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Founded Year

2003

Stage

Other Investors | Dead

About AEI

AEI aims to provide a vital platform for growth through its role in owning, operating and developing essential energy infrastructure for the world's emerging markets.

Headquarters Location

1221 Lamar Street Suite 800

Houston, Texas, 77010,

United States

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AEI Patents

AEI has filed 5 patents.

The 3 most popular patent topics include:

  • Copolymers
  • Polymer chemistry
  • Polymers
patents chart

Application Date

Grant Date

Title

Related Topics

Status

8/3/2016

3/14/2023

Polymers, Thermoplastics, Alkenes, Polyolefins, Commodity chemicals

Grant

Application Date

8/3/2016

Grant Date

3/14/2023

Title

Related Topics

Polymers, Thermoplastics, Alkenes, Polyolefins, Commodity chemicals

Status

Grant

AEI Frequently Asked Questions (FAQ)

  • When was AEI founded?

    AEI was founded in 2003.

  • Where is AEI's headquarters?

    AEI's headquarters is located at 1221 Lamar Street, Houston.

  • What is AEI's latest funding round?

    AEI's latest funding round is Other Investors.

  • Who are the investors of AEI?

    Investors of AEI include Eton Park Capital Management, D. E. Shaw Group, GIC and Ashmore Investment Management.

  • Who are AEI's competitors?

    Competitors of AEI include Advanced Power, PowerLight Technologies, Energy Future Holdings, Lawrenceville Plasma Physics, US Power Generating Company and 9 more.

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Compare AEI to Competitors

A
Advanced Power

Advanced Power is a privately owned, global developer, manager, and owner of modern power infrastructure. As an independent power producer, the company develops low-carbon and renewable electric-generating projects in North America and Europe. It was founded in 2000 and is based in Zug, Switzerland.

Vital Energi Logo
Vital Energi

Vital Energi offers installation and operation of large scale, centralised, clean energy centres for the commercial and public sectors.

L
Lawrenceville Plasma Physics

Lawrenceville Plasma Physics is a high-tech research and development corporation specializing in applications of plasma physics, including fusion power and intense X-ray sources. The company's lead project is the development of an ecologicaly safe fusion energy generator using a device called the dense plasma focus (DPF) and hydrogen-boron fuel called "Focus Fusion". LPP's technology and peer-reviewed science are guiding the design of this technology for this virutally unlimited source of clean energy that can be significantly cheaper than any other energy sources currently in use.

PowerLight Technologies Logo
PowerLight Technologies

PowerLight commercializes laser power beaming to transmit electricity without wires for applications where wires are either cost prohibitive or physically impractical.

C
Calabazas Creek Research

Calabazas Creek Research, Inc. is a Palo Alto, CA based company that has received a grant(s) from the Department of Energy's SBIR/STTR program. The abstract(s) for these grant award(s) are provided as well since they provide insights into Calabazas Creek Research, Inc.'s business and areas of expertise. This project will focus on increasing the efficiency of the analysis and design of components used in over-moded transmission lines. Over-moded transmission lines are used for a variety of applications for low loss transmission of microwave and millimeter waves. Efficient, high power, radio frequency sources are required for many planned and proposed accelerator programs. This project will develop a new radio frequency source that would be more efficient, more compact, and less costly then existing alternatives. This project will develop a 10 MW, 1.3 GHz annular beam klystron. The advanced design of the ABK is offers system costs that are significantly lower than those possible with conventional klystrons. The ABK will be useful for research and medical accelerators, and national defense and commercial applications. Successful development of a high power multiple beam klystron would provide an RF source for powering several accelerator systems desired at frequencies around 200 MHz. The proposed source would find applications in the United States, Europe, and Asia. This project will develop an advanced simulation code for photoinjectors that will help improve high-energy accelerator light-source performance benefiting applied research in biology, materials science and defense/security. This project will allow analysis of electrical breakdown on dielectric surface that increases the cost and reduce reliability of high power devices for high energy physics, defense, medical, and industrial applications. Successful development will allow design of more cost effective high power devices with increased reliability. This project will develop a new design tools for inductive output tubes. This will provide higher efficiency RF sources for driving high energy accelerators. High power waterload are necessary to meet the U.S. obligation to the ITER program for fusion energy research. This project will satisfy the ITER requirement and provide a waterload for other fusion facilities around the world. This project will investigate fundamental mode and higher order mode (HOM) IOTs for potential accelerator applications. Successful development of multiple beam inductive output tubes will demonstrate a new, high efficiency source for many high power RF applications. The device is simpler, more efficient, and less expensive then current devices. This program will develop new power coupler technology for the ILC. The technology developed will significantly advance the state-of-the-art in coupler design and be applicable to many world-wide accelerator projects. A fundamental mode (FM) multiple beam (MB) inductive output tube (IOT) is a candidate RF source to provide this power. The FM MB IOT offers compactness and improved efficiency. This program will generate designs for all major tube components. Successful development of multiple beam inductive output tubes will demonstrate a new, high efficiency source for many high power RF applications.

P
Power Tagging Technologies

Power Tagging is an energy technology company dedicated to improving the overall efficiency between energy providers and end users. By providing a real-time, schematic map of the electrical grid, Power Tagging technology has enabled a host of applications. The company has developed a technology for tagging or fingerprinting energy on the power grid. These tags have metadata associated with them, effectively creating a purpose-built network that operates over the global power grid.

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