The document discusses Arizona's efforts to promote solar energy through events in October 2002 for Solar and Renewable Energy Month. It provides examples of solar energy installations on homes and other buildings across Arizona, including solar water heating and photovoltaic panel installations. The goal is to highlight Arizona's work to maximize the use of renewable energy from solar power.
The document discusses the viability and potential of solar power in Arizona. It begins by listing some counterarguments against solar but then provides a series of headlines showing Arizona's growing solar industry, including major projects, investments, job growth, and the state becoming a leader in solar installations. The document suggests solar can sustainably diversify Arizona's energy mix and drive economic development. It concludes by strongly stating that solar is viable in Arizona.
The document discusses the viability and potential of solar power in Arizona. It begins by listing some counterarguments against solar but then provides a series of headlines showing Arizona's growing solar industry, including major projects, investments, job growth, and the state becoming a leader in solar installations. The document suggests solar can sustainably diversify Arizona's energy mix and drive economic development. It concludes by strongly stating that solar is viable in Arizona.
Presentation developed to explain solar energy to children, which also captured and engaged their parents. Delivered to over one hundred Boy Scouts and other groups.
Solar energy comes from the sun and can be used as a source of heat and light or to generate electricity. It has been harnessed for centuries through technologies like solar heating. Modern solar power plants use either photovoltaic cells or thermal systems to convert sunlight into electricity. A photovoltaic plant directly converts sunlight to electricity using solar arrays and inverters, while a thermal plant uses concentrated sunlight to heat a working fluid and drive a turbine generator. To power Arizona would require around 400 square miles of solar panels, capturing the abundant yearly sunshine to generate the state's electricity needs.
This document provides information on various renewable energy systems, including how photovoltaic (PV) cells, PV systems, solar thermal systems, solar air panels, and a solar tour work. It then lists the sites and times that will be included on the solar tour, along with brief descriptions of the renewable energy installations at each location.
Sundurance Solar Energy Presentation by the 'Solar Guy'bobroomy
This presentation will review how you can get a Solar Power Plant for your home and in many cases with little or no “Out of Pocket” cost. So let’s face it folks, the bottom line is; “It’s all about the money” Right? On average solar owners achieve payback on their system in just 71/2 years and there's a 30% Federal Tax Credit for Solar Power!
Contact: Bob “The Solar Guy” (352) 219-9506 | bobr@sundurancesolar.com | Visit us: sundurancesolar.com
The document reports on field research of solar photovoltaic installations across several US states including Florida, Colorado, New Mexico, California, and Texas. A variety of systems were observed powering homes, signs, equipment, and central solar farms. Both small residential systems and large utility-scale installations utilizing new and old technologies were documented. Environmental and economic factors around solar development were also discussed.
Very, VERY dry material, I'm afraid. We were asked to teach a chapter of the text book. I did this presentation, and found it difficult even using PowerPoint to keep in interesting and streamlined enough to keep people awake. But the pictures are pretty, and I made the design template myself using modified clipart. :o)
The document discusses the viability and potential of solar power in Arizona. It begins by listing some counterarguments against solar but then provides a series of headlines showing Arizona's growing solar industry, including major projects, investments, job growth, and the state becoming a leader in solar installations. The document suggests solar can sustainably diversify Arizona's energy mix and drive economic development. It concludes by strongly stating that solar is viable in Arizona.
The document discusses the viability and potential of solar power in Arizona. It begins by listing some counterarguments against solar but then provides a series of headlines showing Arizona's growing solar industry, including major projects, investments, job growth, and the state becoming a leader in solar installations. The document suggests solar can sustainably diversify Arizona's energy mix and drive economic development. It concludes by strongly stating that solar is viable in Arizona.
Presentation developed to explain solar energy to children, which also captured and engaged their parents. Delivered to over one hundred Boy Scouts and other groups.
Solar energy comes from the sun and can be used as a source of heat and light or to generate electricity. It has been harnessed for centuries through technologies like solar heating. Modern solar power plants use either photovoltaic cells or thermal systems to convert sunlight into electricity. A photovoltaic plant directly converts sunlight to electricity using solar arrays and inverters, while a thermal plant uses concentrated sunlight to heat a working fluid and drive a turbine generator. To power Arizona would require around 400 square miles of solar panels, capturing the abundant yearly sunshine to generate the state's electricity needs.
This document provides information on various renewable energy systems, including how photovoltaic (PV) cells, PV systems, solar thermal systems, solar air panels, and a solar tour work. It then lists the sites and times that will be included on the solar tour, along with brief descriptions of the renewable energy installations at each location.
