WE ARE READY TO START A HIGH VOLUME GREEN HYDROGEN ( ZERO CARBON) PROJECT TODAY
WE ARE READY TO START A HIGH VOLUME GREEN HYDROGEN ( ZERO CARBON) PROJECT TODAY
The removal of oil and gas platforms offshore world wide is imminent. Consideration of whether to completely remove a platform or cut it off at some depth below the sea surface and retain the jacket as a reef is a decision that will occur in the future. There are many platforms that are undergoing the initial steps for decommissioning now.
The decommissioning process is expensive, complex, and lengthy. Due to the intricate planning and complex technical challenges that are involved, it is probable that more platforms will soon be considered for decommissioning.
Oil production has decreased as many offshore operators have produced for 40–50 years from reservoirs now dwindling and uneconomical to continue production. Offshore oil production platforms everywhere are overbuilt strong structures proven to withstand hurricanes, typhoons, collision, and earthquakes. Perhaps especially true in the North Sea, decommissioning the enormous platforms will be a substantial, long-term, expensive, and technically demanding venture. With OSPAR Decision 98/3 in effect, adherence to the agreement requires full removal of oil platforms with onshore disposal at the end of their economic lives.
The timing of future decommissioning activities is dependent on many factors. It depends on the time limit and specifications of the state or federal lease, the geologic type and size of oil and/or gas reservoir, the rate of petroleum production and subsequent depletion of the reservoir, the ability to move the product to market, the market value of oil or gas, potential resale or reuse value of the structure, and whether the platform might serve an extended use for the operator, such as a reconfiguration of the platform into a changed or new production facility like green hydrogen.
OWPST plans for its green hydrogen production operations to include the decommissioning of oil & gas platforms that have reached the end of their operating life cycle and re-commission it as a green hydrogen producing facility.
This entails the complete removal of the existing platform and taking it to shore.
From this point it is totally stripped of its existing oil and gas facility operation, make all necessary platform rebuild and then reconstruct the platform with electrolizers and all other necessary production machinery to convert to a green hydrogen production platform. Then, this same platform is taken back out to the site and re-installed on the existing spar
We have the resources from within our own operations as well as recently formed alliances with a special maritime transportation and installation company having the capability of removal, decommissioning and transport of these massive platforms.
Our combined capabilities are immense and we are interested in acquiring your spar operation before you decommission……Let’s Talk
CHECK OUT THIS GREAT VIDEO BELOW
Given the current conditions of the energy industries, the growth of the world populations, emigrant of third world countries and their industry that all contribute to the natural growth of the business through demand for more and more power to meet those demands that are presently not being met and will only increase with time.
The TITA
Given the current conditions of the energy industries, the growth of the world populations, emigrant of third world countries and their industry that all contribute to the natural growth of the business through demand for more and more power to meet those demands that are presently not being met and will only increase with time.
The TITAN Ocean Naiad represents a generational breakghrough in cost-effective seawater Deionization applications. As a stand-alone platform, it can produce up to 30 million gallons of clean Deionized water per day. Powered by wind energy, The TITAN nearly eliminates the high cost of power electricity needed to demineralise seawater for producing green(H2) hydrogen.
Three of the four major goals of the US National Labs for Offshore Wind are accomplished with our design.
Mass produce the structure using barge construction techniques.
Tow the entire Unit as a fully assembled system to the site installation; this is what we do in the shipyard.
Reduce the offshore construction requirements and heavy lift v
Three of the four major goals of the US National Labs for Offshore Wind are accomplished with our design.
Mass produce the structure using barge construction techniques.
Tow the entire Unit as a fully assembled system to the site installation; this is what we do in the shipyard.
Reduce the offshore construction requirements and heavy lift vessel requirements.
Develop low cost mooring system. Sorry, we do not require those as we stand on legs in deep water.
In the deepwater space no technology has yet been branded the industry standard, but the TITAN 200 platform is well on its way to achieving that level of recognition.
The competitiive landscape in the offshore wind platform industry is characterized by high barriers to entry, relatively few competitors and emerging technologies vying for acceptance by the wind farm and turbine developers.
Barriers to entry are considered very high due to the expertise required to engineer and construct a structure of
The competitiive landscape in the offshore wind platform industry is characterized by high barriers to entry, relatively few competitors and emerging technologies vying for acceptance by the wind farm and turbine developers.
Barriers to entry are considered very high due to the expertise required to engineer and construct a structure of this nature, the level of certification necessary to achieve government approval, the costs involved in the design, engineering and construction phases and most importantly the patents that Offshore Wind and Water Systems has in place. An additional patent that our team has developed over the past fifteen years is an "All Risk Insurance Policy". It involves micro insurance policies on the processes of our production of hydrogen. It gives a lender an A or better rated credit enhancement.
