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Trigeneration Technologies
www.Trigeneration.com

What is Trigeneration?

Trigeneration - with total system efficiencies 30% to 50% greater than "cogeneration," is the simultaneous production of power/electricity, hot water and/or steam, and chilled water from one fuel. Basically, a trigeneration power plant is a cogeneration power plant that has added absorption chillers for producing chilled water from the heat that would have been wasted from a cogeneration power plant. Trigeneration plants can reach system efficiencies that exceed 90%. In addition to the economic benefits and advantages, trigeneration plants reduce our dependence on foreign energy supplies and help our environment by dramatically reducing greenhouse gas emissions such as carbon dioxide - when compared to typical power plants.

Trigeneration has been hailed the "hat-trick of the energy industry" with system efficiencies approaching and exceeding 90%.

Trigeneration plants are very energy efficient, conserve natural resources and reduce fuel consumption as the system operates at such high efficiencies.

Cogeneration and trigeneration power plants are about 90% efficient and approximately 300% more efficient than "central power plants" that average 27% to 40% efficiency.  When fueled with renewable fuel, cogeneration and trigeneration plants are carbon neutral, producing no greenhouse gas emissions and the optimum solution for clients seeking to reduce their energy expenses and greenhouse gas emissions.

Our company or its' affiliated companies also provide engineering, legal, finance, power purchase agreements, energy service agreements and greenhouse gas emissions consulting services for clients whose projects are located in the U.S., Canada, the Caribbean and Central/South America.

We specialize in the following renewable energy technologies:

• Anaerobic Digesters

• Biodiesel Plants

• Biogas Plants

• Biogas to Biomethane

• Biomass Gasification

• Biomethane

• Carbon Free Energy

• Cogeneration

• Community Wind Farms

• Concentrating Solar Power

• Decentralized Energy

• Demand Side Management

• Distributed Generation

• Geothermal Power Plants

• Ground Source Heat Pumps

• Hydrogen Fuel Cells

• Molten Carbonate Fuel Cells

• Onsite Power Generation

• "Natural Wastewater Treatment Plants"

• Phosphoric Acid Fuel Cells

• Plasma Gasification

• Pollution Free Power

• Solar Cogeneration

• Solar Trigeneration

• Thin Film Photovoltaics

• Trigeneration

• Waste To Energy

• Waste to Fuel

• Wind Farm Development

• Wind Power Generation

• Increased sick days in areas with high urban smog levels. 

• Lung problems in the young and old, including increased rates of asthma and chronic bronchitis.

• Global climate change.

• Urban haze and smog.

• Acid rain.

• Acidification of lakes, streams, rivers, and oceans.

• Dead and dying lakes, stream, rivers, and wildlife in and near these areas.

"Curing" the problems associated with inefficient electrical power generation begins with pollution prevention. The choices are clear — we must stop wasting energy and start increasing the efficiency of power generation facilities. Instead of building inefficient, wasteful, pollution-generating central power plants owned by utility companies, where the thermal energy is wasted, we need to start building efficient, on-site power plants where the heat energy can be utilized. These on-site cogeneration, trigeneration, and quadgeneration power and energy systems are also referred to as "distributed generation" or "distributed energy" technologies. They can be installed easily and affordably, and they operate economically throughout their life cycle.

The U.S. Environmental Protection Agency (EPA) understands that resolving these problems must start with pollution prevention, which equates to using fewer energy resources to produce goods and services. The National Energy Plan includes four specific recommendations to promote CHP, three of which were directed to EPA for action:

• Promotion of CHP through flexible environmental permitting.

• Issuing of guidelines to encourage development of highly efficient and low-emissions CHP.

• Promotion of the use of CHP at abandoned brownfield industrial and commercial sites.

As a follow-up to those recommendations, EPA joined with 18 Fortune 500 companies, city and state governments, and nonprofit organizations in February 2002 in Washington, DC, to announce the EPA Combined Heat and Power Partnership (CHPP). The CHPP aims to advance CHP as a more efficient, clean, and reliable alternative to conventional electricity generation. This initiative now boasts nearly 50 partners, including state and local regulators, end users, project developers, and equipment suppliers.

• Increased power reliability, 

• Reduced power requirements on the electric grid; and

• Reduced dependence on foreign oil.

The on-site trigeneration system can be economically attractive for many types of buildings, including, but not limited to, the following:

• Facilities with trigeneration systems use them to produce their own electricity, and use the unused excess (waste) heat for water heating, space heating, air conditioning, process steam, and other thermal needs.


Improved Power Reliability

Economic losses due to power outages in the U.S. have cost American businesses billions of dollars. The following table shows the economic impact of power outages on some industries.


Table 1. Economic impact of power outages.

As we all know, power outages and rolling blackouts are occurring more frequently than ever before. And they are not happening only in California; many other states have experienced similar problems. These problems primarily occur when demand for power exceeds its supply, for example, on hot days when power demand for cooling systems increases significantly. Similar situations occur on very cold days when demand for heating becomes very high. There may also be local areas that are more prone to power outages because the demand for power exceeds the ability of the local distribution line to provide the energy. Other times, weather-related storms knock down power lines and substation transformers.

Cogeneration and trigeneration systems give commercial and industrial end users their own reliable power supply to keep equipment and facilities operating. Plus, they help reduce the load on the power grid and local area lines and, thus, help improve the local community’s power reliability.

Improved Indoor Environments

Also of increasing interest is the issue of indoor air quality. In order to prevent the growth of mold, mildew, and bacteria, it is important to keep humidity in the indoor air to below 60 percent. Cogeneration and trigeneration systems for buildings can help improve indoor air quality by supporting the use of a desiccant dehumidification system to dry the air. Desiccant systems use a material that directly removes moisture from the air, then use heat, such as that provided by the exhaust gases of the cogeneration/trigeneration equipment, to regenerate the desiccant. This provides a very energy efficient and cost effective method of dehumidifying indoor air, rather that using an air conditioner to "over cool" the air to remove humidity.

Summary: Advantages Of On-Site Cogeneration And Trigeneration

• Cogeneration and trigeneration are accepted as the most energy-efficient means of producing electricity and now produce almost 17 percent of the U.S.' electricity and 15% of electricity globally.
  

• saves customers up to 50 percent on their energy expenses.
  

• provides even greater savings to our environment through significantly reduced emissions associated with power plants.
  

• backed by environmental organizations such as the Sierra Club and the U.S. Environmental Protection Agency.
  

• The U.S. Environmental Protection Agency is promoting the use of more electricity to be produced through cogeneration power plants. The EPA recently formed the CHP/Cogeneration Partnership to foster more cogeneration power plants to meet our nation's electricity demand.
  

• Cogeneration is a proven technology that has been around for over 100 years. The world's first power plant designed and built by Thomas Edison in 1882 was a cogeneration plant. Trigeneration just takes cogeneration one step further.
  

• Two-thirds of the fuel used to make electricity today in the United States is wasted. While there have been impressive energy efficiency gains in other sectors of the economy since the oil price shocks of the 1970s, the average efficiency of power generation in the United States has stagnated at around 33 percent since 1960. Cogeneration and trigeneration offer significant efficiency improvements.
  

• A new trigeneration power plant may pay for itself in as little as 2-3 years.
  

• It is important to note that increasing the use of cogeneration and trigeneration systems is, and has been, one of the best technologies available for reducing greenhouse gas emissions and other pollutants created by the typical power plant as well as a means for conserving fuel and reducing our reliance on foreign oil.
  

