A short presentation of new developments in the energy field, related to the business of Israel Electrical Corporation in a holistic approach
The purpose of this lecture is to bring to the attention of the participants of developments that may assist them in choosing new venues for IEC corporate business development.
Sources of Renewable Energy in Romania, by Antonela PavelIoana Stancut
Presentation on hydropower, wind power and biomass- renewable energy sources in ROMANIA. Made by Romanian student Antonela Pavel, 8th grade, Scoala Gimnaziala Magura.
In this work we purpose the fabrication and characterization of a micro-fuel cell prototype based on the low mass density polymer poly(methyl-methacrylate) (PMMA), having low aspect ratio micro-channels, which were superficially metallized via sputter deposition technique. For current collector and anticorrosion coatings we employed different high electrical conductivity materials such as copper, molybdenum and gold. Metallic coatings were physically and chemically characterized by using scanning electron microscopy for the topographical analysis, X-ray diffraction for the structural analysis and energy dispersive spectroscopy for composition analysis. The electrical and electrochemical parameters obtained for the prototype cell were: a mean open circuit potential of 855 mV, a maximum electrical power density of 73 mW cm-2 at 182 mA cm-2 and 380 mV.
Sources of Renewable Energy in Romania, by Antonela PavelIoana Stancut
Presentation on hydropower, wind power and biomass- renewable energy sources in ROMANIA. Made by Romanian student Antonela Pavel, 8th grade, Scoala Gimnaziala Magura.
In this work we purpose the fabrication and characterization of a micro-fuel cell prototype based on the low mass density polymer poly(methyl-methacrylate) (PMMA), having low aspect ratio micro-channels, which were superficially metallized via sputter deposition technique. For current collector and anticorrosion coatings we employed different high electrical conductivity materials such as copper, molybdenum and gold. Metallic coatings were physically and chemically characterized by using scanning electron microscopy for the topographical analysis, X-ray diffraction for the structural analysis and energy dispersive spectroscopy for composition analysis. The electrical and electrochemical parameters obtained for the prototype cell were: a mean open circuit potential of 855 mV, a maximum electrical power density of 73 mW cm-2 at 182 mA cm-2 and 380 mV.
Catalysts are used with fuels such as hydrogen or methanol to produce hydrogen ions. Platinum, which is very expensive, is the catalyst typically used in this process. Companies are using nanoparticles of platinum to reduce the amount of platinum needed, or using nanoparticles of other materials to replace platinum entirely and thereby lower costs.
Warsak Hydroelectric Project is located on River Kabul at about 30 KM from Peshawar in Distt. Peshawar (KPK). The Project was completed under Colombo Plan in two phases, financed by Canadian Government.
This ppt is based on nano technology used in fuel cell. Description of fuel cell and its type is also mention. In addition, carbon nanotube is also described.
School project on sustainable development for the bilingual section of Technology at the IES Praia Barraña school in Boiro, Galicia, Spain. March, 2016.
This study is define on the nanotechnology with energy application. In this technology explain the energy conversion, generation, storage and transportation.it is in unique technique, capacity, great potential to fabricate new structure at atomic scale has produced novel material and devices. Its technique have great potential applications with wide fields.to required large no. of energy in the world.in present available energy is not sufficient for comparison on world requirement energy. That’s vision of fulfillment the required no. of energy by through this new technique.in hence present advance of the nanotechnology to suitable useful energy generation, production, storage and use. The main function and aim of this technology working from different fields, areas and points, to find out the better solutions. Which is the great challenge of our life?
Improvement in electrical network stability meshed with renewable Haim R. Branisteanu
A 3-page proposal that was submitted to Dr. Tatiana Mitrova
Director of the SKOLKOVO Energy Centre at (https://energy.skolkovo.ru/en/senec/team/) by e-mail over a year ago to encourage the Russian establishment to convert the Russian economy toward hydrogen. A similar request was also sent through the official website of Russian PM in Sept. 2019
Catalysts are used with fuels such as hydrogen or methanol to produce hydrogen ions. Platinum, which is very expensive, is the catalyst typically used in this process. Companies are using nanoparticles of platinum to reduce the amount of platinum needed, or using nanoparticles of other materials to replace platinum entirely and thereby lower costs.
