AI as a Means of Water Purification Protection?
By Diane Roessler Weinert
A Dissertation Presented in Partial Fulfilment of the Requirements for the Degree Doctor Artificial Intelligence
Capitol Technology University November 11, 2023
2023 by Diane Roessler Weinert
Table of Contents
Chapter 1 7
Problem 7
Introduction 7
Purpose of the study 8
Conceptual Model 8
Dependent variables 8
Theoretical Framework 9
Definitions 11
Assumptions 12
Limitations 12
Chapter Summary 12
Recommendations 13
Conclusion 13
Future Framework 13
Chapter 2 13
APPENDIX A 16
APPENDIX B 17
References 18
Abstract
With the depleting sea levels keeping resources available over the next several years appears to be a challenging task. There is also a concern of where to discharge the toxins of unpurified water. Artificial Intelligence has created a dominance in the applications field with a totally automated system
Out-of-
To report some ballpark numbers the proposal and how we would navigate these projects, there will be an exact location of where the plant will be built as well as a water/salinity report of the water being treated. There are still issues with analyzing the cost of desalination compared to other alternatives. Deep Sea Water proves to be a higher quality water and the investment is well worth it. The surveys lean to clients preferring the International Standards Operating Procedure.
All recipients agree there should be a sense of urgency on water shortages. Currently AI has proven to be a vital asset in eliminating biases and expenses.
Acronyms
MILCON – Military Construction
ECIP- Energy Conservation Investment Program
ECIP- Energy Conservation Investment Program
UESC- Utility Energy Service
Acknowledgment
This study is a continuation for a doctoral publication, which is being approved by Dean Ian, Capitol Technology, MD. I would like to express my sincere gratitude to Capitol Technology and Dean Ian along with the participants which took the time to contribute to the study. Dean Ian, in recognition of the lifetime of science, support, academia and knowledge.
Keywords
Artificial Intelligence, Synthetic Intelligence, Computational Intelligence, Water Twin, Flow Sensors, Remote Sensor ingredients, Meter, Energy, Performance, Global Data, Networking, Platforms, Sovereign Wealth, Swarm Intelligence, Smart Technology, loT, Foreign Intelligence, Evolutionary Computation, History, Energy Renewable Oil & Gas, Business Development, Reservoir Operation, and Co Investment, Hydropower, Solar, Wind, Geothermal, Specialist in Microcap Public Operation Finance, Research Bioenergy, Fossil Fuels, Investor Relations and Renewables.
Audience
Deans, Institutions, Banks, State, Federal, Researchers, Navel Facilities and Sovereign Wealth Fund Managers.
Chairs experience and Knowledge. The chair is Dr. Ian McAndrew, PhD Dr McAndrew has over 98 successful doctorate completions.
Bio
About the Author
RE: Diane Roessler Weinert
As an adjunct professor in the Department of Public Health Science at Penn State Hershey Medical Center and in the Department of Public Affairs at Penn State Harrisburg, I respectfully submit this Letter of Recommendation on behalf of Diane who is interested in continuing his academic and professional education in Lawl School. Diane has consistently displayed both the oral and written communication skills required to commit to the academic rigor required as a Law School candidate. For example, as a graduate student in Public Health, Diane has consistently demonstrated a commitment to continuous learning as well as a displayed a comprehensive understanding of policy formulation and related research methodologies that validate and support strategic planning initiatives both in the public and private sectors in the U.S.market. As a Law School candidate, Diane has also exhibited the analytical skills required to effectively and efficiently utilize performance metrics for decision-making. In addition, Diane's work-related experience has exposed her to the operational and process-related challenges associated with the execution and implementation of strategic planning initiatives.
Professor Anderson, Strayer University (2023).
Chapter 1
Problem
AI as a means of water purification protection?
Introduction
I am hereby, sharing the proposal for the feasibility study on water desalination plant in Middle East region, Gulf States, Australia and New Zeland. This is for Phase 1, which focuses on identifying top 2-3 locations within the region. Post which, we may go for Phase 2, which will cover thorough deep-down analysis for these 3 locations focusing on intricate details and identifying possible supply chain partners and customers in the region.
Critical infrastructure with artificial Intelligence (AI) can eliminate expensive costs and turn complex systems into a simple one. Most, importantly it eliminates biases and opens opportunities. This is a great time to investigate as there are not many or no articles peer reviewed for the Biden Bipartisan fund or for tribes or PFAS.
