 2.58 ×1012 + 1240×t, where t is seconds since the start of 2007.

C is tonnes (metric tons) of carbon dioxide emissions.
2205 x C gives pounds of carbon dioxide emissions.

That comes to over 43 billion tons/year or over 86 trillion pounds/year.

Carbon dioxide (2) = 1 carbon atom with 2 oxygen atoms.
Carbon has relative weight 12 and Oxygen 16.
So it takes only 12 pounds of carbon to make 12+16+16 = 44 pounds of CO2. 

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Greenhouse Gas Emissions  
Linked to the Loss of Polar Bears

Photo courtesy of Alaska Image Library. U.S. Fish and Wildlife Service

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What is "Decentralized Energy"?

Decentralized Energy is the opposite of "centralized energy."  Decentralized Energy energy generates the power and energy that a residential, commercial or industrial customer needs, onsite. Examples of decentralized energy production are solar energy systems and solar trigeneration energy systems.

Today's electric utility industry was "born" in the 1930's, when fossil fuel prices were cheap, and the cost of wheeling the electricity via transmission power lines, was also cheap.  "Central" power plants could be located hundreds of miles from the load centers, or cities, where the electricity was needed. These extreme inefficiencies and cheap fossil fuel prices have added a considerable economic and environmental burden to the consumers and the planet.

Centralized energy is found in the form of electric utility companies that generate power from "central" power plants. Central power plants are highly inefficient, averaging only 33% net system efficiency.  This means that the power coming to your home or business - including the line losses and transmission inefficiencies of moving the power - has lost 75% to as much as 80% energy it started with at the "central" power plant.  These losses and inefficiencies translate into significantly increased energy expenses by the residential and commercial consumers.


 Decentralized Energy is the Best Way to Generate Clean and Green Energy! 

How we make and distribute electricity is changing! 

The electric power generation, transmission and distribution system (the electric "grid") is changing and evolving from the electric grid of the 19th and 20th centuries, which was inefficient, highly-polluting, very expensive and “dumb.”  

The "old" way of generating and distributing energy resembles this slide:



The electric grid of the 21st century (see slide below) will be Decentralized, Smart, Efficient and provide "carbon free energy" and “pollution free power” to customers who remain on the electric grid.  The electric grid of the future will be comprised of both Onsite Power Generation plants and "utility scale power plants" that are fueled/powered with Biomass Gasification, Biomethane, Concentrating Solar Power, B100 Biodiesel, Distributed PV, EcoGeneration Systems, Geothermal Power Plants, Synthesis Gas, Rooftop PV, Solar Cogeneration, Solar Energy Systems, Solar Power Parks, Solar Trigeneration and Wind Power Generation  - located at Residential, Commercial, Industrial and City/Municipal Locations. 

Some customers will choose to dis-connect from the grid entirely.  (Electric grid represented by the small light blue circles in the slide below.)


The transmission grid will be upgraded to a "Unified Smart Grid" with green electrons now being wheeled via "High Voltage Direct Current."

Typical "central" power plants and the electric utility companies that own them will either be shut-down, closed or go out of business due to one or more of the following:  failed business model, inordinate expenses related to central power plants that are inefficient, excessive pollution/emissions, high costs, continued reliance on the use of fossil fuels to generate energy, and the failure to provide efficient, carbon free energy and pollution free power

Carbon free energy and pollution free power reduces our dependence on foreign oil and makes us Energy Independent while reducing and eliminating Greenhouse Gas Emissions.

* Some of the above information from the Department of Energy website with permission.

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America's "Clear and Present Danger"

America Has INCREASED its' Dependence on Foreign 
Sources of Energy by 50% Since 1973.

America is even more "addicted" to foreign oil today, than we were in 1973 - 1974 when OPEC, Saudi Arabia and other suppliers 
from the Middle-East  stopped selling us their fossil fuels, and created a significant blow to our economy.


 According to the CIA Fact Book, the U.S.A.

PRODUCES:      7,460,000 bbls of oil each day

CONSUMES:   20,800,000 bbls of oil each day


EVERY day, the U.S. must IMPORT over 13 million bbls of oil from foreign countries and foreign suppliers to meet demand.  

This Means that 65% of America's Energy Supplies are Now Imported from Suppliers from Foreign Countries which means that 65% of the gasoline in your car's gas tank, comes from a foreign country.


At $100/barrel of oil, this also means that $1.3 Billion (American) Dollars leave our country, EVERY DAY, and go to foreign countries/suppliers of our fossil fuels, to pay for the energy we need. 


That's $1.3 Billion dollars EVERY DAY - leaving our economy, and going to support a foreign country's economy, employ THEIR workers and talk about our foreign trade deficit..... nearly $500 Billion EVERY year, leaves our country to pay for our oil addiction and the energy we need.  That's 1/2 TRILLION DOLLARS every year!

This is NOT acceptable.

America needs to quickly transition to Energy Independence.  American Oil and Natural Gas PLUS American Renewable Energy is the Only Way America Can Achieve Energy Independence.

