Global Technologies GTGP

GLOBAL (GTGP) is a company that is in the business of acquiring exclusive licenses and distribution and reseller contracts on proven technologies in the environmental, green and war fighter industries. The criteria for the licensing or distribution agreements of the technologies are: they must be proven, validated and in use. The business plan of Global is to sublicense the technologies it acquires to companies in geographic regions covered under the original license grant and in exclusive distribution and reseller agreements, to place with appropriate representatives in the covered countries for resale of turn key projects.

To date, the company has purchased the exclusive rights to the MBS technology and process for remediating soils containing heavy metals and rendering them non leachable instantly. It was tested by EPA and also Brook Haven National labs and met all requirements for use.

In additional technology licensing , we have concluded agreements for the exclusive purchasing,distribution and reseller rights for technologies developed by MSE Technology Applications MSE-TA.COM Listed on the MSE Summary Tab.The exclusive rights granted are for Iraq, Afghanistan and Israel as well as non exclusive rights to the entire member countries of the European Union and Canada, and M2 Polymer Technologies, Inc M2POLYMER.COM

The company has also set up advantageous joint venture agreements with companies qualified in both large remediation projects, development and new technology applications.

M2 Polymer Technologies, Inc. Joint Venture http://www.m2polymer.com/
M2 Polymer Technologies, Inc., specializing in dewatering remediation using polymer technology.This joint venture covers the newly developed and validated process which combines M2 Polymer technology for dewatering heavy metals and the MBS technology which stops the leachability of the heavy metals in one combined application. Both technologies have been EPA approved and used on numerous projects.

Solucorp Industries Joint venture agreements http://www.solucorpltd.com/
This agreement covers the new process developed by Global and M2 for dewatering and and heavy metals remediation using the MBS and M2 combined technologies developed specifically for a single combined application.

The second agreement covers all the uses for the MBS technologies not covered by the original license grant.

East Morgan Holdings, Inc . Joint Venture http://www.eastmorgan.com/
This joint venture covers all the technologies that EMHI has acquired for multiple uses of the IFS technologies and we are currently working on a design system at the request of a well known cement plant for reducing the emissions of mercury out gassing from cement plants.

The company also has in place teaming agreements with Science and Technology Applications LLC. with expertise in providing cost effective technologies for health and environmental protection led by Dr. Dash Sayala.

Advanced Environmental Technologies is a nationally recognized provider of comprehensive environmental solutions. They are experts at environmental science and engineering with the ability to translate that experience into on-site construction and field logistics.

We are currently pursuing business opportunities throughout our covered countries in all fields, technology and remediation.




EXECUTIVE SUMMARY http://www.glbtech.com/upload_user/MSE%20Busi...y%20V2.pdf

MSE is Montana's largest private-sector technology research, development, and engineering services company. We have more than 30years of experience working with the Department of Energy providing infrastructure services. MSE was originally formed to test and demonstrate Magneto hydrodynamics (MHD) technology at a new federally owned research site in Butte (the U.S. DOE Western Environmental Technology Office (WETO). Through the 1970 and mid-1980s, we broadened our scope in response to increased regional demand for engineering services and for more significant research and testing of the MHD technology. As we completed testing the MHD technology (sponsored by the Department of Energy), we began to explore opportunities to diversify our business base. MSE successfully shifted into testing, demonstration, and commercial application of waste treatment systems using temperature technologies and advanced chemical, biological, and physical processes. In September 1996, MSE acquired and successfully privatized the WETO facility. In 2001 the facility was renamed the Mike Mansfield Advanced Technology Center in honor of Senator Mike Mansfield, and it has become a nationally recognized facility. Today, we serve a diversified public and private sector customer base, we have expanded expertise and qualifications in a broad range of technology fields, and we work diligently to maintain a high standard for our customers.

