CPI-International Energy Unit (IEU) is a subsidiary of CP International Group dedicated to introducing next generation renewable energy technologies and sustainability solutions. IEU focuses on strategic areas like solar energy, waste-to-energy, and environmental sustainability. Key technologies include a hybrid solar PV-thermal collector and an advanced thermal process for converting waste to energy without combustion. IEU provides turnkey solutions and has investment opportunities in solar and waste-to-energy projects in MENA, with estimated total investments of $5 billion by 2030 generating annual net profits of $3.8 billion.
2. CP International Group
International investment, scholarly, consultancy professional organization with
representatives, subsidiaries and consultants in 19 countries worldwide.
CPI was established under the name of Parthenon Innovation Group in Nashville,
TN. in 1983 by a talented group of Scholars, Industry Experts & Elite Consultants,
Following after it was named The International Institute of Innovation in 1993.
Dr. ElShazly, the president of CPI and prominent figure in international business
development and the creator of the' Innovation System ' worked with the late Prof.
Harold McAlindon to establish the European Institute of Innovation' which in 2002
formed the base of the CPI Cambridge Consulting Institute and the CPI
International Group
The Group is dedicated to promoting high standards and excellence in the creation
and dissemination of innovation, knowledge and the furtherance of management
& business practice around the world.
5. Awards and Recognition
CPI has received several national and international
awards Including:
The TORCH AWARD of the American Society for
Training and Development,
The CREATIVE APPLICATION AWARD of the
Human Resource Management Association
The AWARD OF ACHIEVEMENT from the
Creative Thinkers Association of America.
6. INTERNATIONAL ENERGY UNIT (IEU)
Founded in 2014 as a subsidiary of CPI in response to the Global Challenges:
Climate Change,
Depleting and Volatile Fossil Fuel Energy Resources,
Water Shortage,
Desertification and Declining Food Production
The main MISSION is to introduce next generation of renewable energy
technologies & Millennium Sustainability Solutions
7. Scope and Mission
IEU Strategic Areas
IEU Emerging Solutions &
Innovation
Strategic Areas
Areas Objectives
Renewable
Energy
Solar Energy
Waste2Energy
Salinity Gradient
Environmental
Sustainability
Energy Efficiency
Water use Efficiency
Desalination/ZLD
Water Reuse
Waste Management
Climate
Change
Reduce GHGE
Carbon Capture
• Technology Development
• Technology Evaluation/Adaption
• Innovative Integration
• Technology Localization &
Outsourcing
UN Sustainability
Development Goals
Goals
Access to Energy
Access to Water
Access to Food
Access to Sanitation
Environmental
Sustainability
Deployment of RE
WEF Nexus
Peak Oil & FF Depletion
Energy Efficiency
Combating pollution
and climatic change
MGET
MGET safely transforming into:
Modernization & Urbanization
Sustaining development
Providing high standard of living
IEU Innovation & Business Model
8. How
- Latent treasures and innovative
solutions can be developed and
deployed
- Provide new opportunities for
local businesses
- Capacity building and creation of
job opportunities
Research
Collaboration
CCU & IEU
Strategic
Partnership &
Cooperation
Innovation,
Tech. Develop.
Business
Develop.
& Management
Innovation
Network
Project
Development &
Finance
9. Sustainable Solutions
Energy
Water
• District Energy
• Waste to Energy
• Waste to Water
• Green Agriculture
• WEF Nexus
• Solar & Renewable Energy
• Polygeneration
• Energy Storage
• Salinity Gradient
• Hybrid Solar & Biofuels Systems
• Solar Desalination
• Zero Liquid Discharge
• Emerging Desalination Technologies
• Water and Waste Water Treatment
Overview on Innovation and Business Portfolio
11. Hybrid Solar PV-Thermal Collector
• Highest energy harvesting efficiency, reduces land footprint
by 50%
• Converts waste heat into high quality
thermal energy at temperature up to 140 °C
• Reducing specific energy cost by 40%, comfortably achieve
grid parity under low oil prices in any part of the world
• Serves wide range of large scale industrial applications:
Solar power generation,
Solar desalination,
Solar cooling,
Enhanced oil recovery
• Can help changing the arid landscapes in deserts into
green areas
• Drastically reduces land footprint and cost of existing CSP
technologies to deliver solar power on demand 24 hours
with low tech and low cost
12. Thermal
Desalination Concepts and Energy Requirements
Membrane
Operation pressures:
17-27 bar brackish water
52-69 bar seawater
Specific Energy Consumption
Thermal: 0 kWh/m3
Electrical 3-5 kWh/m3
Operation Top Brine Temperatures :
60 - 110 °C
Specific Energy Consumption
Thermal: 50-80 kWh/m3
Electrical 2-4 kWh/m3
Thermal desalination plant
(MSF/MED)
Reverse osmosis desalination plant
(RO)
Driven by fuel Driven by electricity
Applications of PV/T Collector in Large Scale Hybrid Solar
Desalination
13. IEU Integrated Turn Key Solution for Green & Smart Farms
with Solar PV-T Collector
Solar electrical power supply
Solar desalination
Solar cooling
Solar heating
Solar food drying
14. PV-T Solar Steam Generation for Enhanced Oil Recovery
Innovative PV-T collector of the IEU makes solar EOR is much more cost
effectively than using gas, even as current depressed prices
Steam represents as much as 60% of the production cost for heavily oil
extraction
Solar EOR provides a hedge against long-term gas price escalation
Investing in a solar EOR system, all costs are upfront and the standard life of
the equipment is 30 years
15. Global Enhanced Oil Recovery (EOR) Market
Global Enhanced Oil Recovery (EOR) Market is expected to reach USD 283 billion by
2020
More than 60% of the market USD 170 billion exists in the GCC
Gulf states enjoy favorable insolation, making solar EOR very promising in the region