• The Kyoto Protocol, while not being ratified here in the United States, is moving ahead with ratification throughout the rest of the world. Countries throughout much of Europe and Asia view cogeneration and trigeneration as the best energy technologies to meet the stringent emissions requirements of the Kyoto Protocol.
  

• Primary fuels commonly used in trigeneration include natural gas, oil, diesel fuel, propane, coal, wood, wood-waste, and bio-mass. These "primary" fuels are used to make electricity that is a "secondary" energy. This is why electricity, when compared on a Btu to Btu basis, is typically three to four times more expensive than primary fuels such natural gas.

  A typical cogeneration power plant consists of an engine, steam turbine, or combustion turbine that drives an electrical generator. A waste heat exchanger recovers waste heat from the engine and/or exhaust gas to produce hot water or steam for a building. In trigeneration power plants, an absorption or adsorption chiller is added to a cogeneration system to also utilize the waste heat to make chilled water for air conditioning.

  Cogeneration produces a given amount of electric power and heat with 20 to 30 percent less fuel than it takes to produce the electricity and heat separately. Trigeneration produces chilled water in addition to electric power and heat with approximately 50 percent less fuel than it takes to produce electricity, heat, and chilled water separately.

What are CHP Systems?

A CHP System integrates distributed generation (DE) with thermally-activated power and energy technologies for heating and cooling. 

CHP Systems are more commonly referred to as "Trigeneration" plants and also referred to as: 

• Cooling, Heating and Power

• Cooling Heating Power 

• Combined Heat And Power

• Cogeneration plus Absorption Chillers - or - ADsorption Chillers

• District Energy Systems

• Distributed Generation

• Dispersed Generation

• Integrated Energy Systems

CHP Systems are also at the center of every District Energy System.  

CHP Systems, District Energy Systems, Integrated Energy Systems, or Trigeneration plants, no matter how they are referred, achieve overall, net system energy efficiencies of 80% plus, and several Trigeneration plants are nearing 90% efficiencies nearing almost 300% increased efficiency over power provided by electric utilities and their central power plants"!  This means significantly lowered: 

• energy costs

• fuel costs

• greenhouse gas emissions

CHP Systems achieve these greater energy efficiencies through the conversion of exhaust or reject heat from power generation into needed energy services like cooling and heating of buildings as well as campuses. This is called "Waste Heat Recovery" or "Recycled Energy."  Development of "packaged" or "modularized" CHP Systems for end-use applications, such as commercial and institutional buildings, is something the founder of our company has been involved with since the mid 1980's.

In the past, Cogeneration plants have been economically attractive only in sizes above several megawatts. The emergence of a number of small generation technologies, including fuel cells, advanced low emissions engines, and gas turbines with outputs in the 1000 kW - 5000 kW range, should extend the benefits of Integrated Energy Systems to a much larger user base, with a consequent increase in national energy and environmental benefits. 

For example, the application of CHP Systems(including Absorption Chillers - or - ADsorption Chillers) in commercial buildings could reduce commercial building energy consumption by 30%. 

Application of such smaller-scale packaged CHP Systems provides a major breakthrough in energy efficiency technology, energy savings as well as reduced greenhouse gas emissions. And, by locating the power generation at or near the end-user/consumer, i.e. their facility, building, or campus, the difficulties in siting and building new electric transmission and electric distribution infrastructures to meet today's increasing power demand are minimized.

The most promising markets for Trigeneration plants, CHP Systems, District Energy Systems or Integrated Energy Systems are commercial or institutional buildings, government facilities, and district energy systems that distribute thermal energy to buildings in a college campus, hospital complex, industrial park, food processing operations, refrigerated warehouses, and also very attractive for cities.

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What is a Power Purchase Agreement? 

A Power Purchase Agreement is a legal agreement wherein our clients agree to buy either the power (electricity) or the power and energy (hot water, steam and/or chilled water for air-conditioning) - or both - directly from us, for a term of 10 to 20 years, where we have installed, own and operate our solar energy systems. 

In nearly every case, once we have installed our solar energy systems at our client's facility, we can immediately reduce our (commercial) client's electricity expenses by 10% over what they were paying for their power electricity from their electric utility.

The right Power Purchase Agreement, solar cogeneration or solar trigeneration energy solution, may save your company hundreds of thousands, and possibly millions of dollars over the term of the agreement.  

Simultaneously, having the wrong or poorly drafted PPA can cost your company thousands or millions of dollars.  You wouldn't consult a brain surgeon to treat your child's broken bone!  Selecting the wrong attorneys, law firm or team to promulgate or re-negotiate your Power Purchase Agreement can leave you "powerless" and penniless - and still requiring the skills and expertise of competent and qualified professionals to resolve the situation.     

Because a Power Purchase Agreement is at the "heart" and underlying foundation of our projects, we can help your business with the selection and oversight of PPA's. 

We can help your city or community create a Municipal Utility District or Public Utility District that may then qualify for our very competitively priced energy and electricity rates. Now is the time for cities, municipal and governmental clients to consider having our company install one of our renewable power and energy systems that will generate "clean" power and energy, lower costs, and avoid the coming electricity shortages and grid congestion problems!  

Products and services provided by us include the following power and energy project development services: 

• Project Engineering Feasibility & Economic Analysis Studies  

• Engineering, Procurement and Construction

• Environmental Engineering & Permitting 

• Project Funding & Financing Options; including Equity Investment, Debt Financing, Lease and Municipal Lease

• Shared/Guaranteed Savings Program with No Capital Investment from Qualified Clients 

• Project Commissioning 

• 3rd Party Ownership and Project Development

• Long-term Service Agreements

• Operations & Maintenance 

• Green Tag (Renewable Energy Credit, Carbon Dioxide Credits, Emission Reduction Credits) Brokerage Services; Application and Permitting

More About Power Purchase Agreements

A Power Purchase Agreement is "behind" almost every power plant.  A PPA is a contract involving the generation and sales of electricity - which is normally developed between the owner of a power plant generating the electricity, and the buyer of the electricity. PPA's can be quite lengthy agreements that may exceed 100 pages in length and take several months to even 1-2 years to finalize.  

The basic information contained in a Power Purchase Agreement include the following items:

          * Definitions
          * Purchase and Sale of Contracted Capacity and Energy (such as steam, hot water and chilled water in the case of trigeneration plants
          * Operation of the Power Plant
          * Financing of the Power Plant
          * Guarantees of Performance
          * Penalties
          * Payments
          * Force Majeure
          * Default and Early Termination
          * Miscellaneous
          * T&C's

For more information about Power Purchase Agreements, call or e-mail us today.

Our onsite power generation systems could save your business 30% or more - depending on your present electric utility rates, location and how you use energy.

Reduce your energy costs with our clean power generation systems, either a cogeneration or trigeneration energy system - which we can; design, package/build, own and/or operate. Call us today to discuss how we can engineer a system to meet your company's power and energy requirements. We have the funding resources to make it quick and easy!

We provide commercial, industrial and utility clients with clean energy and power solutions that provide substantial savings for your company's bottom-line as well as for our environment. Several of our onsite power and energy systems include cogeneration or our advanced trigeneration and even quadgeneration systems.

WE ARE VENDOR, EQUIPMENT, AND SUPPLIER NEUTRAL!!