Partial List of Customers ... Partners
U.S. Department of Energy
Department of U.S. Defense
U.S. Environmental Protection Agency
U.S. Forest Service
National Aeronautics and Space Administration (NASA)
State Governments
Commercial Industries
Multiple mining and technology industries
U.S Air Force
U.S. Navy
U.S. Army, Missile Defense Agency
General Atomics Corporation
Sandia National Laboratory
Princeton University
Brookhaven National Laboratory
Lawrence Livermore National Laboratory
Los Alamos National Laboratory
Bechtel, Boeing
Lockheed Martin Corporation

MSE owns and operates the Mike Mansfield Advanced Technology Center (MMATC) situated on a 53-acre site in Butte, Montana. The facility is nationally known and a recognized, premier testing site with equipment and systems available to test components, equipment, and energy/material handling systems ranging from bench-scale apparatus through engineering-scale demonstrations and full-scale equipment development. Originally, the facility was the U.S. DOE Western Environmental Technology Office (WETO). MSE managed the facility from its inception and successfully privatized it in 1996. In 2002, it was renamed the Mike Mansfield Advanced Technology Center.

From this facility, we research, develop, test, and apply government-sponsored programs and commercial projects in waste treatment, environmental remediation, advanced materials, energy conservation, and other innovative technology areas. We also develop, test, and apply new technologies to treat contaminated surface and ground waters and soils using biological, chemical, and physical methods.

TECHNOLOGIES
MC3000 SCADA Master

The MC3000 monitors real-time data to instantly view and control I/O points anywhere on the network, delivering real-time information that provides intelligent alarm notification, data acquisition, and remote control from a multitude of communication devices. The system offers powerful alarm annunciation, paging, and messaging tools as well as historical trending. These features make the MC3000 SCADA Master ideal to reliably monitor and control a wide variety of industrial applications, such as hydro power plants, utility substations, communications towers, water and wastewater plants, and energy management systems. We provide total automation systems, monitoring and control, data acquisition, and system integration. We specialize in Supervisory Control and Data Acquisition (SCADA) for Plant Control Systems used in hydro and substation automation and Communications Monitoring Systems. And we offer intelligent remote units. See what we can do for you.

The MC3000 SCADA (Supervisory Control and Data Acquisition) Master is a multi-user, real-time HMI/SCADA solution for hydro and substation automation, communications monitoring, and plant control. It collects valuable data from a wide variety of devices, including substation computers, Remote Terminal Units (RTUs), Programmable Logic Controllers (PLCs), and Intelligent Electronic Devices (IEDs). The program is ideally suited for small to large sized monitoring and control projects that require reliability, performance, and scalability. The MC3000 SCADA Master is reliable, fast, secure, easy to use, and expandable for future needs. The MC3000 contains multiple features that use Ethernet, Intranet/Internet, and dial-up capabilities The system combines advanced Tetragenics software with 32-bit protected mode processing, built-in diagnostics, critical alarm upgrading, security, multi-region/number callout, multiple download options, and electronic CPU printing capabilities. When combined with the WinTetraVision (WTV32) front end GUI, the package is an integrated HMI for SCADA systems. The system homepage can be viewed locally or remotely over the Intranet/Internet at remote sites using a standard browser.

PLASMA
MSE is a leader in the field of plasma technology for military waste treatment including ordnance waste. Our group develops and deploys technologies to resolve Department of Energy, Department of Defense, and commercial waste problems. We have completed more than 80 projects at 26 facilities in 21 states. We provide complete plasma services and testing facilities including mobile units. Plasma technology uses the intense heat of an electric arc to treat the most difficult waste such as nuclear waste, military waste, and chemical waste. The intense heat of the plasma arc destroys all organic constituents and immobilizes all inorganic constituents into an extremely stable glassy slag.

Involved in developing plasma technology since 1989, we offer equipment and experience that few other companies can. We have deployed two plasma waste treatment systems for the U.S. Army -- one in Nevada and the other in West Virginia. We designed, built, and tested these systems at our test facility, the MSE Mike Mansfield Advanced Technology Center. At our plasma test facility, we have successfully tested U.S. pyrotechnic devices, hazardous waste, and simulated nuclear waste. We have also performed offgas emissions testing following EPA protocols.
Baseline Ordnance

The PADS is capable of processing a wide variety of ordnance, energetic materials and explosive components. PADS processing rates of specific items will be dependent upon energy content, chlorine content, physical size, explosive characteristics and fragmentation issues. Processing rates will range from 59 to 408 Kg/hr (130 to 900 lb/hr) for most ordnance items.