Warsak Hydroelectric Project is located on River Kabul at about 30 KM from Peshawar in Distt. Peshawar (KPK). The Project was completed under Colombo Plan in two phases, financed by Canadian Government.
This ppt is based on nano technology used in fuel cell. Description of fuel cell and its type is also mention. In addition, carbon nanotube is also described.
School project on sustainable development for the bilingual section of Technology at the IES Praia Barraña school in Boiro, Galicia, Spain. March, 2016.
This study is define on the nanotechnology with energy application. In this technology explain the energy conversion, generation, storage and transportation.it is in unique technique, capacity, great potential to fabricate new structure at atomic scale has produced novel material and devices. Its technique have great potential applications with wide fields.to required large no. of energy in the world.in present available energy is not sufficient for comparison on world requirement energy. That’s vision of fulfillment the required no. of energy by through this new technique.in hence present advance of the nanotechnology to suitable useful energy generation, production, storage and use. The main function and aim of this technology working from different fields, areas and points, to find out the better solutions. Which is the great challenge of our life?
Improvement in electrical network stability meshed with renewable Haim R. Branisteanu
A 3-page proposal that was submitted to Dr. Tatiana Mitrova
Director of the SKOLKOVO Energy Centre at (https://energy.skolkovo.ru/en/senec/team/) by e-mail over a year ago to encourage the Russian establishment to convert the Russian economy toward hydrogen. A similar request was also sent through the official website of Russian PM in Sept. 2019
Nanoengineered Au-Carbon Nitride Interfaces Enhance PhotoCatalytic Pure Water...Pawan Kumar
Photocatalytic pure water splitting using solar energy is one of the promising routes to produce sustainable green hydrogen (H2). Tuning the interfacial active site density at catalytic heterojunctions and better light management are imperative to steer the structure-activity correlations to enhance the photo-efficiency of nanocomposite photocatalysts. Herein, we report the decoration of nitrogen defects-rich carbon nitride CN(T) with metallic Au nanostructures of different morphologies and sizes to investigate their influence on the photocatalytic hydrogen evolution reactions (HER). The CN(T)-7-NP nano-heterostructure comprises Au nanoparticles (NPs) of ~7 nm and thiourea-derived defective CN exhibits an excellent H2 production rate of 76.8 µmol g–1 h–1 from pure water under simulated AM 1.5 solar irradiation. In contrast to large-size Au nanorods, the high activity of CN(T)-7-NP was attributed to their strong localized surface plasmon resonance (LSPR) mediated visible absorption and interfacial charge separation. The surface ligands used to control Au nanostructures morphology were found to play a major role in the stabilization of NPs and improve interfacial charge transport between Au NPs and CN(T). First-principles calculations revealed that defects in CN and Au-CN interfacial sites in these nanocomposites facilitate the separation of e-/h+ pairs after light excitation and provide lower energy barrier pathways for H2 production by photocatalytic water splitting.
Part #1Unit IVAnnotated Bibliography APA Formatting In Text Ci.docxdanhaley45372
Part #1
Unit IVAnnotated Bibliography APA Formatting In Text Citations
For this assignment, you will choose a topic and research sources for your final project.
In Unit VIII of this course, you will be developing an academic poster using PowerPoint on one of the issues covered in this course. You may choose any of the issues covered in the course textbook. See Unit VIII Final Project for more details. BOS 3551, Use Six sources to support your final project topic.
Provide a one-paragraph summary of 3 articles and two-paragraph summary for 3 articles. APA rules for formatting, quoting, paraphrasing, citing, and listing of sources are to be followed.
Your annotated bibliography should be at least two pages in length and include a title page (not part of the page count requirement.
Part #2
Unit VIII Final Project See Project Template below:
Using the sources from your Unit IV Outline and the template provided below, create an academic poster presentation Environmental Issues 4 PowerPoint.
The poster should consist of a single PowerPoint slide. There should be at least 900 words of text in paragraph form on your poster, and you should include at least four images (e.g., graphic, photo, table).
Be sure to include headings (as indicated) and use appropriate spacing and fonts so that your poster communicates your message clearly.
Submit your completed template (Word document) and your completed poster (as a power point) for grading.
