Heat Recovery Boiler
www.HeatRecoveryBoiler.com

Waste Heat Recovery, Waste Heat Boilers, Heat Recovery Boilers,
Waste Heat Recovery Boilers, Heat Recovery Steam Generators,
Cogeneration & Trigeneration Plants and
Engineering, Consulting and Solutions Provided on a Vendor-neutral Basis

Specializing in Renewable Energy Technologies 
& Reducing Greenhouse Gas Emissions:

                                         Anaerobic Digesters                        Biodiesel Plants
                                         Biogas Plants                                    Biomass Gasification
                                         Biomethane                                       Carbon Free Energy
                                         Cogeneration                                    Concentrating Solar Power
                                         Demand Side Management           Geothermal Heating & Cooling
                                         Ground Source Heat Pumps          Hydrogen Fuel Cells
                                         Molten Carbonate Fuel Cells         Natural Wastewater Treatment
                                         Phosphoric Acid Fuel Cells            Pollution Free Power
                                         Solar Cogeneration                          Solar Trigeneration
                                         Synthesis Gas                                    Thin Film Photovoltaics
                                         Trigeneration                                     Waste Heat Recovery
                                         Waste To Energy                               Waste to Fuel
                                         Water Source Heat Pumps               Wind Power Generation

Engineering, Feasibility Studies & Consulting Services
Provided by In-house Engineers and Consultants or 
Through the Renewable Energy Institute

 

Equity positions now available for qualified joint venture partners 
in multiple cogeneration, trigeneration, waste heat recovery and renewable energy projects. For more information, contact Renewable Energy Investments:

Tel.  (512) 772 – 3500

Email:  info@RenewableEnergyInvestments.com

 


 

For Inquiries about Waste Heat Boilers, Waste heat Recovery Boilers, Cogeneration, Trigeneration, Renewable Energy Engineering,
or Renewable Energy Project Development, call or email us:

Tel.  (88329) 758 -10027

Email:  info@HeatRecoveryBoiler.com

 

 

 

 

 






____________________________________________________________________________________

EPA Moves Closer To Regulating Greenhouse Gas Emissions

April 18, 2009
By: Webmaster 
www.GreenhouseGasEmissions.com

WASHINGTON — In a major reversal of years of government policy regarding Greenhouse Gas Emissions, the Environmental Protection Agency today proposed regulating Greenhouse Gas Emissions to combat and reverse global warming and climate change.

"In both magnitude and probability, climate change is an enormous problem" said E.P.A's Administrator Lisa Jackson in their 130 page report on Greenhouse Gas Emissions. She found that projected levels of Greenhouse Gas Emissions "endanger the public health and welfare of current and future generations."

The finding came two years after the Supreme Court ruled the EPA had the authority to regulate Greenhouse Gas Emissions under the Clean Air Act.

"Renewable Energy Technologies such as; Anaerobic Digesters, Biomethane, Concentrating Solar Power, Geothermal Power Plants are "carbon neutral energy" technologies, and generate no new Greenhouse Gas Emissions.  Power generated from Biomass Gasification power plants, are "carbon negative energy" solutions which actually remove carbon dioxide emissions from the atmosphere, according to the Founder and Chairman of the Institute for Climate Solutions, and the Renewable Energy Institute's Mont Goodell. 

For more information, see the Greenhouse Gas Emissions website at:  www.GreenhouseGasEmissions.com

 

____________________________________________________________________________________

Heat Recovery Boiler

What is a Heat Recovery Boiler?

A heat recovery boiler make it possible to produce steam, hot water or hot thermal oil from the combustion gas or exhaust stacks from diesel engines, gas turbines (cogeneration), industrial boilers, industrial furnaces or incinerators.

What is a "Waste Heat Boiler"?

A waste heat boiler is a special type of boiler that generates steam by removing the heat from a process that would have otherwise been wasted. 

Waste heat boilers are therefore able to provide significant reductions in fuel and energy expenses, as well as reduce greenhouse gas emissions.

What is a "Waste Heat Recovery Boiler"?

