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Slide Notes

MicroTurbines Latin America. MicroTurbines Mexico. MicroTurbines Panama. MicroTurbines Dominican Republic. MicroTurbines Miami Florida. MicroTurbines Colombia. MicroTurbines Venezuela. MicroTurbines Bolivia. MicroTurbines Peru. MicroTurbines Chile. MicroTurbines Uruguay. MicroTurbines Argentina. MicroTurbines Paraguay. MicroTurbines Trinidad & Tobago. MicroTurbines Ecuador.
MicroTurbinas Mexico. MicroTurbinas Colombia. MicroTurbinas Panama. MicroTurbinas Republica Dominicana. MicroTurbinas Trinidad & Tobago. MicroTurbinas Venezuela. MicroTurbinas Peru. MicroTurbinas Ecuador. MicroTurbinas Chile. MicroTurbinas Argentina. MicroTurbinas Uruguay. MicroTurbinas Paraguay.
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microturbinas america latina

Published on Nov 26, 2015

MicroTurbinas Latino America. MicroTurbines Latin America.

PRESENTATION OUTLINE

microturbinas america latina

MicroTurbines Latin America
MicroTurbines Latin America. MicroTurbines Mexico. MicroTurbines Panama. MicroTurbines Dominican Republic. MicroTurbines Miami Florida. MicroTurbines Colombia. MicroTurbines Venezuela. MicroTurbines Bolivia. MicroTurbines Peru. MicroTurbines Chile. MicroTurbines Uruguay. MicroTurbines Argentina. MicroTurbines Paraguay. MicroTurbines Trinidad & Tobago. MicroTurbines Ecuador.
MicroTurbinas Mexico. MicroTurbinas Colombia. MicroTurbinas Panama. MicroTurbinas Republica Dominicana. MicroTurbinas Trinidad & Tobago. MicroTurbinas Venezuela. MicroTurbinas Peru. MicroTurbinas Ecuador. MicroTurbinas Chile. MicroTurbinas Argentina. MicroTurbinas Uruguay. MicroTurbinas Paraguay.

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Gas MicroTurbines Turnkey Installations for Electricity Generation, Transmission and Distribution.

• High system efficiency
• Grid-parallel, grid-isolated, or dual-mode
• Low emissions exceed stringent environmental standards
• Product design life of 80,000 hours with overhaul
• Integrated, variable-output, waste-heat recovery unit available
• Over one million hours of fleet operating experience

MicroTurbine Components

microturbine energy balace

MicroTurbine Energy Balance

The high quality, continuous heat from the microturbine exhaust can heat water; drive a thermal device, such as an absorption chiller or dessicant wheel; or be used directly in applications like drying. This avoids fuel costs for other facility equipment.

microturbine cogeneration system

Water Reclamation Plant
Digesters produce approximately 140 cubic feet per minute (cfm) of gas containing 55% methane.

Prior to installation of the microturbine, 90% of this gas was flared and 10% was used in a boiler to provide process heat for the digesters.

Approximately 64% of the available digester gas is consumed by the microturbine.

MicroTurbine Operating in parallel with Grid

While generating electricity for base-load requirements, a microturbine can operate in parallel with the utility grid, or operate independently when and where grid power is not available.

MicroTurbine Engine Cycle

Range of MicroTurbine Fuel Gases

Although pipeline quality natural gas is widely used as a fuel, our microturbine accepts gaseous fuels from a diverse range of sources. The versatility of the microturbine's fuel combustion technology allows us to offer microturbine models that cleanly and efficiently consume fuels within a broad spectrum of caloric values, including those with too low an energy content for other technologies to accept.

Acceptable fuel sources can span many different kinds of processes. For example, the methane gas produced from anaerobic digestion can be produced by landfills, solids reduction processes at waste water treatment plants, waste reduction digesters in food processing plants, and digesters using waste from agricultural operations.
Processes that create synthetic gases from biomass feedstock often produce a fuel-quality gas that can be used by the microturbine. Processes such as slow pyrolysis can produce output mixtures that are typically composed of combustible gases such as hydrocarbons and hydrogen along with inert gases.
Acceptable hydrocarbon fuels can result from many operations along the oil/gas recovery stream. "Raw" gases associated with upstream recovery operations can often be conditioned for direct use with a microturbine. Hydrocarbon constituents with carbon numbers above methane can be accepted as long as sufficient dewpoint supression can be maintained. Overhead vapors from downstream processing with significant ethane and propane content represent good opportunity fuel gases.

associated petroleum gas microturbines power generation

Electricity from Flare Gas MicroTurbines
Generating Electricity from Flare Gas
By using flare gas to generate electricity and reduce the harmful hydrocarbons produced by flaring, microturbines offer producers some of the cleanest combustion technology available to reduce greenhouse gas emissions and eliminate potentially harmful flaring.

On-site electricity-generating system with an integrated fuel conditioning developed specially for associated-gas applications. This system converts these associated gases into an acceptable fuel that enables the microturbine to not only generate continuous power, but also to reduce energy costs and lower greenhouse emissions significantly.