Millions of new and sustainable American jobs would be created here at home, if we would end our addiction to foreign fossil fuels, and quickly transition to an economy based on renewable energy and renewable fuels, produced here in the U.S.A. 

The good news is that today, America already has all of the Renewable Energy Resources and Renewable Energy Technologies needed to make American Energy Independence a reality. 



Green Energy

According to Monty Goodell, Founder and Chairman of the Renewable Energy Institute, "our increased dependence and reliance on foreign energy supplies represents a Clear and Present Danger to our national security, our economy, and the lives and livelihood of every American. Energy - including the energy we use from imported fossil fuels, is the very "lifeblood" of the American economy as it is for every industrialized country.  An economy dies without it's lifeblood of energy. This Clear and Present Danger we face is far more serious than the problems related to greenhouse gas emissions.  And while greenhouse gas emissions are very serious issue, in the long-term, pales in comparison to America's vital national security interests and America's economic stability in the short term.  For this reason alone, America needs to transition away from its addiction to foreign energy supplies. And America's abundant renewable energy resources such as the energy we receive from the sun, and renewable energy technologies such as concentrated solar power (CSP) plants - can supply 100% of America's power requirements with a concentrating solar power plant measuring 75 miles by 75 miles, located in the Southwest U.S.  By generating America's power from concentrating solar power plants, America resolves its' short-term Clear and Present Danger as it relates to importing its energy from foreign countries, and the long-term problems relating to greenhouse gas emissions."

Continuing, Mr. Goodell states that "too many Americans have forgotten what happened to us in 1973, when the Arabs and OPEC brought the United States economy to a screeching halt during the OPEC Oil Embargo.  This happened because they (mainly the country of Saudi Arabia) disagreed with our foreign policy and is the reason why they "turned off the tap" of our need for their oil supplies. When Saudi Arabia and OPEC stopped the vital flow of oil to our country in 1973, they caused an "oil shock" that severely and negatively impacted our economy. 

Mr. Goodell's question for us to ponder is, "do these countries who sell us 60% of our daily energy requirements, like us and our foreign policy, or might they leverage our addiction to their fossil fuels, and turn off the tap to make us adjust or revise our foreign policy??  Like any addict, America's foreign policy may be held hostage to its addiction, and in this case, our addiction to foreign oil, may over-ride our national interests."

Have American's forgotten the gas shortages and long lines at 
their gas stations to get gas during the Arab Oil Embargo of 1973?

"Apparently so."  Mr. Goodell states that "in 1973, America was 'addicted' and 'over the barrel' of foreign oil to the amount of 40%.  Forty percent of our energy 'needs' in 1973 came from countries - many of which didn't like us then, and I'm afraid, many of them still don't.  The difference between 1973 and today - is that today we receive 50% MORE foreign oil now than we did in 1973.  And now we know about the problems relating to greenhouse gas emissions that we didn't know then.  America needs to change course, and change course now, in terms of its' energy supplies and how we keep America's economy strong, without the threat of being held hostage to a middle-east tyrant or regime, that could once again, turn on us, and turn off our supply of foreign oil." 

Remember ????


 "Sadly, most Americans have forgotten the long lines of people waiting in their cars - lined up and waiting for gasoline at their nearby gas station, with lines that were many blocks long.  And, after waiting 4-5 hours, many even waiting overnight in many places, to finally take their turn to fill up their car with gasoline, only to find that the gas station had run out of gas."

"Let me Repeat.... That was 1973 when we imported 40% of our daily energy requirements in the form of crude oil from overseas, and from foreign countries - and many of these from countries that don't like us.

Today, over 35 years later, America has yet to learn the lesson.  We cannot continue our reliance on energy from foreign countries that supply us with 60% of the crude oil that our refineries use as a feedstock for producing gasoline and diesel fuel for our cars and trucks comes from overseas. 

America is "over the barrel" and it's not our barrel, but the barrels of oil that we are addicted by and owned by other countries.  Why have we not learned the lessons we needed to learn in 1973 when we were cut-off from the vital energy supplies we need? 

Countries like China, are growing rapidly, and have an insatiable need for crude oil. China, with their booming economy, is increasingly growing in its clout and control over international supplies of crude oil - whether they do this through their ability to buy as much oil as they need on a daily basis, or whether they simply but American drilling rigs, technology, and explore and produce oil and gas from their own fields. China, is buying large amounts of oil for their country, and causing upward pricing on declining supplies. What happens if Russia, with all of their oil and natural gas, along with China and Venezuela, with or without the help of OPEC, decided to NOT sell oil to us????

To be sure, greenhouse gas emissions are a problem, and to some, greenhouse gas emissions are also a Clear and Present Danger, but not to the extent that it presents an imminent Clear and Present Danger

America's reliance for 60% of our energy "needs" coming from foreign suppliers is un-acceptable.

The "driver" to get America to begin reducing and eliminating fossil fuel use should be our nation's national security and the welfare and safety of its citizens. And this can all begin with developing and investing in our own renewable energy resources and renewable energy technologies, let's start by putting solar on every rooftop that has a clear and unobstructed view of the Southern sky. See www.RooftopPV.com  or  www.DistributedPV.com  for more information.  Let's create incentives begin with adopting a national "Feed In Tariff" as Germany did in 1990. 