A waste heat recovery boiler is, essentially, a boiler without any energy input. Waste heat recovery boilers are usually placed on top of a heat source or stack. Inside the waste heat recovery boiler is a series of tubes that has water inside, that is continuously circulated. The "wasted heat" is recovered on the hot side, and transferred to the water inside the tubes of the waste heat recovery boiler, and then steam is generated to power a steam turbine generator, which then generates power. 

For more information on waste heat recovery, please see our website at:  www.WasteHeatRecovery.com

We provide waste heat boilers and related engineering design services. 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 also offers other energy-saving technologies including; absorption chillers, adsorption chillers, cogeneration, heat recovery steam generators, power boilers, trigeneration power and energy systems, Demand Side Management, Energy Conservation Measures, Waste Heat Recovery and Waste Heat Recovery Boilers

Cooler, Cleaner, Greener Power & Energy Solutions project development services are one of our many specialties. These projects are Kyoto Protocol compliant and generate clean energy and significantly fewer greenhouse gas emissions. 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. 

Products and services provided by us includes 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

For more information: call us at: 832-758-0027

Waste heat boilers may be horizontal or vertical shell boilers or water tube boilers. They would be designed to suit individual applications ranging through gases from furnaces, incinerators, gas turbines and diesel exhausts. 

The prime requirement is that the waste gases must contain sufficient usable heat to produce steam or hot water at the condition required. Waste-heat boilers may be designed for either radiant or convective heat sources. 

In some cases, problems may arise due to the source of waste heat, and due consideration must be taken of this, with examples being plastic content in waste being burned in incinerators, carry-over from some type of furnaces causing strongly bonded deposits and carbon from heavy oil fired engines. 

Some may be dealt with by maintaining gas-exit temperatures at a predetermined level to prevent dew point being reached and others by soot blowing. Currently, there is a strong interest in small combined heat and power (CHP) stations, and these will normally incorporate a waste-heat boiler.

Boiler Economizers

A boiler economizer is a device that reduces the overall fuel requirements a boiler requires which results in reduced fuel costs as well as fewer emissions - since the boiler now operates at a much higher efficiency.  Boiler economizers recover the "waste heat" from the boiler's hot stack gas from transfers this waste heat to the boiler's feed-water. Because the boiler feed-water is now at a higher temperature that it would have been without a boiler economizer, the boiler does not need to provide as much additional heating to produce the  steam requirements of a facility or process, thereby using less fuel and reducing the fuel expenses. Boiler economizers also help improve a boiler's efficiency by extracting heat from the flue gases discharged from the final super-heater section of a radiant/reheat unit or the evaporative bank of a non-reheat boiler. Heat is transferred, again, back to the boiler feed-water, which enters at a much lower temperature than saturated steam. 

Boiler Economizers are a series of horizontal tubular elements and can be characterized as bare tube and extended surface types. The bare tube includes varying sizes which can be arranged to form hairpin or multi-loop elements. Tubing forming the heating surface is generally made from low-carbon steel. Because steel is subject to corrosion in the presence of even low concentrations of oxygen, water must be practically 100 percent oxygen free. In central stations and other large plants it is common to use deaerators for oxygen removal. 

Waste Heat Recovery

For more information, see ou website at:  www.WasteHeatRecovery.com

Many industrial processes generate large amounts of waste energy that simply pass out of plant stacks and into the atmosphere or are otherwise lost. Most industrial waste heat streams are liquid, gaseous, or a combination of the two and have temperatures from slightly above ambient to over 2000 degrees F. Stack exhaust losses are inherent in all fuel-fired processes and increase with the exhaust temperature and the amount of excess air the exhaust contains. At stack gas temperatures greater than 1000 degrees F, the heat going up the stack is likely to be the single biggest loss in the process. Above 1800 degrees F, stack losses will consume at least half of the total fuel input to the process. Yet, the energy that is recovered from waste heat streams could displace part or all of the energy input needs for a unit operation within a plant. Therefore, waste heat recovery offers a great opportunity to productively use this energy, reducing overall plant energy consumption and greenhouse gas emissions. 

