This Technology RECOVERS and USES Energy being Thrown Away
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This Technology here says
HOW TO . . .
This Technology here says
The Internal Combustion Engine (ICE) has always been considered the best technology that Industry must RESPECT and procure for the development of a National Economy.
This Technology here says:
"Why throw so much energy to the Environment as WASTE? RECOVER it and USE IT . . . Don't require the Community to pay for all that waste."
"If the recovered energy is used, isn't this FREE ENERGY? It can be used to give the Community water for drinking, salt for use and replace importation, and dryer for tapa, tuyo, danggit, rice drying, copra drying, and many other applications."
"And if the best approach is to run the "ICE" at high loads, dosn't it make sense to store generated electricity in batteries so that the Community is given the opportunity to convert their tricycles into 'electric vehicles' and/or 'hybrid-electric vehicles'? If used with wire, the generator will 'see' variations in load. It will, then, follow the level of the load. This is variation in load levels go higher or lower. Its efficiency will be lower if the load level is lower. Result? Electricity will become more expensive. More fuel will be used for each kilowatt-hour at lower efficiencies. And more pollution will be discharged to the atmosphere per kilowatt-hour."
These YouTube videos provide lots of DETAILS that you could ENJOY
HOW TO . . . .
Combine many technologies into one project. This allows a better Internal Rate of Return (IRR). This project of combining technologies uses 90% of the energy from the fuel burned. Gasoline engines reach a maximum of about 30% and a little more for diesel engines. Bigger power plants that use natural gas recover some of the energy that traditional technologies throw away, produce steam with it and generate electricity with it using a steam turbine to drive an electric generator. This type of power plant is called a "co-generation power plant" with an efficiency of 60%.
The First Private Power Corporation went into this co-generation development with an efficiency forecast of also 60%. It received many international bids. Unfortunately, the financial crisis hit the country in 1999.
This project collects energy that is traditionally thrown away.
And what does it give communities? More affordable electricity, and from the collected "free energy," the project also provides
clean water to drink,
clean salt to displace imported salt,
free energy for drying products and harvests from farms, from lakes and rivers, and from the sea,
chilling energy for the preservation of products that need it, like for instance, fish resting on ice in the market, and
create jobs for communities.
The most attractive feature is that this project enables the RETENTION of profits generated.
The circulation of money within communities "triggers" economic growth, and the opportunity that communities can afford to own the system. Circulation also stimulates their own progress, financially and technologically.
Added is that the project enables communities to convert their tricycles from fuel-driven into electric. Understanding the relationship between electric and fuel widely opens the "hybrid-electric tricycle" option for communities.
And should the engines be rated at over 200 horsepower, the project would be able to drive a lithium-bromide absorption chiller for the community. This chiller, called a "heat pump," starts at a unit rated at 11 tons of refrigeration in the market.
Several small water-cooled engines, say 4 units of 50 horsepower, would produce as much heat energy as 200 horsepower. Taking heat losses into account, 5 units of these small engines would be on the safer side to have the energy needed by the absorption chiller.
What role does the heat pump have here? Very simply, if there are 100 BTU/hour of energy supplied by the drinking water that was condensed, the project would supply energy to the Dryer. With the Lithium-Bromide chiller having a coefficient of performance (COP = chiller load/heat input) of 1.12, the energy to the Dryer will be 100+100x1.12=212 BTU/hour.
(Sources: Department of Energy,
https://www1.eere.energy.gov/manufacturing/tech_assistance/pdfs/steam14_chillers.pdf)
https://www.osti.gov/etdeweb/servlets/purl/895108#:~:text=The%20COP%20can%20be%20thought,8%2C571%2C429%20Btu%2Fh%20heat%20input
Technically, the heat pump has harvested energy from the environment, and in this case, from the goods that were stored in the chiller for cooling.
More electricians, more mechanics, more teachers, more growth in challenges are given a "least-cost" and "motivational" platform.
And for whom? For people and communities along the coastlines, or shorelines, or lakes, brackish water and marshes. The Philippines has a total sea coastlines of 36,289 kilometers, as published by the World Atlas.
Contents of this Website
What is this Project about?
If you don't mind, I will do it this way . . .
Platform for Change and Development for the Community
To Balikatan and Back with Unbelievable Ease and Grace
The Development Philosophy
Memo from the President and Chief Executive Officer of NAPOCOR
Great Ideas
Electric and Hybrid-Electric Tricycles
Power, Water, Salt, Dryer, and Chilling Diagram
Process Flow
Introductory View of Many JOBS Created
A video of the first 3-Phase electric run of Ateneo de Manila University Hybrid-Electric Tricycle
Why, why, why, and responses . . .
Let's do it "Bayanihan"
The Whole System in Blocks
Representations of the Components of the System
The Production of Water and Salt
The Lithium-Bromide Absorption Chiller Driven by the Condensed Steam Provides would Contribute Heat Energy for the DRYER
Engine Transmits Power to Shaft where Chargers are Connected
Engine Always Operates at High Efficiency
Battery Source Gives Power at High Efficiency
Automated Engine Control System (AECS)
Supervisory Control and Data Acquisition (SCADA)
A Very Brief View of How the Philippines Achieved the Energy Independence of 56% in 1983, as a Departure from the Energy Independence of 4%, in 1973, equivalent to Energy Dependence of 96% in 1973
A YouTube Video of How Co-Generation Helps Achieve Energy Independence
"Missionary Electricity" is Amplified by this Project
A Collage of Some of the Benefits to the Communitu
The Traditional Salt Farm will be Revived with Mini or Micro Salt Farms
The Tricycle which is Electric or Hybrid-Electric
Bongao, Sibutu, or Similar Communities are examples of Isolated Communities that will Benefit
Traditional Rice Drying by the Sun
Sari-Sari Stores Selling Preserved Food will be Selling More Tapa, Danggit, Tuyo, etc
The Preparing of Copra to Become Exportable Due to the Inability of Aflatoxin to Develop
Water to Drink
Coastlines, or Shorelines, with the Philippines Being the Fifth Longest in the World with 36,289 Kilometers
This Technology here says
HOW TO . . .
Economics and IRR (Internal Rate of Return)
FREE ENERGY Provides COMMUNITIES . . .
The IRR on YouTube Video
An Estimated Economics and Internal Rate of Return
The Spreadsheet with Live RECALCS
What are expected to be done?
Water-Cooled Gasoline Engines
The Engineering HOW with respect to the side effects of temperature and salt on the metals
The process of collecting the Energy from the cooling water of the engine
Collecting Energy from the Exhaust and from the Steam
The Engineering Aspects of the Design of the Project
The Decision on the Shapes and Layout of the Heat Transfer Components
First Intended Layout
Second Intended Layout
Third Intended Layout
Valves for the Salt Slurry
HOWTO . . . The Project Organizational Entity
Authorization by Law
ONE LAST QUESTION: How does Community PROFIT impact the Business Community OR Would it be useful for Corporations to implement CSR via this Project?
Simplified Process Flow
This Section summarizes those outputs
Electricity from Batteries Charged Here
Drinking Water
Salt Production
Rice Dryer
Economics and Internal Rate of Return (IRR)
Conversion of Ambulant Engine-Driven Rice Mill to Motor-Driven
Acceptance is Bayanihan / Balikatan / Tulongan