There are thousands of companies involved in energy design, management and manufacturers of power and energy equipment - most with single-source suppliers or equipment offerings.

A cogeneration, trigeneration or even a quadgeneration system may be your company's best investment or asset!

We are dedicated to providing the optimum energy solution for our clients. This means we review all of the equipment offerings to find the best equipment solution for our clients. Our client's have individual and unique energy requirements that don't always match a given manufacturer's equipment offering.... we find the optimum solution for your specific requirements - then we match your solution with the right equipment - which might mean coming from many different - and competing manufacturers.

Our Advanced Trigeneration System

• Reaches system efficiencies of up to 92% - about 300% more efficient than conventional power plants that average around 28% - 35%, and combined-cycle cogeneration power plants at about 60% efficient.
  

• Significantly reduces environmental impact compared to typical fossil fuel based power plants, including the elimination of net greenhouse gas additions to the environment.
  

• May save as much money through increased energy efficiencies so that the new system is paid for in as little as 2-3 years (depending on existing electric rates, load profile and thermal demand).
  

• Reduces demand of power from the electric grid.
  

• Eliminates black-outs and other power interruptions.
  

• Decreases our dependence on foreign oil.
  

• With the ability to obtain competitively priced fuel, Trigeneration Technologies’ advanced trigeneration process is competitive with all other forms of renewable and nonrenewable energy production.

Advanced cogeneration and trigeneration technologies are our specialties.

Trigeneration provides even greater savings and energy efficiencies (up to 50% greater than cogeneration) for our clients that provides even further reductions in the amounts of harmful emissions typically associated with power production. Trigeneration is now the preferred energy technology throughout Europe and Asia.

Trigeneration Technologies is a privately held company that was founded by two of the board members of the Renewable Energy Institute. We assist in the optimization of bulk power systems by engineering, developing, installing, owning and operating highly efficient trigeneration energy systems.

Our specialty is trigeneration. We manufacture/package, sell and install trigeneration power plants that approach 100% net system efficiency. This means our trigeneration energy systems utilize nearly 100% of the fuel our trigeneration plants use, in the form of cooling (air conditioning) heating (hot water and/or steam) and electricity that our customers use "onsite" in their buildings, facilities and plants. For qualified clients, we will build-design-finance-own-operate and maintain our trigeneration energy systems.

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.

Our company's trigeneration energy systems 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 the trigeneration development team started out by conducting a "cogeneration" feasibility study.

The EPC (Engineering Procurement Construction) contractor installed a 4.0 MW Ruston gas turbine for the power plant. Rice University selected an EPC company that installed the trigeneration 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 Comparison 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.

We partner and collaborate with other forward thinking companies and communities that are interested in changing the outdated power and energy model of the past - inefficient and highly-polluting central power plants that average 33% efficiency - to a new paradigm and model for the future - community-based cogeneration and trigeneration energy systems at more than 90% efficiency - and therefore provides power and energy at lower prices while significantly reducing and even eliminating typical power plant emissions and greenhouse gas emissions.

Call/email us for more information about community-based cogeneration and trigeneration energy systems or about making your community, hospital, university or other commercial facility a model for the future.

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 smallest trigeneration power plant "basic" power plant is a 200 kW trigeneration system.

All of our trigeneration power plants can produce 42 degree F. chilled water (with a 20 degree chilled water option) as well as steam and hot water while generating at least 200 kW of power. We can build trigeneration power plants up to 10 MW and with system efficiencies approaching 100%.

Trigeneration Feasibility Study and Analysis

Provides a solid basis for moving a new cogeneration or trigeneration project forward. The cost for this depends on the type, location, amount of time we require, and any additional requirements that may be included by the client.

Trigeneration is a technology whose time as come! Particularly for commercial clients who want to decrease their energy expenses and carbon footprint, while increasing energy efficiency and profits. This is possible as our trigeneration power plants surpass 90% net system efficiency.

While most new trigeneration power plants are capable of being fueled with clean natural gas, we are dedicated to ending the use of fossil fuels by providing renewable energy and renewable fuels such as B100 Biodiesel or Biomethane. Simultaneously, we are focused on reducing and eliminating greenhouse gas emissions and carbon dioxide emissions.

In association with the Renewable Energy Institute, affiliate companies and investors, we provide "turnkey" trigeneration power plant development services that range from initial Engineering Feasibility & Economic Analysis Studies through project installation, start-up and commissioning, Operations & Maintenance, and Long Term Service Agreements for the lifetime of our systems.

Trigeneration Technologies' trigeneration energy systems' net system's efficiencies surpass any potential competitor. We guarantee our standard trigeneration power plants will exceed 85% net system efficiency.

Our trigeneration plants can use renewable fuels such as Biomethane, B100 Biodiesel or Dimethyl Ether, instead of fossil fuels to run them. We also offer an optional selective catalytic reduction technology that takes NOx down to "non-detect" without the use of ammonia or urea on our new trigeneration plants.

Our range of services (some provided by affiliate companies or manufacturing suppliers) include:

• Design/engineering, Engineering Feasibility and Economic Analysis Studies

• Legal

• Energy Service Agreements

• Power Purchase Agreements

• Build

• Finance

• Own

• Operate

• Maintain

• Long Term Service Agreements

Our renewable energy projects generate Renewable Energy Credit or Certified Emission Reduction credits, which provide an additional income stream from our projects.

Our Optional SCR System Reduces Nitrogen Oxides To "Non-Detect"
Without Ammonia or Urea

Our small footprint Trigeneration Plants measurements are: 15' wide by 15'
in height by and 55' in length


We will NOT use the following engines or turbines:

Microturbines
Daewoo engines
Kawasaki turbines

in ANY of our cogeneration or trigeneration power plants.

Our territory includes the U.S.A., Canada, the Caribbean
and Central America.

We can package any combination of standard size plants to come up with your optimum size system. Our standard and customized Trigeneration power plants use the leading brands of reciprocating engines or turbines and include our proprietary Waste Heat Recovery technologies that help us achieve system efficiencies greater than 90% and effective heat rates as low as 4050 btu's/kW. We provide both standard and customized Trigeneration plants that meet our customer's most stringent economic and environmental requirements.

Our Power Plants can run on renewable fuels for even greater environmental and economic savings! These fuels or energy sources include: Biomethane, B100 Biodiesel, Dimethyl-Ether, Synthesis Gas and natural gas. Net system efficiencies of our Trigeneration power plants are now exceeding 90% with up to 95% lower emissions when using Biomethane, B100 Biodiesel, Dimethyl-Ether or Synthesis Gas as the fuel for Trigeneration power plants.

For pricing and delivery information on our Cogeneration, Trigeneration, Biomethane or B100 Biodiesel power plants, call/email us or send an email with your project's requirements to: info@trigeneration.com

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

The Effective Heat Rate for the Cogeneration below is Approximately
4050 btu/kW & System Efficiency is 92%.

The Integrated Cogeneration Plant below is rated at 900 kW and features a control room,
(2) Natural Gas Engines @ 450 kW each, packaged together on one skid.

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:

Airports

Casinos

Central Plants

Colleges & Universities

Dairies

Data Centers & Server Farms

District Heating & Cooling plants

Food Processing Plants

Golf/Country Clubs

Government Buildings and Facilities

Grocery Stores

Hospitals

Hotels

Manufacturing Plants

Military Bases

Nursing Homes

Office Buildings / Campuses

Radio Stations

Refrigerated Warehouses

Resorts

Restaurants

Schools

Server Farms

Shopping centers

Supermarkets

Television Stations

Theatres

Our trigeneration plants will;

* forever change the way that energy is generated and used.