Waste heat recovery methods used with industrial process heating operations intercept the waste gases before they leave the process, extract some of the heat they contain, and recycle that heat back to the process. 

Common methods of recovering heat include direct heat recovery to the process, recuperators/regenerators, and waste heat boilers. Unfortunately, the economic benefits of waste heat recovery do not justify the cost of these systems in every application. For example, heat recovery from lower temperature waste streams (e.g., hot water or low-temperature flue gas) is thermodynamically limited. Equipment fouling, occurring during the handling of “dirty” waste streams, is another barrier to more widespread use of heat recovery systems. Innovative, affordable waste heat recovery methods that are ultra-efficient, are applicable to low-temperature streams, or are suitable for use with corrosive or “dirty” wastes could expand the number of viable applications of waste heat recovery, as well as improve the performance of existing applications. 

Various Methods for Recovery of Waste Heat

Low-Temperature Waste Heat Recovery Methods – A large amount of energy in the form of medium- to low-temperature gases or low-temperature liquids (less than about 250 degrees F) is released from process heating equipment, and much of this energy is wasted. 

Conversion of Low Temperature Exhaust Waste Heat – making efficient use of the low temperature waste heat generated by prime movers such as micro-turbines, IC engines, fuel cells and other electricity producing technologies. The energy content of the waste heat must be high enough to be able to operate equipment found in cogeneration and trigeneration power and energy systems such as absorption chillers, refrigeration applications, heat amplifiers, dehumidifiers, heat pumps for hot water, turbine inlet air cooling and other similar devices. 

Conversion of Low Temperature Waste Heat into Power –The steam-Rankine cycle is the principle method used for producing electric power from high temperature fluid streams. For the conversion of low temperature heat into power, the steam-Rankine cycle may be a possibility, along with other known power cycles, such as the organic-Rankine cycle. 

Small to Medium Air-Cooled Commercial Chillers – All existing commercial chillers, whether using waste heat, steam or natural gas, are water-cooled (i.e., they must be connected to cooling towers which evaporate water into the atmosphere to aid in cooling). This requirement generally limits the market to large commercial-sized units (150 tons or larger), because of the maintenance requirements for the cooling towers. Additionally, such units consume water for cooling, limiting their application in arid regions of the U.S. No suitable small-to-medium size (15 tons to 200 tons) air-cooled absorption chillers are commercially available for these U.S. climates. A small number of prototype air-cooled absorption chillers have been developed in Japan, but they use “hardware” technology that is not suited to the hotter temperatures experienced in most locations in the United States. Although developed to work with natural gas firing, these prototype air-cooled absorption chillers would also be suited to use waste heat as the fuel. 
Recovery of Waste Heat in Cogeneration and Trigeneration Power Plants

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 us at: 832-758-0027 

* From the Department of Energy website with permission

 




Trigeneration Technologies, LLC. is a privately held company that was founded by two of the board members of the Renewable Energy Institute. 

Our specialty is trigeneration. We  manufacture, sell and install trigeneration power plants that approach 100% net system efficiency. This means our trigeneration power plants provide nearly 100% of the power and energy from 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.  

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 power plants 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 power plants 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.  We 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 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 power plants 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 (832) 758 - 0027 for more information about community-based cogeneration and trigeneration power plants, or about making your community, hospital, university or other commercial facility a model for the future.

We presently contract the packaging of our new trigeneration power plants by a 3rd party/supplier but plan to build a new trigeneration manufacturing plant - near Houston, Texas where we will be able to significantly increase our trigeneration power plant production.

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 power plants 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 starts at $600,000 for a 200 kW trigeneration system. 

All of our trigeneration power plants can produce 20 - 42 degree F. chilled water, 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%.

Read more about our Trigeneration Power Plants on our Specifications page.

Not sure what size trigeneration power plant to order or whether trigeneration is right for your business?

We can help!

Not sure what size trigeneration power plant to order or whether trigeneration is right for your business?

We can help as we offer three types of Trigeneration Feasibility Reviews & Studies!