MSE has established a list of ordnance items, energetic materials and explosive components that would be expected to result from the demilitarization of munitions. Table 1-1 contains those items, components and materials that are suitable for processing in the PADS. Table 1-1 is not an all-inclusive list, but does represent the types of munitions, components and materials that can be processed in the PADS without further preparation or preprocessing.
Baseline Hazardous Waste

The PADS is capable of processing a wide variety of hazardous and industrial wastes. The processing rates of specific wastes will be dependent upon the energy content, chlorine content and physical size of the waste. Processing rates will range from 8 to 350 Kg/hr (18 to 770 lb/hr).

MSE has established a list of hazardous wastes that have been of interest in the past. This list has been reviewed and feed rates estimated for those wastes for which reasonable characterization data in commonly available. Table 1-2 is not an all-inclusive list of wastes, but does represent the processing rates that can be anticipated for various waste types.
Processing Rates/Ordnance

The processing rate of ordnance and/or hazardous waste is unique to each ordnance item and/or hazardous waste and is controlled principally by total chlorine input, total waste energy release and total gas volume release. In addition feed streams that are principally inorganic will be limited by the thermal input capacity of the plasma torch. The PADS shall be capable of processing the ordnance identified in Table 1-1, or the hazardous wastes identified in Table 1-2 at rates determined by the following limits:

Total waste chlorine: 7.6 Kg/hr (16.0 lb/hr)
Total waste energy release: 2,700,000 Btu/hr
Total waste gas generation: 4.4 Kg/min (9.8 lb/min) (determined by standard combustion equations)
Total solids generation rate: 340 Kg/hr (750 lb/hr)

Munitions in hazard classification 1.1 (mass detonating) and 1.2 (fragment producing) will have additional processing rate limitations. Shock pressure and resulting fatigue considerations will limit 1.1 materials, while fragmentation containment will limit both 1.1 and 1.2 items. 1.1 ordnance items are limited to 0.09 Kg (0.2/lb) NEW or less for continual operation. NEW may be increased up to 0.16 kg (0.35/lb) by decreasing primary chamber inspection interval from annually to quarterly.

Partial list of Customers

* U.S. Department of Energy
* U.S. Environmental Protection Agency
* Lockheed Martin
* U.S. Army Research Development and Engineering Center
* U.S. Army Corps of Engineers
* Construction Engineering Research Laboratory
* Demil S.A.
* Hyundai MOBIS
* Defense Ammunition Center
* Municipality of Bytom, Poland
* M&C Company Ltd., Japan


Meteor Burst Technology
Remote Monitoring Applications
How the Meteor Burst Technology Works

To address sensor and monitoring needs of the Department of Energy, MSE researched and identified site monitoring and the status/availability of technologies to meet those needs. Site monitoring, especially post-closure monitoring, typically requires extensive data acquisition, processing, and storage. Monitoring may also be hindered as site infrastructure such as electrical power lines and telephone lines are removed. This design accounts for these elements.

How it works

Micro-meteors entering the Earth's ionosphere (80- to 120-km region) disintegrate, leaving behind trails of ionized atom particles. In the 1950s, scientists discovered that the ionized trails, which are typically tens of kilometers long, could reflect radio waves transmitted from the earth's surface. These radio signals could be reflected over distances of up to 2000-km (1200-miles) between a transmitter and receiver (see the diagram to the right - courtesy of MeteorComm Wireless Communications). Transmission time can vary (seconds to minutes) since the ionized trails rapidly evaporate, losing the ability to reflect radio waves. Most meteor trails last less than 1 second. However, a large meteor can create an ionized trail capable of reflecting radio waves for up to several minutes.

The meteor-burst system uses a transmitter and a receiver at each station. The master collection system continuously transmits a carrier signal to detect a suitable ionized trail to an active remote site. Once the trail is detected, information is transmitted at high speed to and from the remote station during the lifetime of the trail. Information is stored at each end creating a two-way communication system (diagram to the right - courtesy of MeteorComm Wireless Communications).

MSE integrated the Meteor Burst technology into remote environmental monitoring systems. Data from an assortment of sensors (e.g., water pressure, pH, temperature, flow, etc.) can be stored at the remote site on a Campbell Scientific controller/data logger or programmable logic controller (PLC), which uses Meteor Burst radio.