* will be fueled with "green fuels" such as; Biomethane, B100 Biodiesel, Synthesis Gas (generated from biomass feedstock and "converted" through Biomass Gasification plants), Dimethyl Ether or Solar Energy.

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

* significantly increase the amount of renewable energy used in the U.S. and around the world when renewable fuels such as Biomethane, B100 Biodiesel, Synthesis Gas or Dimethyl Ether

* stop/reverse climate change by reducing greenhouse gas emissions and carbon dioxide emissions.

* reduce and eventually eliminate the use of "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.

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.

* From the Department of Energy website with permission

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Absorption Chillers & Adsorption Chillers

What Absorption Chillers and How Does They Work?

Absorption chillers use heat instead of mechanical energy to provide cooling. A thermal compressor consists of an absorber, a generator, a pump, and a throttling device, and replaces the mechanical vapor compressor.

In the chiller, refrigerant vapor from the evaporator is absorbed by a solution mixture in the absorber. This solution is then pumped to the generator. There the refrigerant re-vaporizes using a waste steam heat source. The refrigerant-depleted solution then returns to the absorber via a throttling device. The two most common refrigerant/ absorbent mixtures used in absorption chillers are water/lithium bromide and ammonia/water.

Compared with mechanical chillers, absorption chillers have a low coefficient of performance (COP = chiller load/heat input). However, absorption chillers can substantially reduce operating costs because they are powered by low-grade waste heat. Vapor compression chillers, by contrast, must be motor- or engine-driven.

Low-pressure, steam-driven absorption chillers are available in capacities ranging from 100 to 1,500 tons. Absorption chillers come in two commercially available designs: single-effect and double-effect. Single-effect machines provide a thermal COP of 0.7 and require about 18 pounds of 15-pound-per-square-inch-gauge (psig) steam per ton-hour of cooling. Double-effect machines are about 40% more efficient, but require a higher grade of thermal input, using about 10 pounds of 100- to 150-psig steam per ton-hour.

In single-effect absorption chillers, all condensing heat cools and condenses in the condenser. From there it is released to the cooling water. A double-effect machine adopts a higher heat efficiency of condensation and divides the generator into a high-temperature and a low-temperature generator.

Actions You Can Take

Determine the cost-effectiveness of displacing a portion of your cooling load with a waste steam absorption chiller by taking the following steps:

• Conduct a plant survey to identify sources and availability of waste steam

• Determine cooling load requirements and the cost of meeting those requirements with existing mechanical chillers or new installations

• Obtain installed cost quotes for a waste steam absorption chiller

• Conduct a life cycle cost analysis to determine if the waste steam absorption chiller meets your company's cost-effectiveness criteria.

Absorption Chillers Refrigeration Cycle

The basic cooling cycle is the same for the absorption and electric chillers. Both systems use a low-temperature liquid refrigerant that absorbs heat from the water to be cooled and converts to a vapor phase (in the evaporator section). The refrigerant vapors are then compressed to a higher pressure (by a compressor or a generator), converted back into a liquid by rejecting heat to the external surroundings (in the condenser section), and then expanded to a low- pressure mixture of liquid and vapor (in the expander section) that goes back to the evaporator section and the cycle is repeated.

The basic difference between the electric chillers and absorption chillers is that an electric chiller uses an electric motor for operating a compressor used for raising the pressure of refrigerant vapors and absorption chillers use the heat for compressing refrigerant vapors to a high-pressure. The rejected heat from the power-generation equipment (e.g. turbines, microturbines, and engines) may be used with an absorption chiller to provide the cooling in a CHP system.

The basic absorption cycle employs two fluids, the absorbate or refrigerant, and the absorbent. The most commonly fluids are water as the refrigerant and lithium bromide as the absorbent. These fluids are separated and recombined in the absorption cycle. In the absorption cycle the low-pressure refrigerant vapor is absorbed into the absorbent releasing a large amount of heat. The liquid refrigerant/absorbent solution is pumped to a high-operating pressure generator using significantly less electricity than that for compressing the refrigerant for an electric chiller. Heat is added at the high-pressure generator from a gas burner, steam, hot water or hot gases. The added heat causes the refrigerant to desorb from the absorbent and vaporize. The vapors flow to a condenser, where heat is rejected and condense to a high-pressure liquid. The liquid is then throttled though an expansion valve to the lower pressure in the evaporator where it evaporates by absorbing heat and provides useful cooling. The remaining liquid absorbent, in the generator passes through a valve, where its pressure is reduced, and then is recombined with the low-pressure refrigerant vapors returning from the evaporator so the cycle can be repeated.

Absorption chillers are used to generate cold water (44°F) that is circulated to air handlers in the distribution system for air conditioning.

"Indirect-fired" absorption chillers use steam, hot water or hot gases steam from a boiler, turbine or engine generator, or fuel cell as their primary power input. Theses chillers can be well suited for integration into a CHP system for buildings by utilizing the rejected heat from the electric generation process, thereby providing high operating efficiencies through use of otherwise wasted energy.

"Direct-fired" systems contain natural gas burners; rejected heat from these chillers can be used to regenerate desiccant dehumidifiers or provide hot water.

Commercially, absorption chillers can be single-effect or multiple-effect. The above schematic refers to a single-effect absorption chiller. Multiple-effect absorption chillers are more efficient and discussed below.

Multiple-Effect Absorption Chillers

In single-effect absorption chillers, the heat released during the chemical process of absorbing refrigerant vapor into the liquid stream, rich in absorbent, is rejected to the environment. In a multiple-effect absorption chiller, some of this energy is used as the driving force to generate more refrigerant vapor. The more vapor generated per unit of heat or fuel input, the greater the cooling capacity and the higher the overall operating efficiency.

Double-effect absorption chillers uses two generators paired with a single condenser, absorber, and evaporator. It requires a higher temperature heat input to operate and therefore they are limited in the type of electrical generation equipment they can be paired with when used in a CHP System.

Triple-effect absorption chillers can achieve even higher efficiencies than the double-effect chillers. These absorption chillers require still higher elevated operating temperatures that can limit choices in materials and refrigerant/absorbent pairs. Triple-effect chillers are under development by manufacturers working in cooperation with the U.S. Department of Energy.

________________________________________________________________________

Solar Trigeneration^sm
www.SolarTrigeneration.com

We Do Solar Right ^sm

We install our Solar Trigeneration^sm Energy Systems, for qualified commercial businesses, as well as  cities, schools and government facilities with our Zero Up-front Cost program.

For some customers - based on their present location, utility company and electric rate - we are able to reduce their electric rate by 10%. Even more for other customers.  Solar Trigeneration^sm Energy System!

We provide the answers to your questions about solar power and energy!

Does your; business, city, school, or electric utility want a more sustainable solar power and energy solution?

Are you interested in transforming your facility, campus or building(s) to "Net Zero Energy"™ buildings?

Does your city or school have a problem with rising electricity and energy expenses, but not have the financial resources to provide the necessary updates and upgrades to make your buildings more efficient?

Maybe you have already decided to go solar, but you have a lot of questions, and don't know where to start.  Call us, we have the answers to your solar questions.

What is the optimum solar solution?  There are hundreds of companies in the solar power and energy industry.....  Who do you call to help you with these questions to help you make the right decisions?