Unit VIII Final Project Template
TITLE:
BACKGROUND ON ISSUE:
DEFINITION OF PROBLEM:
POSSIBLE SOLUTIONS:
ONE SOLUTION:
CONCLUSION:
GRAPHICS (3):
BOS 3551
1
“The oceans are in constant motion, rippling, swirling, swelling, retreating. As wind blows across the surface, waves are formed. As the gravitational forces of earth, moon, and sun interact, tides are created. These are among the most powerful and constant dynamics on earth.
Wave- and tidal-energy systems harness natural oceanic flows to generate electricity. A variety of companies, utilities, universities, and governments are working to realize the promise of consistent and predictable ocean energy, which currently accounts for a fraction of global electricity generation. Early technologies date back more than two centuries, with modern designs emerging in the 1960s, thanks especially to the work of Japanese naval commander Yoshio Masuda and his 1947 invention of the oscillating water column (OWC). As a wave or tide rises within an OWC, air is displaced and pushed through a turbine, creating electricity. With the ongoing movement of ocean waters, air is compressed and decompressed continuously. It is the same principle used in whistling buoys, which draw on compressed air to create noise near treacherous shoals or outcroppings. Today, there are several OWC power plants in the world.
The appeal of wave and tidal energy is its constancy: No energy storage is required. And while communities often resist the presence of wind turbines along ridges or shoreline.
The emergence of nanotechnology in th1980’s was caused by convergence of experimental advances such as the invention of the scanning tunneling microscope in 1981 and the discovery of fullerenes in 1985. Now the nanotechnology products are used in various fields such as medical, material science, automobile etc. In this topic the various applications of nanotechnology in the renewable energy sources exploitation have been discussed.
Carbon-cuprous oxide composite nanoparticles
were chemically deposited on surface of thin glass tubes of spent
energy saving lamps for solar heat collection. Carbon was
obtained from fly ash of heavy oil incomplete combustion in
electric power stations. Impurities in the carbon were removed by
leaching with mineral acids. The mineral free-carbon was then
wet ground to have a submicron size. After filtration, it was
reacted with concentrated sulfuric/fuming nitric acid mixture on
cold for 3-4 days. Potassium chlorate was then added drop wise on
hot conditions to a carbon slurry followed by filtration.
Nanocarbon sample was mixed with 5% by weight PVA to help
adhesion to the glass surface. Carbon so deposited was doped with
copper nitrate solution. After dryness, the carbon/copper nitrate
film was dipped in hydrazine hydrate to form cuprous oxide -
carbon composite, It was then roasted at 380-400 °C A heat
collector testing assembly was constructed of 5 glass coils
connected in series with a total surface area of 1250 cm2
. Heat
collection was estimated by water flowing in the glass coils that
are coated with the carbon/copper film,. Parameters affecting the
solar collection efficiency such as time of exposure and mass flow
rate of the water were studied. Results revealed that the prepared
glass coil has proven successful energy collector for solar heat.
Vapor Deposition of Semiconducting Phosphorus Allotropes into TiO2 Nanotube A...Pawan Kumar
Recent evidence of exponential environmental degradation will demand a drastic shift in research and development toward
exploiting alternative energy resources such as solar energy. Here, we
report the successful low-cost and easily accessible synthesis of hybrid
semiconductor@TiO2 nanotube photocatalysts. In order to realize its
maximum potential in harvesting photons in the visible-light range, TiO2
nanotubes have been loaded with earth-abundant, low-band-gap fibrous
red and black phosphorus (P). Scanning electron microscopy− and
scanning transmission electron microscopy−energy-dispersive X-ray
spectroscopy, X-ray diffraction, Raman spectroscopy, X-ray photoelectron microscopy, and UV−vis measurements have been performed,
substantiating the deposition of fibrous red and black P on top and
inside the cavities of 100-μm-long electrochemically fabricated nanotubes. The nanotubular morphology of titania and a vapor-transport technique are utilized to form heterojunctions of P and
TiO2. Compared to pristine anatase 3.2 eV TiO2 nanotubes, the creation of heterojunctions in the hybrid material resulted in
1.5−2.1 eV photoelectrocatalysts. An enhanced photoelectrochemical water-splitting performance under visible light compared
with the individual components resulted for the P@TiO2 hybrids. This feature is due to synergistically improved charge
separation in the heterojunction and more effective visible-light absorption. The electronic band structure and charge-carrier
dynamics are investigated in detail using ultraviolet photoelectron spectroscopy and Kelvin probe force microscopy to elucidate
the charge-separation mechanism. A Fermi-level alignment in P@TiO2 heterojunctions leads to a more reductive flat-band
potential and a deeper valence band compared to pristine P and thus facilitates a better water-splitting performance. Our results
demonstrate effective conversion efficiencies for the nanostructured hybrids, which may enable future applications in
optoelectronic applications such as photodetectors, photovoltaics, photoelectrochemical catalysts, and sensors.