The author purposes a PhD study globally which will share measures with Artificial Intelligence (AI) indicators. The study will include an engineering feasibility study for the conversion of saltwater to freshwater globally with AI. With the increasing demand for freshwater and the scarcity of natural resources, the engineering project could potentially have significant benefits in terms of profit and sustainability.
Facilities will be investigated to provide a reliable source of freshwater for the region but also create opportunities for the distribution and sale of the valuable resource.
Specific problem commodity of water not reaching everyone. There are higher costs in water leakages.
Feds fumble in billions PFAS film-forming form. Water contamination.
Biden contributes billions Tribal bipartisan. Watershed logic and Operandi Modus (MO) is needed as in the Paris agreement.
Purpose of the study
The study looks to improve water quality, accurate and relevant information for making decisive decisions. Ensure collaboration for everyone to be included by sharing. Evaluate the ones writing the regulation within the industry and evaluate purchasing decisions and orchestration with transparency.
The study will evaluate costs as it is less expensive if the infrastructure takes place closer to the ocean or if the water is being shipped in etc.
Conceptual Model
Independent variable – Artificial Intelligence (AI) taking a holistic approach.
Dependent variables
Scientific Ingenuity Over 350 years on, scientific articles have changed radically, yet they have retained this primary function of communicating science (Ferlier, 2018.l.1). Digitally-born articles now include enriched links to datasets and bibliographical tools, which turn them into interactive experiences (Ferlier,2018.p.1). Development time spent on this platform has also directly contributed to improving the community (Ferlier, 2018.p.1).
Scientific Discovery Type of developments in science are cognitively progressive, such as are theory replaces and constitutes important (Finner, 2023. P.1). Progress should be defined in terms of the potential cognitive states progress was one (Finner, 2023. P.1). Mobilization Mass mobilization (MM) is an important driver for political change (Hellmeier, Bernhard, 2023.p.1).
While some citizens organize in favor of more democratic institutions, others take to the streets to support an authoritarian status quo (Hellmeier, Bernhard, 2023.p.1). The data is used to compare regime change and changes throughout the region (Hellmeier, Bernhard, 2023p.1). Stability Stable dynamical systems consist of dependent data (Li.Y., et al, 2023.p
1)Denote the myth state resulting from the initial state (Li., et al, 2023.p.1).
Status learning as an algorithm learning problem with a statistical perspective (Li., et al, 2023.p.1).
Profit
Different methods are being implemented for converting saltwater to freshwater and providing renewable energy to operate a conversion facility, including the means to store the energy and renewable sources of energy when not available.
Theoretical Framework
Methods
Blue Ocean – A new value enables them to achieve excellence, in the banking industry and away from competitors, the current research focused on how to strengthen the strategy of the Blue Ocean in the banking industry by adopting the technology of marketing intelligence (Abdullah, 2023.p.44). The business world today is very competitive and its decision-maker has to change its strategy to achieve sustainability in a knowledge-based economy (Abdullah, 2023.p.44). Strategy for banking institutions with superior capabilities to adopt the techniques of marketing intelligence to deal with such competitive environments where the only profit is the new value (Abdullah,2023.Out-of-the-box mindset.
Definitions
Ecological indicators, probability risk characterization methods were rarely applied in past urban ecological risk assessments because of the differences and the deviation of theoretical probability distribution and identity (Liu, 2020p.1)
Epistemology- A problem of growth with knowledge ( Popper, 2004.p.3). The growth of knowledge studied best by studying the growth of scientific knowledge (Popper, 2004.pg.4).
Holistic – Holistic approach is a comprehensible model which is believed to be the heart of science (Zamanzadeh, 2015p.1). The philosophy behind holistic care is based on the idea of holism which emphasizes human beings the whole is greater than the sum of its parts and that mind and spirit affect the body (Zamanzadeh, 2015p.1). Providers of holistic care consider a patient as a whole within his/her environment and realize that a patient is made up of a body mind and spirit (Zamanzadeh, 2015.p.1).
Modus Operandi (MO)- Way of Operating
Twin Water – Smart Water Grid (SWG) plays a critical role in sustaining cities economic and social development, but challenges remain in fully realizing the benefits of SWG (Zheng, et al, 2023.p.1). While Digital Twin (DT) has been discussed in some literature for possible SWG applications, there has been limited, or no technical framework developed to facilitate SWG operation and management (Zheng, et al, 2023. p.1). One important application of digital Twin augmented Intelligence is illustrated to timely detect any localized anomaly events, which may include, pipe bursts and unauthorized water usages (Zheng, et al, 2023.p.1).