There's still more questions, that you may not have thought about..... which solar technology do you go with, and what is the return on investment? 

Are there any solar rebates, refunds, tax credits or other incentives available?

What about investors that might be interested in owning/operating and maintaining our solar energy system under a Power Purchase Agreement?

You have numerous questions and need the answers to help in the decision-making process regarding the solar power and energy system you want to install.  These decisions will have a long-lasting impact as the solar energy system that you install at your business or facility will probably be generating clean power for the next 40 to 50 years, if not longer!  So, the decisions that you need to make now regarding your solar energy system will be a decision that will be either a long-term asset or a liability, depending on the equipment you select and who you choose to install it. 

We can help cities, schools and commercial (and large residential) customers make the switch to solar!

And now, with our no up-front cost for our Solar Trigeneration^sm Energy System, we can also transform your building(s) to a "Net Zero Energy Building"™ and many times, actually REDUCE your present energy expenses by 10%, and possibly more!

Examples of buildings/facilities where our Solar Trigeneration^sm Energy Systems would benefit, include; universities, churches, data centers, shopping centers, schools, radio/television stations, food processing, warehouses, new real estate developments and subdivisions, and electric utilities - practically any commercial facility can be upgraded to one of our "pollution free power" systems featuring one of our solar energy systems,  including our Solar Trigeneration^sm system!

Call or email us, we can provide these answers. We are focused on providing the optimum solar energy systems for our clients. This begins with an initial review of your past 12 months energy/electrical bills. The next step would include a site visit which may include a Demand Side Management study and/or a Solar Feasibility Study which determines the optimum solar energy system for your facility or location.  Once the optimum solar solution(s) are determined, we then have a blueprint to proceed that could include our installing one of our Solar Cogeneration™ or Solar Trigeneration^sm energy systems.  Or for a city, real estate development or subdivision, or an electric utility, one of our utility scale power plants which might be a Concentrating Photovoltaic, Concentrating Solar Power or High Concentration Photovoltaic power plants.


What is "Net Zero Energy^sm?"

Net Zero Energy^sm - when applied to a home or commercial building, simply means that the home or buildings generates as much power and energy as they consume, when measured on a monthly or annual basis, and with an onsite, renewable energy system, such as our Solar Trigeneration^sm Energy System. 


What is a Net Zero Energy Building^sm?

A Net Zero Energy Building^sm produces as much energy as it uses over the course of a year. Net Zero Energy Buildings^sm are very energy efficient. The remaining low energy needs are typically met with on-site renewable energy. 

First of all, understand that there is no such thing as a "zero energy building!" EVERY building uses energy, or you may as well be in a cave!  

The important considerations are, 

1.  How efficient is the building?  

2.  How much energy does the building use, and how efficiently is it used?  

3.  How much "carbon free energy" or "pollution free power" is generated by the buildings' own onsite renewable energy system?

4.  What are the utility company's prices for the excess power generated and sent to the grid? 
(see: Net Energy Metering)

5.  How difficult is it to interconnect the renewable energy system of the building with the utility company's powerlines/electric grid?   

At the heart of a Net Zero Energy Building^sm is the idea that any building can meet its energy requirements from low-cost, locally available, nonpolluting, renewable sources, like our Solar Trigeneration^sm Energy Systems. Our Solar Trigeneration^sm Energy Systems are the idea whose time has come, to make Net Zero Energy Buildings^sm commonplace.

Solar Trigeneration^sm Energy Systems Provide All of the Cooling, Heating & Power, for Any Size Building, with only the Energy of the Sun. Solar Trigeneration^sm Energy Systems Provide Simultaneous  Cooling, Heating & Power whether it is 12 Noon, or 12 Midnight,  and can do so, WITHOUT Connection to the electric grid!

The Diagram Below Shows How Our Solar Trigeneration^sm Energy System Works, for Heating and Cooling a Building (next to the Solar Thermal Collectors, are the PV Panels, that generate the Electricity).


Our Solar Trigeneration^sm Energy System
provides "Cooling, Heating & Power" for your business,
or home with the free energy of the sun!

 

What is Net Energy Metering?

Net energy metering is used to measure a customer's total electric consumption against that customer's total on-site electric generation.  When a customer's onsite generation of power exceeds the amount that they use, the customer's solar energy system (or other renewable energy system) exports the extra electricity to the grid.  When the power requirements of the customer exceeds their onsite generation of power, the customer imports the electricity they need from electric grid. The customer pays the electric company for any extra power they use over the amount they generate - OR -  the customer receives a credit or refund from the electric company if they exported more power to the grid, than what they consumed.  


Renewable Energy Is Necessary for Net Zero Energy Buildings

Much focus is placed on energy efficiency as the most cost-effective way to reduce energy use in commercial buildings. However, consumption can be reduced only so much. There is a point at which the cost of adding efficiency measures is higher than that of using renewable energy such as thin film photovoltaics and other solar energy systems. 

Aggressive energy efficiency strategies can reduce a building's energy consumption by 50% to 70%. Renewable energy technologies must be used to reach the goal of a net-zero energy building (NZEB).

Supply-Side Technologies

Various supply-side renewable energy technologies are available for Net Zero Energy Buildings. Supply-side technologies, often called energy producers, collect natural energy and transform it into a useful form. Examples of these technologies include PV, solar hot water, wind, hydroelectric, and biofuels.

Ranking of Energy Options

All renewable sources are favorable over conventional energy sources such as coal and natural gas; however, the U.S. Department of Energy recommends the following ranking for these options (the lower numbers are preferable):

 

Option Number	NZEB Supply-Side Options	Examples
0	Reduce site energy use through low-energy building technologies	Daylighting, high-efficiency heating, ventilation, and air-conditioning equipment (HVAC), natural ventilation, evaporative cooling
On-Site Supply Options
1	Use renewable energy sources available within the building's footprint	PV, solar hot water, and wind located on the building
2	Use renewable energy sources available at the site	PV, solar hot water, low-impact hydroelectric, and wind located on-site, but not on the building
Off-Site Supply Options
3	Use renewable energy sources available off site to generate energy on site	Biomass, wood pellets, ethanol, or biodiesel that can be imported from off site; waste streams from on-site processes that can be used on-site to generate electricity and heat
4	Purchase off-site renewable energy sources	Utility-based wind, PV, emissions credits, or other "green" purchasing options; hydroelectric is sometimes considered


This hierarchy is weighted toward renewable technologies within the building footprint and site. Rooftop PV and solar water heating are the most applicable supply-side technologies for Net Zero Energy Buildings. Other supply-side technologies such as parking lot-based wind or solar energy systems may be available.

The goal in developing the ranking was to encourage technologies that:

• Minimize overall environmental impact by encouraging energy-efficient building designs and reducing transportation and conversion losses

• Will be available over the lifetime of the building

• Are widely available and have high replication potential for future Net Zero Energy Buildings.

 

Solar Trigeneration^sm
www.SolarTrigeneration.com

Now, Your Business Can Have Our Solar Trigeneration™ 
Energy System, installed for No Up-Front Costs!

Through an affiliated partner company, we are now installing our Solar Trigeneration™ Energy Systems, for qualified commercial businesses, nationwide, with Zero up-front costs.

Some customers may even see a decrease in their energy expenses by as much as 10% to 20% with our Zero up-front cost Solar Trigeneration™ Energy System!