Cost Reduction of Direct Ethanol Fuel Cell by Changing Composition of Ethanol...ijsrd.com
global demand for electrical power is on the rise, while tolerance for pollution and potentially hazardous forms of power generation is on the decline. Traditional forms of power generation - primarily made up of centralized fossil fuel plants - are becoming less favored due to the lack of clean, distributed power generation technologies. The need is well recognized for clean, safe and reliable forms of energy that can provide prescribed levels of power consistently, and on demand. Most forms of non - combustion electric power generation have limitations that impact wide spread use of technology, especially as a power source of electrical power (i.e. baseload power). Fuel cell technology on other hand has advanced to the point where it is viable challenger to combustion - based plants for growing numbers of baseload power application. If the cost is reduced by changing its material, this will be added an advantage to the large production of direct ethanol fuel cell production.
A letter from Chairman of the Donetsk Regional Council (signed, official seal affixed): A.M. Bliznyuk, inviting me to establish a renewable energy project just north of Mariupol
Providing potable water to Jordan, with the purpose to improve bilateral relations, and the ability to expand bidirectional transport of freight & goods from Haifa to the future Jordanian Railway Network.
The safety locks will be placed at distances as needed due to engineering requirements and the slope/pressure of the seawater
Letter to ILIM CEO asking to restart my 2010 proposed project with the company support was ignored also by the present Irkutsk Governor in contrast to 2010/2011
Proposal prepared at the request of Deputy Minster Michael Oren and send by e-mail to the PMO Office.on Nov. 20 or 21 2018. Never received a response on the subject
This letter was sent by e-mail to several related parties within the European Commission, some of which were unavailable probably on vacation. No response was received but recently March 2021, Saudi Arabia signed agreements along the lines of my suggestions. The Israeli Ministry of Energy also adopted a similar path after dismissing my proposal of cooperation with Jordan and the EU
Hydrogen by SMR’s, solar panels and fuel cells where the basis of a proposal from 2019 to the Israeli Hassidic community who wanted to strictly observe the Shabbat which based on their belief electricity produced during Shabbat by Jewish worker is not Kasher for use according to the laws or the Bible.
A brief description of my various achievements during my career as an entrepreneur, inventor, designer, and initiator of the various project which in retrospect where several early ahead of their time
Response Avi Licht 16 Dec 2015, the Office of Israel Attorney GeneralHaim R. Branisteanu
Response to my proposal to use more solar energy instead of natural gas from the Office of Israel Attorney General advising the Israeli Government. There are more similar letters in response to my various suggestions during Summer of 2015 to the Israeli Parliament Economic Committee with the encouragement of various parliamentarians.
Lithium Batteries of Tadiran and Oppenheimer & Co LBO proposalHaim R. Branisteanu
During summer/fall of 1989, I was able to convince investment bankers at Oppenheimer & Co that the future will be the laptop computer and Tadiran Batteries Div. has the technology for the military type of lithium batteries needed for SINGARS, and this technology can be converted also for commercial use to power laptop computers.
Tadiran refused to sell the division or adapt to commercial use in a business meeting with Tadiran Executive VP in New York who arrived specifically in New York, for this meeting at Oppenheimer Offices. Wonder what they would have decided if they would have the foresight.
One of the first electronic ballasts for fluorescent lights for more efficien...Haim R. Branisteanu
One of the first ballasts for fluorescent bulbs/lights for more efficient lighting were defined as an invention and discoveries to come out of Berkeley Labs (developed independently) - the recommendation is in Hebrew by CEO of "RAPAC" at the time (1983) a known Israeli company. The concept was based on a Resonant Power Converter a novelty at the time and heavily used after the years 1995 - 2000 and until recently in solar farm converters.