Sundurance Solar Energy Presentation by the 'Solar Guy'bobroomy
This presentation will review how you can get a Solar Power Plant for your home and in many cases with little or no “Out of Pocket” cost. So let’s face it folks, the bottom line is; “It’s all about the money” Right? On average solar owners achieve payback on their system in just 71/2 years and there's a 30% Federal Tax Credit for Solar Power!
Contact: Bob “The Solar Guy” (352) 219-9506 | bobr@sundurancesolar.com | Visit us: sundurancesolar.com
The document reports on field research of solar photovoltaic installations across several US states including Florida, Colorado, New Mexico, California, and Texas. A variety of systems were observed powering homes, signs, equipment, and central solar farms. Both small residential systems and large utility-scale installations utilizing new and old technologies were documented. Environmental and economic factors around solar development were also discussed.
Very, VERY dry material, I'm afraid. We were asked to teach a chapter of the text book. I did this presentation, and found it difficult even using PowerPoint to keep in interesting and streamlined enough to keep people awake. But the pictures are pretty, and I made the design template myself using modified clipart. :o)
Solar power works by converting the energy from sunlight into electricity through solar panels and cells. Solar cells, made of silicon, absorb sunlight which causes electrons to move, generating direct current electricity. Multiple solar cells are connected to form solar panels. The electricity generated is either used immediately or converted to alternating current and fed into the electric grid. Adopting solar power reduces electricity bills and dependency on non-renewable energy sources while helping the environment.
The document provides a high-level history of solar energy technology development from the 1950s to present day. It discusses key milestones such as the creation of the first solar cell, decreases in solar cell production costs over time, increases in solar cell efficiency, and the use of solar power for applications such as powering vehicles and buildings. It also promotes switching to solar power to gain energy independence.
The document summarizes alternative energy sources in Arkansas. It defines different forms of alternative energy like hydroelectric, wind, solar, biomass, nuclear, and geothermal power. It then discusses the availability and value of each energy source in Arkansas based on the author's research. Hydroelectric, biomass, and geothermal power are identified as the most possible and valuable alternative energy options for Arkansas. Solar and wind power are also possible in some areas of the state.
Solar energy can be harnessed through both solar thermal and solar photovoltaic (PV) systems. Solar thermal systems use sunlight to heat water or spaces for uses like cooking and water heating. PV systems convert sunlight directly into electricity using solar panels made of silicon cells. Both types of systems provide environmental benefits over fossil fuels and can offset utility costs. Students can experiment with designing solar collectors and exploring factors that affect their efficiency.
Solar energy can be harnessed through both solar thermal and solar photovoltaic (PV) systems. Solar thermal systems use sunlight to heat water or spaces for uses like cooking and water heating. PV systems convert sunlight directly into electricity using solar panels made of silicon cells. Both types of systems provide environmental benefits over fossil fuels and can be implemented on both small and large scales to meet energy needs. Student experiments can explore variables that impact the efficiency of solar collectors and cells.
This document provides an overview of solar power, including its history, technologies, and future potential. It discusses both active solar systems that use mechanical means to distribute solar energy, as well as passive solar techniques used in building design. Photovoltaic cells that directly convert sunlight to electricity are described as the basic building block of solar energy production. Larger scale technologies like trough systems and concentrating solar power that use mirrors to focus sunlight are also summarized. The document outlines key aspects of passive solar home design and concludes by discussing the Department of Energy's projections that solar costs will be competitive with fossil fuels by 2020.
Three new large-scale solar power plants began operating in the western US in 2013, significantly increasing solar power capacity. The three plants use different solar technologies - one uses photovoltaic panels, two use concentrating solar power that collects and stores thermal energy. Combined, they can produce over 800 MW of electricity, equal to a large fossil fuel plant. Their success will influence whether more large solar plants are built and determine the future of utility-scale solar energy in the US. However, concerns remain about the environmental impacts of siting large plants in fragile desert ecosystems.
The document discusses the benefits of solar energy as a renewable resource. It states that solar energy has the potential to meet humankind's total energy demand given that the amount of solar energy that reaches the Earth's surface in one hour exceeds our total annual energy consumption. It then provides an overview of the two main categories of solar power: solar thermal and solar photovoltaics. Solar thermal is used for water heating and cooking while solar photovoltaics generate electricity. The document outlines various passive solar applications and active solar thermal and photovoltaic technologies to harness the sun's energy.
This document summarizes information about solar energy. It discusses what solar energy is, how much the Earth receives, and major uses like daylight, drying crops, space heating, water heating, and generating electricity. It describes passive and active systems for using solar energy to heat water and living spaces. Larger scale applications like power towers and parabolic dishes that generate solar-thermal electricity are also outlined. The advantages of solar energy being renewable and clean are highlighted, along with some disadvantages like high costs and lack of power at night.