To qualify for our no up-front cost Solar Trigeneration Energy Systems, businesses must:

• Have a good credit rating

• Agree to buy all of the energy generated from the Solar Trigeneration™ Energy System through a 20 year Power Purchase Agreement

• Other conditions may apply, depending on location, state or utility company you are presently buying power from.

We expect ALL of our customers will be very happy knowing that the clean, green, renewable power they are using is: 

• More reliable than the electricity from the power company.

• Saving the environment by reducing Greenhouse Gas Emissions and helping reverse Climate Change and Global Warming.

• Generated from their own reliable Solar Power System on their roofs.

• Saving Money!  At today's published electric rates at Southern California Edison, TXU, Reliant and Centerpoint, most of our customers will also enjoy a SAVINGS on their present electric bills by as much as 10% from what they are now paying for their electricity from the electric utility.

• Under warranty.

• At the end of the Power Purchase Agreement, the Solar Trigeneration™ Energy System is then offered for sale to our customers, for $1.00.  And then their energy savings really start to add up as the power and electricity generated from their Solar Trigeneration™ Energy System is free!

 

Solar Trigeneration^sm is Here!
Solar Trigeneration Provides (almost) Any Building - with all of its
Cooling, Heating & Power  Requirements.  Solar Trigeneration^sm 
is also the Greenest Way to  Cool, Heat and Power your Facility - 
whether that's a Hospital, Data Center, Office Building or University Campus 

Commercial, Industrial & Utility Customers:
Reduce or COMPLETELY ELIMINATE
Your Electric Power & Natural Gas Expenses!

Stop Paying High Utility Bills to the Electric and Natural Gas Companies!  

Let us Show You How You Can 
"Cut the Cord" to the Electric Company!

Our "Solar Trigeneration^sm" Power and Energy Systems
Generate Carbon Free Energy and Pollution Free Power
Which is Sustainable, Clean, Renewable and Affordable


Solar Energy Systems provides cooler, cleaner, greener power and energy project development services.  Our Solar Energy Systems are an environmentally-friendly and economically-superior choice to expensive natural gas and electricity. Additionally, our renewable energy technologies generate "green tags" or a Renewable Energy Credit.  

We provide Solar Power and Energy systems that we refer to as "EcoGeneration" solutions that produce cooler, cleaner, greener power and energy for our customers and our environment. Unlike most companies, we are equipment supplier/vendor neutral. This means we help our clients select the best equipment for their specific application. This approach provides our customers with superior performance, decreased operating expenses and increased return on investment. 

Our company provides turn-key project solutions that include all or part of the following: 

• Engineering and Economic Feasibility Studies 

• Project Design, Engineering & Permitting

• Project Construction

• Project Funding & Financing Options

• Shared/Guaranteed Savings program with no capital requirements. 

• Project Commissioning 

• Operations & Maintenance 

• Green Tag/Renewable Energy Credit Application, and Marketing

 

Net Zero Energy Buildings^sm
www.NetZeroEnergyBuildings.com

The Audubon Nature Center Installs Solar Trigeneration  System
Making this one of the World's First "Net Zero Energy Buildings"
at Their New Facility in Los Angeles, California

GRID-FREE SOLAR ENERGY SYSTEM....
NO CONNECTION TO THE ELECTRIC UTILITY!

The Solar Trigeneration  Provides All of their Facility's (5000 sq.ft.)
Cooling, Heating and Power Requirements - at 12 noon or 12 midnite,
WITHOUT ANY CONNECTION to the Electric Utility
with our Solar Trigeneration Energy System!  


The Sun Powers the Audubon Nature Center's Solar Trigeneration  
System at Debs Park in Los Angeles. The Audubon Nature Center's 
building is one of the world's first "Net Zero Energy Buildings." 
The Solar Trigeneration System Consists of a 10 Ton "Solar 
Absorption Cooling" System Matched with a Solar Electric 
Power System and a Solar Water Heating System


By:  Monty Goodell, MBA
www.SolarTrigeneration.com
Los Angeles, California

There is now a better, more efficient, “pollution free power” and "carbon free energy" solution for cooling, heating and powering homes and commercial buildings where solar energy is available. It's called Solar Trigeneration.

Solar Trigeneration is defined as the simultaneous generation of cooling, heating and power with only the free solar energy from the sun providing the "fuel". 

Solar Trigeneration is now a reality at the Audubon Center at Debs Park several miles from downtown Los Angeles and is one of the world's first "Net Zero Energy Buildings." Net Zero Energy Buildings." Net Zero Energy Buildings."

The Audubon Nature Center is totally powered by the sun’s energy and our Solar Trigeneration energy system!

The 5,300 square foot building operates entirely “grid-free” and without any electric connections to the electric grid, or natural gas connections – a truly sustainable power and energy solution. 

Best of all, the Audubon Center doesn’t rely on the over-burdened electric grid or even natural gas.  Therefore, the Audubon Nature Center NEVER receives an electric bill or natural gas bill.... ever!

The Audubon Nature Center's 5,000 square foot office and conference facility is powered by a Solar Trigeneration system that features a 25-kilowatt solar electric power system where the energy is stored in a bank of batteries. The Center is cooled by a 10-ton solar absorption cooling system powered by an array of very efficient solar heat pipe vacuum tube thermal collectors.  The collectors heat the water to temperatures of 200+ degree F stored in a 1,200 gallon insulated tank, another type of inexpensive battery. The Solar Trigeneration system at the Audubon not only provides the air-conditioning in the summer but also heats the building in the winter, and provides the hot water for the kitchen and bathrooms. 

Absorption chillers, and cooling with solar energy with an absorption chiller are not new technologies.  In fact, absorption chiller technology is over 70 years old.  The first refrigerators were powered by propane gas to run the absorption chillers that used ammonia as a refrigerant.  Electricity and the electric compression chiller gained popularity only because of the convenient “plug and play” appliance and relatively cheap electric rates.  Electricity is no longer economically, or environmentally “cheap.”

History of Cogeneration and Trigeneration

Few people realize that the world's first commercial power plant, designed and built by Thomas Edison, was a cogeneration power plant that was first opened on Pearl Street, in Lower Manhattan, New York.  That was in 1882!  Edison not only generated, and sold electricity in the several blocks surrounding his "Pearl Street Station" but he also sold the hot water that was also generated from the cogeneration plant. The fuel Edison used for generating the electricity and hot water (cogeneration) came from "pulverized coal." The Pearl Street Station provided 110 volts of "direct current" power to 59 customers in lower Manhattan, around his Pearl Street laboratory. 

Cogeneration is the simultaneous production of heat and power. 

Trigeneration is the simultaneous production of cooling, heating and power.

Our company, in partnership with the Renewable Energy Institute and our affiliated partners, have perfected "Solar Cogeneration" and "Solar Trigeneration" which are the "heart" of our Net Zero Energy Buildings.

Unlike traditional cogeneration and trigeneration power plants that are fueled by natural gas - and Thomas Edison's cogeneration plant, which was fueled with pulverized coal, our Solar Cogeneration and Solar Trigeneration energy systems are fueled with the energy of the sun!  And, while natural gas is a "cleaner" fuel, it still has its problems in that it is a limited resource and generates greenhouse gas emissions.  Natural gas also have had extreme price swings and has a history of price volatility.  Natural gas prices have gone from a high of $17.00/mmbtu to a recent low of under $3.00/mmbtu.  