The electronic ballast was designed to operate two 70 watts EU T8 fluorescent lamps more efficiently than the core-coil type ballasts that are currently employed.
See also my Tadiran Industrial and Electrical Dept. recommendations of February 1983.
A sample of a triple net financing of movie theaters with a long-term rental from a movie company. Those type of financings benefit the owner if the interest rate goes down, and then the long-term rental contract is more valuable.
The Team Member and Guest Experience - Lead and Take Care of your restaurant team. They are the people closest to and delivering Hospitality to your paying Guests!
Make the call, and we can assist you.
408-784-7371
Foodservice Consulting + Design
Artificial intelligence (AI) offers new opportunities to radically reinvent the way we do business. This study explores how CEOs and top decision makers around the world are responding to the transformative potential of AI.
Modern Database Management 12th Global Edition by Hoffer solution manual.docxssuserf63bd7
https://qidiantiku.com/solution-manual-for-modern-database-management-12th-global-edition-by-hoffer.shtml
name:Solution manual for Modern Database Management 12th Global Edition by Hoffer
Edition:12th Global Edition
author:by Hoffer
ISBN:ISBN 10: 0133544613 / ISBN 13: 9780133544619
type:solution manual
format:word/zip
All chapter include
Focusing on what leading database practitioners say are the most important aspects to database development, Modern Database Management presents sound pedagogy, and topics that are critical for the practical success of database professionals. The 12th Edition further facilitates learning with illustrations that clarify important concepts and new media resources that make some of the more challenging material more engaging. Also included are general updates and expanded material in the areas undergoing rapid change due to improved managerial practices, database design tools and methodologies, and database technology.
Oprah Winfrey: A Leader in Media, Philanthropy, and Empowerment | CIO Women M...CIOWomenMagazine
This person is none other than Oprah Winfrey, a highly influential figure whose impact extends beyond television. This article will delve into the remarkable life and lasting legacy of Oprah. Her story serves as a reminder of the importance of perseverance, compassion, and firm determination.
Oprah Winfrey: A Leader in Media, Philanthropy, and Empowerment | CIO Women M...
The subjects of a presentation of new developments in the energy field
1. A short presentation of new developments in the energy field, related to
the business of Israel Electrical Corporation in a holistic approach
The purpose of this lecture is to bring to the attention of the participants of developments that may
assist them in choosing new venues for IEC corporate business development.
The summary of the subjects that may interest the lecture participants of which some may be
familiar with are;
1. Energy balance of the earth from income sun radiation and albedo with the importance of
snow, glaciers and polar icecaps
2. Warming of the oceans and their effects on climate.
3. Methane Hydrates dispersion in the oceans and continental underwater slopes.
4. Natural gas deposits in eastern Mediterranean, Caspian and Black Sea (Turkmenistan)
5. Shale deposits in Eastern Europe and Russia the Bazhenov Shale formation and Artic circle
6. Solar irradiation power and efficiency of solar panels
7. Micro-grid systems and the increased efficiency in Peer to Peer systems with storage.
8. Wind power and turbine structure, onshore offshore and floating
9. Energy storage in electrochemical devices – batteries and the types, storage in hydrogen
10. Very High voltage transmission lines, of 1,100 KV DC over 3,200 km connecting continents
11. Combined cycle efficiency of NG versus Hydrogen
12. Use of wasted gases in iron and steel smelters to generate electricity
13. Using hydrogen as an oxygen reducing agent of iron ore in iron and steel mills
14. Fusion (tritium and deuterium in tokamaks) and Fission reactors, thorium reactors and the
safety features
15. Penetration of safe low power nuclear reactors
Recommendation; I would recommend to the listeners of this lecture also to go over my various
writings on LinkedIn and uploaded articles on SlideShare to enrich their knowledge and
understand the way of my thinking.
The lecture was given within the MBA course of Dr. Avner Barnea Lecturer on Competition
analysis, Innovation and Entrepreneurship, Netanya Academic College, School of Business, MBA
program.
As the presentation material is proprietary, the full content of almost 30 pages with informative
explanations, data and their correlation including very new developments within the alternative
energy field without GHG emissions are not shared on this slide.
December 4th