Philosophy- There is no method peculiar to philosophy (Philosophy, 2004, pg3).
Language analysis – the problem of philosophy if there is one is linguistic usage, or the meaning of the words (Popper, 2004, pg. 3).
Assumptions
It is cognitive attitudes of the world around us that dictates the outcome. The outcome has already been decided we are merely acting in a play. Watershed morphometry is crucial factor in determining the impact of tectonic processes on the landscape (Derakhshani et al, 2023.p.1).
By analyzing the shape and geometry of watersheds at a regional scale, we can identify the relative significance of tectonic deformation verses erosion in landscape evolution (Derakshani et al, 2023.p.1). Through a quantitative assessment of watershed development in relation to regional tectonics, we can better understand the morpotectonic situations and their implications for the broader landscape (Derakshani et al, 2023.p.1).
Limitations
Time
Organization
Engineering Firms Selected
Financial lending
Siemens
Chapter Summary
There is nothing necessary to the man of science than its history, and the logic of discovery the way error is dictated. the use of hypothesis, of imagination, the model testing ( Popper, 2023.p.1).
Recommendations
Construction integrating higher quality production and lower energy. The strategy is expected to increase profit, contributing opportunities and better quality public image and eliminate biases.
Conclusion
Increasing international partners, sovereign wealth funds serving capital markets and private investors will lift smart infrastructure.
Future Framework
Joint ventures, strategic partnerships, Build-Operate-Transfer (BOT), Build-Operate-Own (BOO), Engineering Procurement -Services Support (EPS), Private Finance Imitative (PFI) (IDE, 2023).
Chapter 2
Compare current theories and methods and describe the differences that exist. Identify gaps and indicators.
Details regarding requirements,
Flowrate
Capacity
Applications
Sea Water Source (Open/ Sea Water Well).
The chosen searches are indexed with Title Searches, Articles, Research Documents, and A Journals, ProQuest. Publons, Google Scholar, Royal Society, Stanford, Elsevier SSRN, Research ID, Crossley, Research Gate, Scilit, Mendeley, Academia, Middle Eastern Studies, Middle East Journal of Applied Science & Technology, Journal of Civil Engineering Research and Technology, Research American Society of Civil Engineers are used.
The first method implemented is high-frequency Russian customs dataset and, embargo, G7 price cap (Babina et al, 2023). As sanctions on Russian energy were only implemented towards the end of 2022 and as global prices for oil and gas soared- Russia’s good exports reached a record $532 billion in 2022, resulting in an all-time high trade surplus of $316 billion (Babina et al, 2023). The US Federal government cannot be undermined in compliance for humanitarian reasons.
Decision making spills over into the domestic refining industry (Babina et al, 2023). When considering AI the wealth of the nation must be considered. The case with Russia proposes there is a large issue with the sanctions on Russia with price cap-related restrictions on shipping, maritime insurance, and other services (Babina et al, 2023).
Russia reached a record-high trade surplus of $316 billion in 2022 through the congress embargo (Babina et al, 2023). Extremely high energy prices and a collapse in imports were the key drivers (Babina et al, 2023). Russia has power to sustain the hits with new buyers establishing their presence (Babina et al, 2023).
Notes
Buyout fund investments
Performance Indictors
Correlation Co efficient
Statistical Information Statistical Inference
Simple Assumption
From a time-series perspective, the overall water use efficiency in 12 provinces was increasing from 2005-2015
Input out index system
Measures and Scales from Siren De for water survey.
Picture-in-picture mod
Private Equity Investments
Venture Capital Investors
Partners
ATIMA Team
Apac
Australia’s Integrated Marine Observing System (IMOS)
Defense Advanced Research
Green Finance
Foreign Direct Investment (FDI)
German Federal Ministry of Education and Research (BMBF)
Global Equity
Gulf Corporation Council (GCC)
Griffin Energy
Hartford Funds
Imperial Russian Navy
Intelligence for Successful Teams Assist
Marine
National Collaborative Research Infrastructure Strategy (NCRIS).
program
Projects Agency DARPA
Dr. Kay Vin Tee
Dr.Stephen Cauffman
Multipex-Degremont JVC
Joshua Rohrer
PetroEnergy Resources
Phillipine Council for Industry, Energy? And Emerging Technology Research and Development (PCIEERD).
Sorek
Corporation(PERC)
Oriental Petroleum and Minerals Corporation (OPMC).