Regarding pulverized coal, yes, it's cheap in terms of the cost of generating electricity, but too many people forget about the "externalities" of pulverized coal that is not reflected in the "cheap" costs of generating electricity from pulverized coal.  These costs not accounted for are the huge environmental cost relating to the use of pulverized coal.  Pound for pound, pulverized coal and coal fired power plants generate more greenhouse gas emissions than any other fossil fuel.  There are also the costs related to the health and safety issues of the miners that mine the coal.  And, the costs to the environment in terms of the ever-increasing amounts of mercury that are "dumped" into the environment from coal fired power plants, is also not reflected in the "cheap" price of generating power from pulverized coal.

Unlike the problems inherently found with the use of fossil fuels, Solar Cogeneration and Solar Trigeneration have no such problems. 

And talk about "cheap" costs of generating power and energy, there is nothing cheaper than free!!!!  

The owners of the Audubon Nature Center never receive any monthly natural gas or electric bills!

And the owners of the Audubon Nature Center will never have to account for their greenhouse gas emissions, or comply with the ever-increasing regulations related to greenhouse gas emissions and the pending Cap and Trade laws..... thanks to our  Solar Trigeneration energy system!

Solar Trigeneration is an EcoGeneration solution.  EcoGeneration refers to a power and energy system that uses the “natural” energy or fuel that is available for a specific site or location. Such energy or fuel includes, solar, wind, BioMethane, geothermal, and ocean power, including ocean tidal and ocean thermal energy conversion. For example, in the desert areas of the Southwestern U.S. , there is an abundance of solar energy. Therefore, home-owners and business owners in this part of the country should seriously consider an EcoGeneration system (“ecogen system”) that optimizes the opportunities available through solar energy

Today, the cause of the summer peak electric demand, electric supply problems, and black-outs, are the result of the energy crisis in California, primarily attributed to the air conditioning load. Over 40 percent of the electricity generated every day goes is used for air conditioning.  At this time of year, the electric utilities are forced to turn on all of their power plants to generate the “peak” demands required by the customers, primarily for air-conditioning.  This means that all of the efficient power plants, the inefficient power plants, along with all of the “peaking” power plants have to run to generate the electricity needed. The high cost of meeting the peak demand is passed on to the consumers with rates of $.20+ per kWh during the summer months. For fixed income seniors living in desert communities, they are already forced to conserve on energy, food, water, and other necessities of life. 

Greater Demands on California’s Limited Electric Supply, Lack of New Electric Power Supplies, and This Summer’s Heat Wave are Compounding the Problem Leading to the “Perfect Electric Storm”

Many people will remember the movie “The Perfect Storm” from several years ago, when several storms came together in the northeastern part of the U.S. to produce a deadly and catastrophic “perfect” storm. Today, a different type of “perfect storm” is brewing in California. The storm that’s looming on the horizon in California is a “perfect electric storm” wherein the supply of electricity from the electric utility company’s power plants are unable to keep-up with the demand – meaning a black-out, or loss of electricity, like the black-outs from previous years, and like the northeastern black-out from 2003.

The most likely time of year for a black-out in California, unfortunately, is the summer, when air-conditioners are running at the maximum, and placing the maximum load on California’s electricity supply.  Should such a black-out occur in the desert areas of California, where daily high temperatures routinely reach 110 degrees and higher, and where a significant percentage of the population is comprised of retired and senior citizens, and should the black-out be prolonged, a number of deaths will be the likely outcome. People, and especially the elderly, simply cannot tolerate prolonged high temperatures

How Do We Prevent the “Perfect Electric Storm” from Occurring in California and Other Regions in the U.S.?

Another major concern is how do we prevent the “Perfect Electric Storm” from happening, like the Northeast Blackout several summers ago, especially for people living in the desert?  California ’s energy authorities are warning of a possible energy crisis during the hot summer months, due to the excessive and prolonged summer temperatures where demand increases by over 40 percent.  Compounding the problem is the rising demand for electricity due to population growth and the limited transmission capacity in some areas in the region.  According to the California Energy Commission, the State must build three natural gas-fired 500-megawatt peaking power plants, every year, just to keep up with the growing demands of electricity. Failure to keep up with demand means The problem is getting worse due to the population growth in the Inland Empire , Coachella Valley and Antelope Valley. The projected power gap for the coming summers remains bleak.

Governor Schwarzenegger’s “Million Solar Roofs” program and the passage of the 2005 Federal Energy Act will be the foundation to create a “Perfect Solar Storm” to trigger the Solar Economy throughout California. 

With the threat of California’s seniors and elderly dying from heat exhaustion due to power outages, black-outs, rolling black-outs and the rising costs of electricity and natural gas, combined with the continuing impact of global warming, the perfect solution is to create a Solar Revolution by cooling, heating and powering the desert with solar energy and technologies like Solar Cogeneration or Solar Trigeneration.

For more information about Solar Energy Systems, such as Solar Cogeneration or Solar Trigeneration, call/email the Renewable Energy Institute.




The Audubon Center's new Solar Trigeneration power and energy system
makes this building a "Net Zero Energy Building"

 


The Audubon's Roof showing the Solar Thermal Collectors, part of the 
Solar Trigeneration power and energy system




The heart of the Audubon's Solar Trigeneration power and energy system
provides "free heating, cooling and domestic hot water," a "net zero energy building."

 



The hot water from the Solar Thermal Collectors on the roof of the Audubon is pumped here for producing 
the building's heating, cooling and domestic hot water. Hot water is stored in the tank on the left for overnight.

________________________________________________________________________

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 "Transmission Superhighway" 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.

________________________________________________________________________

About the Renewable Energy Institute, Climate Science,
Tax-payer Subsidies for Fossil Fuel & Nuclear Industries,
Peak Oil & America's Clear and Present Danger


Monty Goodell, MBA
Founder and Chairman
Renewable Energy Institute

The Renewable Energy Institute (REI) does not take a stand in the debate on global warming, and if there is global warming, is it "anthropogenic" or is it caused by the sun, or the sun's normal cycles.  Or, if there is " climate change," is it " global cooling" caused by the water vapor in the atmosphere?

At the Renewable Energy Institute, we are waiting for the "true" scientists who doing the real research, to provide us with the science and answers critically needed to formulate correct policy - and not the phony " scientists" who are following politically-motivated and profit-driven agendas of the United Nations and government leaders. These phony scientists are not interested in conducting real scientific research.  Their very livelihoods are dependent on the government grants to fund their phony research that have pre-determined conclusions before and "research" is conducted.  

Political-interference by governments, governmental agencies, and bureaucrats that hand out billions of tax-payers dollars to phony scientists to conduct "junk science" and research,  expect the conclusions that supports anthropogenic global warming, or climate change. 

When scientists conclude in their research that they find no evidence of anthropogenic climate change or global warming, they are summarily dismissed, and black-balled from their communities and colleagues, and never again receive funding or grants.  Grants and funding by government bureaucrats with politically-driven agendas to "scientists" expecting their pre-determined results and conclusions supporting anthropogenic global warming must stop.

According to the International Energy Agency (IEA), in 2007

• the solar industry received $198 million in subsidies.

• the oil and natural gas industry collected $2.1 Billion in tax-payer subsidies.

• the coal industry coal received $3.2 Billion in tax-payer subsidies.

And since 1960:

• the nuclear industry has received nearly $70 billion in tax-payer incentives and tax-payer subsidies. 