Associated and Natural Gas MicroTurbines

Offshore fields can use microturbines to power electric submersible pumps and other platform loads. Microturbines can also replace the high maintenance and potential safety issues associated with diesel or gas-fired reciprocating engines.

Gases associated with oil and gas recovery can provide all the electricity needed to run process equipment in a prime power application.

When connected to a utility grid, associated gases offset energy costs and reduce exposure to utility rate increases. Heat recovered from the microturbine can also offset energy costs in processes requiring heat.

On-site microturbine energy systems help oil producers gain community acceptance by accomplishing desirable emission objectives, while simultaneously producing economical, price-stable electric power and useful thermal energy.

flare reduction at lng processing plant

Flare Gas MicroTurbine Power Generation

microturbines in oil&gas operations

MicroTurbinas en aplicaciones de Petroleo y Gas
Microturbines can power local loads that are isolated from utility sources of power. This can enable remote sites, special equipment, or facilities that cannot get sufficient utility power.

When the cost of a fuel such as natural gas is lower or "free" compared to the cost of electricity, the microturbine can generate electricity on-site to avoid buying expensive utility grid power.

microturbine outdoor weatherproof enclosure

MicroTurbinas en Shelters/ Contenedores

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MicroTurbine Energy Systems Latin America. MicroTurbine Energy Systems Miami Florida. MicroTurbine Mexico. MicroTurbine Energy Systems Panama. MicroTurbine Energy Systems Trinidad & Tobago. MicroTurbine Energy Systems Canada. MicroTurbine Energy Systems Venezuela. MicroTurbine Energy Systems Colombia. MicroTurbine Energy Systems Bolivia. MicroTurbine Energy Systems Peru. MicroTurbine Energy Systems Ecuador. MicroTurbine Energy Systems Chile. MicroTurbine Energy Systems Argentina. MicroTurbine Energy Systems Uruguay. MicroTurbine Energy Systems Australia. MicroTurbine Energy Systems Spain. MicroTurbine Energy Systems Italy.

microturbine running on landfill gas

Gas conditioning, including:
•H2S removal
•Moisture removal

Thermal Oxidizer

MicroTurbines Systems for Low BTU Fuels

waste gas microturbine power generation systems

The microturbine can use renewable "waste" fuels with a wide range of energy content, including landfill gases, digester gases and even gases that include significant hydrogen content.

Landfills continue to face increasingly tough waste gas venting regulations. The same collection system that flares and wastes landfill gas can fuel a microturbine that generates renewable energy and dramatically reduces greenhouse emissions.

Biogas produced by digesters for wastewater treatment plants, food waste processes or agricultural waste digestion makes an excellent fuel for the micro turbine.

The microturbine produces both electricity and hot water to warm the digestor for optimum operation.

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microturbines for industrial and commercial consumers

Combined Heat and Power (CHP) MicroTurbines
Commercial and industrial energy consumers can generate their own clean and reliable power on-site. This trend to small, independent and economical combined heat and power (CHP) microturbines provides greater control over power and heat supply.

Microturbines reduce expensive utility-grid power consumption by providing electricity for baseload requirements, plus recovered heat to offset the energy needed for thermal loads. Microturbine heat can reduce or replace the fuel needed by a domestic hot water boiler, heat the water provided by a furnace or fire an absorption chiller.

The microturbine exhaust heat can also be used directly to regenerate the desiccant wheel of a dehumidifier or in hot air drying applications.

combined heat & power microturbine applications

Cogeneracion a partir de Gas Metano

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energy electrical integrators corp

Energy Electrical Integrators Corp.
1000 Brickell Avenue Suite 705
Miami, Fl 33131 USA


Renso Piovesan
renso.piovesan@eeicorp.us
mobile: +58-424-2671288
Caracas - Venezuela

Electrical EPC Solutions.
Main Electrical Contractor Latin America.
TurnKey Electrical Solutions Latin America
Soluciones Electricas Llave en Mano America Latina.

Soluciones Integrales en Proyectos Electricos de Generacion, Transmision y Distribucion de Energia en America Latina. Electrical Engineering Procurement and Construction. Proyectos Electricos Llave en Mano. Subestaciones Electricas Fijas, Subestaciones Electricas Moviles, Subestaciones GIS, Transformadores, Transformadores de Potencia, Switchgear de Baja Media y Alta Tension, Switchgear en baja, media y alta tension (hasta 500 kV) aisladas en aire (AIS) o en SF6 (GIS), Ductos de Barra, Centro de Control de Motores, Centro de Control de Motores Inteligentes, Unidades de Generacion Fijas, Unidades de Generacion Moviles, Generadores Diesel, Generadores a Gas, Barras de Distribucion Electrica, Interruptores de Potencia, Variadores de Velocidades, Energia Solar, Energia Eolica, Biomasa, Energias Alternativas, Automatizacion de Plantas, Elaboracion de Proyectos de Ingenieria en las areas de distribucion y transmision de potencia electrica.