We simply do NOT have the luxury of time on our hands.  We need to end our dependence and reliance on foreign fossil fuels, especially from countries that don't like us! We need to rapidly begin expanding renewable energy resources and renewable energy technologies from our vast and abundant renewable energy resources, such as; solar, solar energy systems, solar cogeneration, solar trigeneration, "solar on every roof," along with; Biomass Gasification, B100 Biodiesel, Biomethane, E100 Ethanol (from cellulosic, agricultural waste, sugar cane, etc., and NOT from corn), Geothermal Power Plants, Natural Wastewater Treatment, Synthesis Gas, Waste To Energy, Waste To Fuel and Wind Power Generation where it makes economic and environmental sense."

For more information, call/email the
Renewable Energy Institute

info@FrontEndLoading.com

____________________________________________________

Are you doing your part to prevent Climate Change and End America's Reliance on Foreign Energy?  

Our following EcoGeneration technologies, including our Biomethane, B100 Biodiesel and Synthesis Gas Fuels Generated from our "Waste to Fuel" technologies are Carbon Free Energy and Pollution Free Power solutions that will:

* forever change the way energy is generated and used.

* eliminate or greatly reduce our customer's electric demand charges and electric expenses.

* slow, stop and eventually reverse climate change by reducing and then eliminating anthropogenic greenhouse gas emissions - of which carbon dioxide emissions makes up 80% of all greenhouse gas emissions.

* reduce and eventually eliminate the use of coal and other fossil fuels.

* reduce the need for inefficient and expensive central power plants owned by utility companies. 

* promote energy independence.

* end America's dependence on oil from OPEC and other countries in the Middle-East, Venezuela and end our need for importing natural gas from Russia.

 

American Energy Plan
www.AmericanEnergyPlan.com

 

Anaerobic Digester
 www.AnaerobicDigester.com

 

Anaerobic Digesters
 www.AnaerobicDigesters.com

 

B100 Biodiesel
 www.B100Biodiesel.com

 

Battery Energy Storage
www.BatteryEnergyStorage.com

 

Biomass Gasification
www.BiomassGasification.com

 

Biomethane
 www.Biomethane.com

 

Building Automation System
www.BuildingAutomationSystem.com

 

Carbon Dioxide Emissions
www.CarbonDioxideEmissions.com

 

Carbon Emissions
www.CarbonEmissions.com

 

Carbon Free Energy
 www.CarbonFreeEnergy.com

 

Clean Power Generation
 www.CleanPowerGeneration.com

 

Cogeneration
www.Cogeneration.net

 

Concentrating Solar Power
www.ConcentratingSolarPower.com

 

Demand Response Programs
www.DemandResponsePrograms.com

 

Distributed PV
www.DistributedPV.com

 

Distributed Solar Generation
www.DistributedSolarGeneration.com

 

EcoGeneration
 www.EcoGeneration.com


Greenhouse Gas Emissions
www.GreenhouseGasEmissions.com

 

Net Zero Energy
www.NetZeroEnergy.com

 

Net Zero Energy Building
www.NetZeroEnergyBuilding.com

 

No Foreign Oil
www.NoForeignOil.com

 

Plug In Electric Vehicles
www.PlugInElectricVehicles.com

 

Pollution Free Power
www.PollutionFreePower.com

 

Rooftop PV
www.RooftopPV.com

 

Solar Energy Systems
 www.SolarEnergySystems.net

 

Solar Power Parks
 www.SolarPowerParks.com

 

Solar Cogeneration
 www.SolarCogeneration.com

 

Solar Trigeneration
 www.SolarTrigeneration.com

 

Synthesis Gas
 www.SynthesisGas.com

 

Trigeneration
www.Trigeneration.com


Waste Heat Recovery
 www.WasteHeatRecovery.com


Waste to Energy
www.WasteToEnergy.net

 

Waste To Fuel
www.WasteToFuel.com

 

Wind Power Generation
www.WindPowerGeneration.com

 

Zero Emission Energy
www.ZeroEmissionEnergy.com

 

Zero Emission Power
www.ZeroEmissionPower.com

______________________________________________________

We support the Renewable Energy Institute by donating a portion of our profits to the Renewable Energy Institute in their efforts to reduce fossil fuel use through renewable energy and their goals to end fossil fuel pollution by reducing/eliminating Carbon Emissions, Carbon Dioxide Emissions and Greenhouse Gas Emissions.

The Renewable Energy Institute is "Changing The Way The World Makes and Uses Energy by Providing Research & Development, Funding and Resources That Creates Sustainable Energy via 'Carbon Free Energy,' 'Clean Power Generation' and 'Pollution Free Power' Through Expanding the use of Renewable Energy Technologies."

 

Renewable Energy Institute

"Leading the Renewable Energy Revolution"



www.RenewableEnergyInstitute.org

Email:  info(@)Renewable Energy Institute (.)org

 


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