With the exception of Qatar, Gulf countries are short of natural gas
Oman currently uses a significant amount of its natural gas for EOR at $10 an mcf
Full-scale deployment of solar EOR in Oman, in which solar steam accounts for 80%
of Oman’s thermal EOR needs, could save up to half a billion cubic feet (bcf) of gas
per day and contribute more than $12B in Omani GDP by 2023. [Ernst & Young 2014]
The hybrid PV-T Collector has a great potential to get a considerable market
share due to its high efficiency, reliability, compactness, low tech and low cost
17. IEU developed environmentally friendly, cutting edge, and safe process
for waste disposal converting waste into valuable resource
Turn Waste into Resource
19. Advantages of (S&W2E)
Innovative 100% renewable
Firm capacity dispatchable power on demand round-the clock
Very clean and environmental friendly
Highly profitable
Minimized capacity of sensible thermal energy storage
No batteries, no molten salt, no thermal Oil
Significant reduction in land footprint
Suitable for polygeneration
Enormous market worldwide, especially in MENA
20. Complete package and Turn Key Solutions for solid waste conversion
State-of-the-art thermal process - no incineration, no combustion, no pyrolysis
Employs medium/high temperatures catalytically to decompose plastic and
organic waste material into clean oil, clean gas, fertilizers, and coke
All impurities in the gas are cleaned by means of special catalysts and become
insolubly bound into the solid output materials
Significantly supersedes all environmental requirements in Germany and
worldwide
IEU Innovative Advanced Thermal Treatment of Solid Waste
22. POTENTIAL OF CLEAN ENERGY IN MENA DESERTS
Source: Desertec-UK
World: the area of desert needed to generate (with CSP) as much
electricity as the world is using now. EU and MENA: corresponding
areas for Europe and for the Middle East with North Africa.
26. Solar PV Manufacturing & Solar Power Generation Projects
• Local manufacturing of state of the art solar PV panels and solar thermal
systems:
The IEU is planning 3 PV Factories in MENA @ 100 MW/Year with
total investments of 300 Million US$ and 3 CSP Factories @ 100
MW/Year with total investments of 450 Million US$
• Developing utility scale solar power plants based on advanced technologies
of the IEU
The IEU is planning a number of PV & CSP solar power plants in MENA
with 3000 MW up to 2030 with total investments of 3300 Million US$
• Developing rooftop PV systems and small scale applications: 200 MW up to
2030 with total investments of 250 Million US$
• Development of medium and large scale solar steam generation for different
applications: 250 MW up to 2025 with total investments of 400 Million
US$
• Deployment of solar desalination and solar cooling on large scale WITH IEU
advanced technologies: Not yet estimated
• Total Investment in Solar Factories and Power Plants up to 2030
5 Billion US$
• Total Net Profit in return on investments in 2030 3.8 Billion US$
• The solar power plants will continue to deliver power after 2030 for another
20 years at least up to 2050 but power purchase FIT is not known at the time
being
27. Investment Opportunity and Estimated Figures for PV
Factories & Solar Power Plants
• Estimations based on detailed 100 MW PV Manufacturing Factory and 1GWp Solar Power
Plants installed over 10 years. Calculations & assumed equity for factories: 33% of CAPEX, for
power plants 20%
• Investment for 100 MW PV panels factory is 100 MEuro including 1st year O&M
• Investment for 100 MW PV power plant is 100 MEuro
• Total Investment 1.1 Billion Euro for both the factory and 1 GWp solar power plants
• Return on investment (factories and power plants calculated separately) after 10 years of
full operation of the 3 PV factories (i.e. in 2030):
• Factories: Equity payback period < 5 years, calculated on the basis of generally accepted
market forecasts
• Power plants: generate electricity at 4$ct/kWh & selling at 12$ct/kWh for 30-40 years. The net
profit is 13 Million US$/Year for a100 MW Solar Power Plant. After 30 years the accumulated
profit will be 400 Million US$/plant.
• Adding 300 MW power plant every year, after 10 years of full operation of the 3 factories, 3
GWp solar power plants will be installed. The net profit is 390 Million US$/Year after year 10
for the 3 GW Solar Power Plants. After 30 years the accumulated net profit will be 9.555
Billion US$.
• The accumulated net profit for 1% share in the IEU after 30 years will be 95.55 Million US$
• The payback of 1% share will be < 5 years only from solar business with average net
profit 3.675 Million US$ /year
• The dividends distribution from solar business starts with the beginning of 2020 or end of 2019
28. Solid Waste to Energy Projects (W2E)
• Manufacturing of the IEU advanced thermal decomposition
plants:
The IEU is planning 2 Factories in MENA with total
investments of 100 Million US$
• Developing large scale W2E plants based on advanced
technologies of the IEU
The IEU is planning a number of W2E power plants in
MENA with 10,000 ton waste/day producing 500 MW
electrical power up to 2030. The total investments are
estimated at 900 Million US$
• The yearly net profit of 500 MW W2E power plants is 150
Million US$/year
• With PPA for 20 years: the 500 MW up to 2040 will generate
an accumulated net profit of 3 Billion US$ starting from 2020
• The accumulated net profit for 1% share in the IEU after 20
years will be 30 Million US$ with average yearly 1.5 Million
US$/year (in addition to the profit from solar business)
• The dividends distribution for solid waste starts with the
beginning of 2020
• Considering from both solar & solid waste: the net profit for
1% share will be 125.55 Million US$ up to 2030
29. CPI-IEU
STANDS FOR
MODERN GREEN ERA TECHNOLOGIES
CPI Group
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Switzerland
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Director-ieu@cpigroup.ch
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