For customers who need remote site data transmitted electronically, MSE has successfully demonstrated a solar-powered remote monitoring system that uses meteor burst technology to transmit multiple data sets and process data. The data can be accessed via the Internet.

Using our experience in automation and control, MSE integrated components and applied the meteor burst technology across a broad range. The system uses Campbell Scientific controllers to acquire and store data from multiple sensors and transmit the data to a stationary ground unit, where it is transmitted to an Internet site.

Developed to address sensor and monitoring needs of the Department of Energy, MSE researched and identified site monitoring needs and the status/availability of technologies to meet those needs. Site monitoring, especially post-closure monitoring, typically requires extensive data acquisition, processing, and storage. Monitoring is also hindered as site infrastructure such as electrical power lines and telephone lines are removed. This design accounts for these elements.

Cleanup and Closure

MSE offers years of service, hands-on expertise, and resources to test and evaluate technologies to help clean up contaminated sites. Working for the Department of Energy and industrial clients, we have screened and tested leading edge, hazardous, waste incinerator, and offgas treatment technologies since 1995. We have migrated with the industry into finding unique, cost-effect solutions to replace incineration as a waste treatment method. We offer the following services:

* Test designs, plans, and reports
* Hardware and process design modifications and mass energy balance studies
* Installation design and installation
* Commissioning and test activity
* Project planning and project management (project managers certified by Project Management Institute)

We have successfully completed across the United States including
Pits and Trenches support at INEEL's Radioactive Waste Management Complex (RWMC)
Macroencapsulation of mixed low-level waste various projects at sites
Chemical oxidation and grouting Plutonium/Uranium Extraction (PUREX) Spent Solvent Stabilization
Modeling and sampling support at Idaho Nuclear Technology and Engineering Center (INTEC)

MSE's site closure support focuses on finding solutions to help the Department of Energy, other agencies, and private clients at various closure sites across the United States. Our experience includes implementing alternative technologies to enhance early site closure and/or address long-term stewardship. Currently, we are addressing specific closure needs at various Department of Energy sites including Hanford, Oak Ridge, Mound, and Fernald.

Site Closure Engineering and Management Services
We are experienced and familiar with the variety of engineering and management services - initial and long term - involved in closing a site. We offer the following services:

* Project management
* Economic evaluation and analysis
* Risk and decision analysis
* Permitting
* Groundwater and geochemical modeling
* Grout evaluation and optimization
* Vadose zone transport
* Long-term monitoring and stewardship
* Decontamination and decommissioning (D&D) engineering support
* Information technology (IT) closure site support

Project Experience
Our site closure work experience includes analysis, development, testing, and deployment.
Containment/Stabilization Barriers
* Viscous liquid barriers
* Thin grout walls
* In situ vitrification
* Waste stabilization
* Mercury stabilization of soils
* Biological Barriers - Control/Treatment Barriers
* Reactive barrier
* Dense Non-Aqueous Phase Liquids (DNAPL)
* Solution Mining
* Phytoremediation
* Groundwater Monitoring
* Determination of Conditions Influencing Uranium Movement

Economic analysis and evaluation
* Life cycle cost modeling for environmental technologies and remediation systems
* Cost benefit analysis
* Risk analysis from financial, engineering, development and implementation points of view
* Decision analysis

Industrial Water/Wastewater Treatment
MSE provides a variety of water and land treatment services and technologies for various industries. On site we have a complete analytical laboratory, treatability testing laboratory, and a soils laboratory. With our laboratories and technical experience, we can offer complete sampling, testing, analytical, and treatment solutions and services:
* Water treatment
* Sulfate removal
* Selenium removal
* Arsenic removal
* Mining impacted water treatment
* Lime Treatment
* Water quality monitoring
* Treatability testing
* On-site pilot-scale testing
* Retrofit of existing water treatment infrastructure
For offsite sampling, we offer drilling (GeoProbe) and hydrogeological, environmental, and remediation services.

With 15 years of treatment experience, our experienced professionals can provide the water treatment and or restoration technology you need. Since 1991 MSE has managed the Environmental Protection Agency's (EPA) Mine Waste Technology Program (MWTP) to advance cleanup technologies.
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