Philodrill Corporation
Philippine Navy (PN)
Queensland Government
Stanwell Corporation
Tasmania
Transmin
The Prince Sattam bin Abdulaziz University
University of the Philippines- National Institute of Geological Sciences
Western Australia’s Griffin Energy
And a consortium of institutions as an unincorporated joint venture
Plants
Saudi Arabia
Shoaiba
Al Jubail
Soreq
Victorians
Yulara electrodialysis
APPENDIX A
Research Methodology Map
Contribution of current projects
Conversion of 1,000,000 L of water per day into freshwater. East Western 5 engineers completed similar projects in the past and be familiar with the Middle East and publicly traded.
Test validity and reliability
Online Interviews
Adjust interview To get you some ballpark numbers of our proposal and how we would navigate these projects, we would first need an exact location of where you would want a plant built as well as a water/salinity report of the water being treated. What do you plan to use the treated water for?
Interpret the responses in the survey
Compare all data to other A Journals
Recognize patterns, and meaning.
Receive a letter of intent
Merge Data
Submit final dissertation to Dean Ian, Capitol Technology
Table 1
What are you trying to solve with our product? Water
Could you recommend an A & E engineering firm? Siemans
What kind of indicators are better than a regulatory system? Operandi Modus MO
How likely are you to recommend Siren De?
How much capacity need water treatment? 10
Participants 2
What is water source? ( for example; Seawater, underground water, tap water, river water...etc)
2. Does you have water analysis report?
3. What is the usage of treated water ?
4. What is his electric power supply (Volt and Hz)
5.Do you have any special demand on system such as brand, material…etc.
6.May i know what Capacity as liter per hour?
What are the methods of empirical sciences (Popper,2004p.4)?
What do we call empirical sciences (Popper, 2004.p.4)?
What do you plan to use the treated water for?
The Parliament of Western Australia is honored to be situated on the ancestral lands of the Whadjuk Noongar people (Parliament of Western Australia, 2023). The Parliament acknowledges the First Australians as the traditional owners of the lands we represent and pays respects to their Elders both past and present (Parliament if Western Australia, 2023).
What is the average cost, per kilolitre…for the Perth Seawater Desalination Plant (Parliament if Western Australia, 2023)?
The total unit cost, taking into consideration construction costs and conveyance infrastructure, makes the total cost if desalinated water to be approximately $2-$3/kL (Parliament if Western Australia, 2023).
What is the average cost, per kilolitre, for the Southern Seawater Desalination plant for the following years (Parliament if Western Australia, 2023)?
The operating costs is estimated to be $1.01/kL the total cost, taking into consideration construction costs and conveyance infrastructure, makes the total cost of desalinated water to be approximately $2-$3/kL
(Parliament if Western Australia, 2023).
The total project costs was AUS$387m, with annual running costs of under $20m-less than one dollar per week per household (The Motley Fool, 2023). The anticipated water cost had been estimated at $1.17/kl (The Motley Fool, 2023). $142m to further augment supply capacity (The Motley Fool, 2023).
Electricity for the desalination plant which has an overall 24MW requirement and a production demand of 4.0kWh/kl to 6.0kWh/kl comes from the new 80MW Emu Downs Wind Farm, which consists of 48 wind turbines located 39km east of Cervantes (The Motley Fool, 2023).
Perth Seawater Desalination Plant
Plant Type
SWRO (The Motley Fool, 2023).
Capacity
140,000m³:/d (The Motley Fool, 2023).
Design Expansion Capacity
250,000m³/d
Annual Output
45GL. (The Motley Fool, 2023). 25 year contract (The Motley Fool, 2023).
Aqua N Water Solutions
Waterman Engineers-IndiaMart
Chem Dist Process Solutions
Anil and Co
CSIRO
WTE Infra Projects Private Limited
Acroama Water
Envirotech
Nauru Ocean Resources
Isla Macan Corova Corps
Jay Shakti
UN – Linked International Seabed Authority (ISA)
Zones
Clarion Clipperton Zone (CCZ)
Noise propagation model
Industries served,
Steel
Water
Artificial Intelligence
Textile
Oil & Gas
The cost of building a desalination plant is,
$87 MM was spent on Kay Bailey Hutchison brackish groundwater desalination plant in Texas (Texas Water, Development Board, 2023). The 2010 biennial report on seawater desalination projected that it will cost approximately $32MM to build a 2.6MGD seawater desalination plan and approximately $658 million to build a 100 MGD seawater desalination plant in Texas (Texas Water, Development Board, 2023). Brackish water can range from $1.25 to $2.60 per 1,000 gallons, whereas desalinated water may cost anywhere from $3.60 to $5.80 per 1000 gallons (Texas Water, Development Board, 2023).