Our Trigeneration Feasibility will help you make a decision whether one of our trigeneration power plants are right for your facility.


Trigeneration Feasibility Study and Analysis

Provides a solid basis for moving a potential renewable energy 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. 

Generally, a trigeneration feasibility study a good option for clients considering trigeneration that need a trigeneration energy system that is over 1.0 MW and up to about 3.0 MW.

The time required to complete the study is about 90 to 120 days, on average. 

The final study we deliver is usually the basis for the customer to obtain a loan, power purchase agreement, energy services agreement or placing an order with us.

To start a Trigeneration Preliminary Study and Analysis, we require a 50% cash payment of the study cost plus a refundable deposit for our reimbursable expenses.


Trigeneration Detailed Concept, Engineering and Design Analysis

The detailed engineering design is a good option for clients that would need a trigeneration energy system with an estimated Trigeneration energy system over 3.0 MW and above. In a detailed engineering design, the trigeneration energy system is conceived, designed and engineered as a custom fit and optimized energy solution for your specific facility. 

Final result is usually ready for a company to start construction. A detailed engineering design can take from 4 months to 6 months to complete. The fee will generally run as a percentage of the total installed cost of the trigeneration energy system, and generally costs anywhere from 5% to 15% of the overall cost of the project.

To start a detailed trigeneration engineering design, we require a 50% cash payment of the total fee plus a refundable deposit for our reimbursable expenses.

Our trigeneration feasibility studies and engineering design are led by our licensed engineers.  Our goal is to help you determine whether your renewable energy is viable, identify the merits of your proposed renewable energy project, identify weak points, provide our recommended course of action, as well as our recommendations for products and equipment that need further review or consideration.  Our Feasibility Studies are an excellent "foundation" for building your next renewable energy project.

If you order your new trigeneration power plant from us within 30 days of the date of delivery of our Trigeneration Feasibility Review or Study, we will reduce the cost of your new trigeneration power plant by half the cost of the study and apply the fee to the purchase.

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. 

This is possible through our trigeneration power plants that surpass 90% system efficiency for our clients that need cooling, heating and power - which covers about 99% of all commercial buildings and companies.

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 power plants' net system's efficiencies surpass any potential competitor.  We guarantee our standard trigeneration power plants will exceed 90% 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.


 "The Trigeneration Experts" - the ONLY Company that Builds Integrated Trigeneration Plants on a Single Skid with Effective System Efficiencies that Exceed 90%.  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 Can Design, Build, and Install Your New Trigeneration Power Plant and have it online in less than 130 - 150 days!


Our "Turnkey" Integrated Trigeneration Energy Systems are Available from 60 kW to over 10 MW with system efficiencies > 90% While Providing Practically-free Heating (and Cooling with Trigeneration) and generating power for commercial and industrial customers for as low as 4 cents/kW!  We are the only company that builds, fabricates, packages (on a single skid) and "integrates" Trigeneration power plants.

Standard Trigeneration Power Plants sizes in kW:

                          200 kW                    450 kW                   750 kW          
                          250 kW                    500 kW                   800 kW
                          300 kW                    600 kW                   850 kW
                          400 kW                    700 kW                   900 kW

Standard Cogeneration and Trigeneration Power Plants sizes in MW:

           1 MW          2 MW          3 MW          4 MW          5 MW

Read more about our Trigeneration Power Plants on our Specifications page.

 

NOTE:  We will NOT use the following: 

Capstone microturbines
Daewoo engines
Kawasaki turbines 
Guascor engines 

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 Trigeneration 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 or Trigeneration power plants, call (832) 758 - 0027 or send an email with your project's requirements to:  info@trigeneration.com

Read more about our Trigeneration Power Plants on our Specifications page.

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%

Pictures of our latest 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.

    

   

 

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

For pricing and delivery information on our Cogeneration or Trigeneration power plants, call (832) 758 - 0027 or send an email with your goals, objectives and requirements to:  info@trigeneration.com


We would be interested in meeting with potential joint venture partners who are as committed and passionate as we are about making a difference in the world by assisting us with the capital we need to begin mass-producing our +/- 90% efficient trigeneration power plants which will soon be located on the roof (or next to the building) of every commercial business - such as restaurants, office buildings, supermarkets/grocery stores, hospitals, casinos, universities, dairies, data centers and server farms.