Feed Studies is one of the initial steps and it is designed to determine optimum equipment and facility arrangement for green(H2) hydrogen, offshore power and freshwater production along with a shore-based power substation and green(H2) hydrogen and water storage facilities. The goal of the FEED is to provide work scopes and deliverables to suppliers and contractors leading to total installed cost estimate +/- 20% and construction schedule for the system. Integral to the FEED Study practice and procedures are field studies and measurements of the wind energy resource. This requires a comprehensive collection of data for a minimum of one full season or year at the selected site preposed for the location of the wind farm portion of the equipment spread.
In addition, regional site(s) offshore will be studied prior to the deployment of the specialized equipment for the year long deployment, to better focus the primary study area for the best resource location. Once narrowed to a specific area a large platform of OWPST design and proprietary ownership will be deployed, completely outfitted with a state-of-the-art instrument package for conducting wind measurement and met ocean conditions at the specific site location. This platform is equipped with a met tower capable of measurement of the full blade height of the proposed turbine size and class. We call this system a WMPS Platform. The platform and its services are leased to a client on a 1-2 year equipment and services contract. Finally, the FEED Study is co-dependent upon the field survey results and the success of powering the wind & Water system from offshore is co-dependent on the best wind resource we can locate offshore. Therefore, this front-end phase of the overall project is very key and important to the overall success of the project.
When the FEED Study is completed and approved the “ Product Contract” will be presented for approval and processing under its agreed terms and conditions for the minimum 20-year period. Construction will start, and first product delivered 42 months for that contract signing.
Towers are designed to meet and exceed hurricane force storm wind loads of CAT 5.
Our test unit was built, certified and was tested offshore in the Baltic Sea for two years. This lead to the American Bureau of Shipping’s classification and statutory certification for the Titan.
OWPST provides turnkey installations including retrofit of the tower to our 3.6 and 5 megawatt platforms, platform certification to ABSClass, installation at the clients selected site, erection of the WMPS tower system, rig up/rig-down and installation of turbine system after wind measurement service is complete.
With clean water becoming a needed commodity in many parts of the world, The TITAN Ocean Naiad represents a generational breakthrough in cost-effective seawater Deionization applications. As a stand-alone platform, it can produce up to 30 million gallons of clean Deionized water per day. Powered by wind energy, the TITAN nearly eliminates the high cost of power electricity needed to demineralise seawater for producing green(H2) hydrogen
Green(H2) hydrogen is not produced onboard the TITAN but is produced onshore in a conventional hydrogen production facility that is fed deionized water directly from the offshore TITAN. The hydrogen production facility is an integral part of the business plan and is therefore included in the business proposition. Having the feed stock for hydrogen production being produced with a negligible cost for power means that the production of hydrogen will cost less than hydrogen produced by conventional means. Even without the robust incentives offered in the Inflation Reduction Act (IRA) we are more than competitive with our cost structure stemming from the manufacture, installation and production costs of our TITAN platforms
As the TITAN’s commercial wind turbine will produce both baseline power and excess energy during some production cycles, any excess power will be provided to the power generation authority for credit that can be used to buy power at times when the required wind resource is not available offshore, this enables the product to be IRA qualified.
Green(H2) hydrogen is not produced onboard the TITAN but is produced onshore in a conventional hydrogen production facility that is fed deionized water directly from the offshore TITAN. The hydrogen production facility is an integral part of the business plan and is therefore included in the business proposition. Having the feed-stock f
Green(H2) hydrogen is not produced onboard the TITAN but is produced onshore in a conventional hydrogen production facility that is fed deionized water directly from the offshore TITAN. The hydrogen production facility is an integral part of the business plan and is therefore included in the business proposition. Having the feed-stock for hydrogen production being produced with a negligible cost for power means that the production of green(H2) hydrogen will cost less than hydrogen produced by conventional means. Even without the robust incentives offered in the Inflation Reduction Act (IRA) we are more than competitive with our cost structure stemming from the manufacture, installation and production costs of our TITAN platforms.
As the TITAN's commercial wind turbine will produce both baseline power and excess energy during some production cycles, any excess power will be provided to the power generation authority for credit that can be used to buy power at times when the required wind resource is not available offshore, this enables the product to be IRA qualified.
Water is at the core of sustainable development and is critical for socio-economic development, energy and food production, healthy ecosystems and for human survival itself. Water is also at the heart of adaptation to climate change, serving as the crucial link between society and the environment. As the global population grows, there i
Water is at the core of sustainable development and is critical for socio-economic development, energy and food production, healthy ecosystems and for human survival itself. Water is also at the heart of adaptation to climate change, serving as the crucial link between society and the environment. As the global population grows, there is an increasing need to balance all of the competing commercial demands on water resources, so that communities have enough for their needs. Offshore Wind and Power Systems of Texas has been recognized as a company that can improve the standard for clean water availability for people and agriculture in countries around the world. On June 29, 2023, U.N. Special Envoy U.E. Pham Ngoc Bich gave a strong recommendation to the United Nations Office for Partnerships that they partner with OWPST to provide potable water, hydrogen, brine, DI water, minerals and electric power to nations in need.
Offshore Wind Power Systems of Texas Inc.
2600 E. Southlake Blvd. Ste 120301, Southlake TX 76092
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