In Texas there are municipal capacity of 142 million gallons per day which includes 85 million gallons per day, 54 million gallons per day, 2.5 (Texas Water, Development Board, 2023). There are 325 brackish groundwater desalination plants in the United States (Texas Water, Development Board, 2023). There are 18,426 desalination facilities located in 150 countries worldwide with a total capacity of 22.9 Billion US gallons (Texas Water, Development Board, 2023).
9.2 MM gallons of water per day can compensate 4,500 to 100,000. Residents (Vega.2010). Floating plants if at least 50 MW capacity would be required for the industrialized nations (Vega.2010).
Cost of building a desalination plant 50,000,000
Output 1,000,000
Annual Water Output 365,000,000
Number of People to be Served 1,000,000.
Daily use of water by all sources 100 liters
Water need per day 100,000,000.
Annual water use 36,500,000,000 liters
Output/use 3.65 years
Total Revenue generated 912,500,000.
Cost if building a desalination plant 50,000,000.
Maintenance 2,000,000
220v 50hz 1p or 380v 50hz 3p
ROI 13.04
Pre-orders
Australia, Canada, Germany, Georgia, Hong Kong, Lebanon, Netherlands, Indonesia, South Korea (Republic of Korea), Singapore, Turkey, United Kingdom, China, India, Italy, Spain, United Arab Emirates, United States.
Japan
) Capacity: 68,766 m3
/day for industry and 61,119 m3
/day for living, totally 129,885 m3
/day with
the largest RO 40,000 m3
/day plant of the Okinawa water supply system (GOTO, 2023).
(2) Use: 53% for industry including power generation and 47% of water supply systems (GOTO, 2023).
(3) Feed: For water supply systems, mostly seawater with some brackish where the ED process is
applied. For industry, seawater, brackish and sometimes groundwater are used (GOTO, 2023).
(4) Process: 88% of RO, 6.5% of ED for brackish, 3.5% of MSF and 1.8% of ME.
(5) Plant Supplier: Almost all are domestic with some exceptions of US suppliers in 1970s (GOTO, 2023).
Resolution
Calligraphy visual art. Lithium may be the most valuable mineral on the planet today since it is the essential component in new batteries.
APPENDIX B
Bipartisan Infrastructure Law
Case Study Federal policy supports the resolution of disputes regarding Indian water rights through negotiated settlements (US Dept. of the Interior, 2023.p.1). The Bipartisan Infrastructure Law insists more than $13 billion in Tribal communities across the country (U.S.Department of the Interior, 2023.p.
Seas,
Australia
Coral Seas
Pacific, Southern and Indian Oceans
Tasman
Timor
Guam, Blue Hole Orote Peninsula
Mediterranean
Persian Gulf
Appendix A
Hello Diane,
Desalination systems have a very wide range of capacities.
So, to answer to your questions we have to know your specific needs, at least how much water do you need per day.
Best regards,
Riccardo Verde
Schenker Watermakers
https://schenkerwatermakers.com/
t +39-081******* +39-081*******
APPENDX B
Discussion: Water Desalination Equipment Market
DW
Diane Roessler Weinert
To:
ad25ok@r.postjobfree.com
Mon 11/20/2023 12:49 PM
Thank you, perfect. I will be reviewing shortly.
Http://www.amazon.com/dp/999-***-****
This message was sent with High importance.
V
Error! Filename not specified.
ad25ok@r.postjobfree.com
To:
Diane Roessler Weinert; 'Research'
Mon 11/20/2023 11:48 AM
Proposal_Middle East Water D...
PDF907 KB
Hi Diane,
Thank you for the time and patience and for explaining your requirements over the call. As discussed, we are hereby sharing Proposal for Feasibility Study on Water Desalination Plant in Middle East region. This is for Phase 1, which focuses on identifying top 2-3 locations within the region. Post which, we may go for Phase 2, which will cover thorough deep-down analysis for these 3 locations focusing on intricate details and identifying possible supply chain partners and customers in the region.
Kindly go through the file for details and we can connect on call if you wish us to explain the proposal. Once you are comfortable with the plan, we can share cost and timeline for the project delivery.