Taxpayers have bankrolled the oil and gas industry, and the coal industry for 100 years now, and the nuclear industry for 50 years, to keep these dirty fuels and energy "cheap." Take away the tax-payer incentives and tax dollars, and we believe the real cost of gasoline, would be similar to the gasoline cost in Europe - $7.00 - $8.00/gallon!

In the meantime, our U.S. Military is spending billions of tax-payer dollars each year protecting the Straits of Hormuz where much of the world's crude oil is produced and shipped through the straits' international shipping lanes.  Each day, hundreds of "very large crude carriers" pass through the Straits of Hormuz carrying oil from OPEC and the Middle-East to the U.S. and many other countries. 

Isn't it time we take some of the tax-payer dollars supporting the nuclear, coal and oil and gas industries, and start incentivizing clean, renewable energy technologies that don't pollute or harm the environment in any way?  Isn't it time that America ends its reliance on non-sustainable energy sources and stop over $1 billion every day, to oil suppliers from foreign countries, and start putting this money in "solar on every rooftop?!?

Mercury Emissions from Coal Fired Power Plants Far More Harmful to the Planet and People than Greenhouse Gas Emissions

Regarding the harm being caused to our planet from energy use, far more harm is being done to the planet, as well as to people and plants and animals, particularly fish, from the mercury emissions from coal fired power plants than from the coal fired power plants' greenhouse gas emissions.  We surmise that if any polar bears have died as a result of an environmental problem, it was more likely from the high levels of mercury in their food chain, than from greenhouse gas emissions. 

The Renewable Energy Institute is supporting and advancing renewable energy technologies, as well as reducing and eliminating greenhouse gas emissions and the fossil-fuel problems related to America's oil addiction and ending our dependence on foreign oil.  The renewable energy technologies we support are already deemed to be economic, viable and practical. Solutions such as Solar Trigeneration energy systems (see www.SolarTrigeneration.com for more information) for any kind of facility or building - office buildings, shopping centers, data centers, university campuses, etc. 

Since 2003, a Solar Trigeneration energy system has been providing 100% of the power and energy for a 5,300 sq. ft. office building near downtown Los Angeles, and doing so without any connection to the electric grid, whether its 12 noon or 12 midnite!  

The Renewable Energy Institute is also involved in research and advocacy of "Net Zero Energy" (see: www.NetZeroEnergy.com for more information) and "Net Zero Energy Buildings" (see:  www.NetZeroEnergyBuildings.com for more information).  Net Zero Energy Buildings generate as much (or more) energy than they use, and export their excess power to the grid, which we believe needs to be updated into a "Transmission Superhighway."

Climate Change, Global Warming or Global Cooling?

The past 10 years indicates the opposite of "global warming" has occurred - that the "Earths Fever" has and that global cooling has taken place. 

Weather, on a daily basis, or even an annual basis, is not climate, and climate is not weather. 

"Climate change" is always taking place, from one day to the next, and one week to the next, as well as one year to the next. The planet's climate is an ever-evolving, changing and dynamic process.  

Again, researchers and scientists need to refrain from being political, and stay out of politics, and politicians need to stay out of the way of the scientists and researchers, and let them do their work.  Politicians, government leaders and bureaucrats scientists need true and accurate data and climate research from scientists that do not have a political agenda.

In the meantime, as there may still be 30 years of research before there are conclusive answers concerning anthropogenic climate change, can we "risk" 30 years of our children and grand children's future, should there is a link between climate change and greenhouse gas emissions?  Should we not err on the side of caution?

Hubbert's Peak Oil Predictions Now Proving True?

Marion King Hubbert was a geologist and scientist who worked at Shell Oil company's research lab in Houston, Texas.  Hubbert made several important contributions to geology, geophysics and petroleum geology.  Hubbert is most recognized for the "Hubbert Curve" and " Hubbert Peak Theory" which is now referred to as " Peak Oil. 

Hubbert's life work determined that the world has a finite amount of petroleum that can be produced.  (Similarly, there is a finite amount of coal.) Many scientists and engineers believe we have reached Hubbert's "peak oil" limit.  Hubbert's espouses that when 50% of domestic crude oil production has been reached, that there will be such significant upward demand on prices of the limited supplies of oil production, that the U.S. economy will experience severe economic, social, and political turmoil.

Hubbert's Peak Oil predictions have proven to be true and this is validated as the U.S. in the early 1970's produced about 60% of its' oil demand and imported 40%.  That equation has flipped since then, because our domestic oil production has been on the decline since 1970, so now, due to our declining domestic oil production, we have to import 60% of our oil supplies, to meet our country's oil/energy demands.

The Next Oil Shock Could be the "mother" of All Oil Shocks

How severe our economic calamity and next "oil shock" will depend upon a number of factors, including when this occurs, as well as the following:

1.  the dependence of the individual country upon its own crude oil production to meet its energy needs and to subsidize consumer imports; 

2.  the rate of relative decline in crude oil production; 

3.  the degree of difficulty encountered in replacing missing energy inputs; 

4.  the degree to which our country had prepared in advance for this inevitable geological and economic calamity.

Examples of past "oil shocks" and the economic and political calamities that followed:

United States: Our peak crude oil production of domestic oil occurred in 1970; the first "oil shock" and oil crisis followed in 1973 with the Arab/OPEC Oil Embargo.

Iran: Their peak crude oil production occurred in 1974; They had their islamic revolution 1979 that overturned government and replaced it with radical islam.

Soviet Union: Their peak crude oil production was in 1989; what happened next? 
Their country disintegrated and the collapse of the Soviet Union followed in 1991. 

Indonesia: Their peak crude oil production was in 1991; their financial and government crisis followed in 1997.

Iraq: Iraq's crude oil production was in 1989; they then invaded Kuwait (for their oil) in 1991.

Using Mr. Hubbert's predictions, that beginning around 2000  we would see peak (global) oil production, then, if the country's not weaning themselves off of their oil addiction, and had not begun making the switch to renewable energy, that the negative economic and political calamities would soon follow, including ever-increasing prices of energy that is from fossil fuels. 

Now is the time to begin weaning ourselves off of fossil fuels and making the transition to and increasing the use of renewable energy. If you don't believe in climate change, or global warming, GREAT! Join us in the switch to renewable energy and a fossil-free economy!


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, Every Day, the U.S.:

PRODUCES:      7,460,000 bbls of oil (within its borders)

CONSUMES:   20,800,000 bbls of oil


This Means that 65% of America's Energy Supplies are Now Imported from Suppliers from Foreign Countries.  

Simply put, about 65% of the gasoline in your car's gas tank, comes from a foreign country.

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


At $80/barrel of oil, this also means that $1,040,000,000.00 American Dollars leave our country, EVERY DAY, to foreign countries/suppliers of our fossil fuels, to pay for the energy we need. 


That's $1 Billion EVERY day leaving our economy, and going to support a foreign country's economy. 


Talk about our foreign trade deficit..... nearly $400 Billion each year, leaves our country to pay for our oil addiction and the energy we need.  To be exact, that's $379,600,000,000.00 American Dollars.

This is NOT acceptable.

America needs to quickly transition to Energy Independence. 

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," Monty Goodell continues, " 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."   



 

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

Our following EcoGeneration technologies, including; 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.

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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 pollution from 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 Create Pollution Free Power, Carbon Free Energy & Renewable Energy Technologies."

 







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