Equity positions now available for qualified joint venture partners in multiple trigeneration projects we are seeking to develop with leading Fortune 1000 companies.  Our joint venture equity partners will assist us with manufacturing our cogeneration or trigeneration plants and start installing them on the roof-tops or next to our customer's facilities - pending orders from hospitals and restaurants who have agreed to purchase all of our energy generated from our trigeneration plants through our Energy Services Agreement (similar to a Power Purchase Agreement except in the case of an Energy Services Agreement, we also sell the hot water/steam and chilled water, in addition to the electricity our trigeneration plants generate).

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.

Prospective joint venture partners are invited to send an introductory email regarding your interests in renewable energy along with your financial abilities and expectations to:  info@Trigeneration.com

____________________________________________________________________________________


EPA Moves Closer To Regulating Greenhouse Gas Emissions


April 18, 2009
By: Webmaster 
www.CarbonDioxideEmissions.com
www.CarbonEmissions.com
www.GreenhouseGasEmissions.com


WASHINGTON — In a major reversal of years of government policy regarding Greenhouse Gas Emissions, the Environmental Protection Agency today proposed regulating Greenhouse Gas Emissions to combat and reverse global warming and climate change.

"In both magnitude and probability, climate change is an enormous problem" said E.P.A's Administrator Lisa Jackson in their 130 page report on Greenhouse Gas Emissions. "This finding confirms that greenhouse gas pollution is a serious problem now and for future generations. Fortunately, it follows [US President Barack H. Obama's] call for a low-carbon economy and strong leadership in Congress on clean energy and climate legislation. Greenhouse Gas Emissions and greenhouse gas pollution problems have a solution, one that will create millions of green jobs and end our country's dependence on foreign oil," according to Jackson. 

Jackson said this report found that projected levels of Greenhouse Gas Emissions "endanger the public health and welfare of current and future generations."  The finding came two years after the Supreme Court ruled the EPA had the authority to regulate Greenhouse Gas Emissions under the Clean Air Act.

"Renewable Energy Technologies such as; Anaerobic Digesters, Biomethane, Concentrating Solar Power, Geothermal Power Plants are "carbon neutral energy" technologies, and generate no new Greenhouse Gas Emissions.  Power generated from Biomass Gasification power plants, are "carbon negative energy" solutions which actually remove carbon dioxide emissions from the atmosphere, according to the Founder and Chairman of the Institute for Climate Solutions, and the Renewable Energy Institute's Mont Goodell. 

For more information, see the Greenhouse Gas Emissions website at:  www.GreenhouseGasEmissions.com

____________________________________________________________________________________

President-elect Obama has pledged to significantly reduce Greenhouse Gas Emissions

The price tag for reducing Greenhouse Gas Emissions ranges from a low of $150 billion to a high of over $1 Trillion/year, every year, for the next 20 years, plus an additional $9.3 Trillion according to the article “Is Obama’s Energy Plan Enough?” by Time Magazine (Nov. 22, 2008) 

http://www.time.com/time/health/article/0,8599,1859040,00.html?imw=Y 

In the third to last paragraph of this article, it states, “And if we want to increase the share of renewables — and control the growth of greenhouse gas emissions — we'll need to spend an additional $9.3 trillion, if we're aiming to stay below the 2 degree C warming max recommended by the Intergovernmental Panel on Climate Change. (Of course, an increasing number of scientists argue that we need to avoid even that level of warming.) "We would need concerted action from all major emitters," said Nabuo Tanaka, the head of the IEA. 

The United Nations has stated that “the market for Greenhouse Gas Emissions Credits will be valued at $2 Trillion by 2012.”

____________________________________________________________________________________

 

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 Does Energy by Providing Research & Development, Funding and Resources That Create Pollution Free Power, Carbon Free Energy & Renewable Energy Technologies"

Renewable Energy Institute


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