Best Regards,
Varda Khan
Client Strategic Partner
Phone - +1-888-***-****
Report Ocean Pvt. Ltd.
ad25ok@r.postjobfree.com
www.reportocean.com
APPENDIX C
) Pricing
DW
Diane Roessler Weinert
Thu 11/23/2023 1:30 PM
Thank you, Gary. The information you supplied helps tremendously. I am much more confident with the statistics forming. A return on investment is averaging 13.5% per industry standard is at 10%. I am sure with more research these numbers will improve. Respectfully,
GG
Gary Geschwind
To:
Diane Roessler Weinert
Thu 11/23/2023 1:19 PM
Now, if you know what it cost per cubic meter to build a plant, the next step are to determine location and the amount of water that would be used per capita.
The data exist for Saudi Arabia so take that as an average amount of water used per capita. Convert that into cubic meters per capita per day add about 50% for expansion and that will give you pretty much the size of the plant.
Using the numbers I sent this morning you should be able to figure out for a given location and population an approximate value of the cost of the plant.
More info if I can think of it before we meet on Monday
Gary
Sent from my iPhone
On Nov 23, 2023, at 12:47 PM, Diane Roessler Weinert <ad25ok@r.postjobfree.com> wrote:
Thank you, Happy Thanksgiving.
Http://www.amazon.com/dp/999-***-****
DW
Diane Roessler Weinert
Thu 11/23/2023 12:47 PM
Thank you, Happy Thanksgiving. Http://www.amazon.com/dp/999-***-****
GG
Gary Geschwind
To:
Diane Roessler Weinert
Thu 11/23/2023 11:07 AM
diane's spreadsheet summary
XLSX10 KB
Diane
You've done a lot of good work here, but it's not clear to me how this advances trying to find 1. a technical partner to work with you who understands the conversion of seawater into freshwater and 2. raising the money for the project and 3. identifying an architectural and engineering company that is willing to work with you.
I read both your articles this morning and certainly represents an incredibly large amount of work but it's not clear to me how they get you to the end point accomplishing the three tasks I have listed above.
However, one good thing came out of reading everything. That is the attached spreadsheet which I've summarize some of the data that you were presented to calculate what a cost per cubic meter of freshwater would be. To be clear about what I've done in the chart you presented. The data broke down into two shits one in which the total cost of the plant was low and the second is the total cost of the plant was high. I believe that the total cost of the plant using the high values is representative of the cost per cubic meter of converted water.
That cost is shown in the attached spreadsheet, which represents the data from your chart.
We will discuss this further on Monday but I want to encourage you to try to do the tasks I've outlined in the first paragraph of this email.
Have a wonderful Thanksgiving
gary
Soreq
636,440
1,070,000,000
Ras Al-Khair
728,000
4,200,000,000
Yanbu 3
500,000
1,000,000,000
Total
1,864,440
6,270,000,000
Average
621,480
2,090,000,000
Estimate cost (m3/day)
3362.94
Your Name
Company Name
Company address
Date
[Recipient Name] [Recipient Title] [Recipient Company Name] [Recipient Address] [City,
State ZIP Code]
Dear [Recipient Name],
I am writing to express my intent to commission an engineering feasibility study for the
conversion of saltwater to freshwater on the Arabian Peninsula. With the increasing
demand for freshwater and the scarcity of natural resources, this engineering project could
potentially have significant benefits in terms of profit and sustainability.
Our company is interested in exploring the potential for this project and would like to
commission an engineering study to investigate the feasibility of a large-scale saltwater
conversion facility. We believe that such a facility would not only provide a reliable source
of freshwater for the region but also create opportunities for the distribution and sale of
this valuable resource.
The study should include different methods of converting saltwater to freshwater,
alternative methods of providing renewable energy to operate the conversion facility,
including the means to store the energy when renewable sources of energy are not
available.
The product is expected to be the best design, which would be the most cost efficient
means of the water conversion and the cost of this design, and some estimate of the
profits generated from distribution of freshwater. Final design should be suitable to be
scaled up to meet the growing demands of the site. The volume of water converted to
freshwater will be determined upon the funders desires for a specific location and the
demographics of that location
Your company has a strong track record of successful engineering projects, and we believe
that our expertise and resources make us an ideal partner for this project. We believe your
team of experienced engineers is well-equipped to tackle the unique challenges of
designing and building a large-scale saltwater conversion facility.
In terms of potential profits, we believe that there is significant demand for freshwater on
the Arabian Peninsula, particularly in areas with limited access to natural sources. We
anticipate that the distribution and sale of freshwater could generate substantial revenue, creating a profitable business