This presentation provides an overview of the types of renewable energy resources and capabilities in the State of Arizona. If you would like to use this, please request a copy.
Advanced Solar Industries and Namaste Solar installed a 2.6 MW solar photovoltaic system for Elizabethtown College. The system consists of 8,170 solar modules across 11 acres and uses a central inverter to convert the solar power to electricity that can power parts of the college. The solar project was designed and installed to provide renewable energy to the college for over 25 years while also offering educational benefits to students.
The document discusses opportunities for developing solar energy projects on abandoned mine lands (AMLs) in the United States. It provides an overview of solar energy technologies, including photovoltaics and solar thermal plants. Examples are given of large-scale solar energy projects installed at former mining and contaminated sites, such as a 14-MW project at Nellis Air Force Base in Nevada. AMLs are described as potentially excellent locations for solar facilities because they have abundant sunlight, large open areas, and existing infrastructure. Developing solar energy at AMLs can return contaminated lands to productive reuse while generating renewable energy and local economic benefits.
The document discusses what energy from the sun is and how it is used. It explains that the sun's energy allows plants to produce food through photosynthesis and powers weather patterns like wind that can be converted to electricity. It then describes the two main ways solar energy is generated - through photovoltaic cells that convert sunlight to electricity, and solar thermal systems that convert it to heat. Both require large surface areas to effectively capture the sun's energy at scale. While a renewable source, solar energy systems are expensive and cannot generate power at night or without sunlight.
Alameda County Saves $540,000 A Year in Electricity Costs with SunPowersunpower
They say sustainability starts at home. For Alameda County, home happens to be 738 square miles on the east side of the San Francisco Bay—population 1.4 million http://us.sunpower.com
The document discusses solar energy as a renewable and sustainable source of energy. It notes that solar energy can be used to generate both heat and electricity. While solar power has several benefits, it also faces some challenges in widespread adoption related to high upfront installation costs and the need for battery storage. The document aims to address common myths about solar energy and provide facts about solar panel technology and usage. It outlines how solar panels work to convert sunlight into electricity and provides statistics on solar energy production and costs in homes. Overall, the document presents an overview of solar energy as a viable non-polluting alternative to fossil fuels.
The document discusses solar energy as a natural, renewable resource. It notes that within 40 minutes, the U.S. receives more energy from the sun than it burns from fossil fuels in a year. While solar architecture dates back thousands of years, common myths have prevented more widespread adoption of solar power, such as the ideas that solar power is expensive or not viable at night. However, the document explains that solar panels can power modern homes and appliances, and net metering allows excess solar power to be supplied to homes from the electric grid.
The document discusses solar power and how it works. Solar panels convert sunlight directly into electricity that can power homes and other devices. Solar energy is renewable and produces no waste or pollution. It works best in sunny locations like California and Australia where the climate allows for consistent sunlight exposure to power solar panels. However, solar energy is not effective at night and can be unreliable in less sunny areas.
This document discusses various alternative energy sources that can help reduce carbon emissions, including solar, wind, hydroelectric, geothermal, biomass and hydrogen power. It provides details on how these different technologies work to generate electricity and explains their benefits in addressing climate change over carbon-based fuels. The document also notes that continued development is needed for alternative energies to meet more of the world's growing energy demands.
This document discusses sustainable energy options for Coles County, Illinois and the Midwest region. It proposes establishing a new company called SolarUS to sell, install, finance, and maintain solar equipment. This would help address needs for clean heat, lighting and electricity sources while creating jobs and economic opportunities in the region.
Top mailing list providers in the USA.pptxJeremyPeirce1
Discover the top mailing list providers in the USA, offering targeted lists, segmentation, and analytics to optimize your marketing campaigns and drive engagement.
Best practices for project execution and deliveryCLIVE MINCHIN
A select set of project management best practices to keep your project on-track, on-cost and aligned to scope. Many firms have don't have the necessary skills, diligence, methods and oversight of their projects; this leads to slippage, higher costs and longer timeframes. Often firms have a history of projects that simply failed to move the needle. These best practices will help your firm avoid these pitfalls but they require fortitude to apply.
Solar power works by converting the energy from sunlight into electricity through solar panels and cells. Solar cells, made of silicon, absorb sunlight which causes electrons to move, generating direct current electricity. Multiple solar cells are connected to form solar panels. The electricity generated is either used immediately or converted to alternating current and fed into the electric grid. Adopting solar power reduces electricity bills and dependency on non-renewable energy sources while helping the environment.
The document provides a high-level history of solar energy technology development from the 1950s to present day. It discusses key milestones such as the creation of the first solar cell, decreases in solar cell production costs over time, increases in solar cell efficiency, and the use of solar power for applications such as powering vehicles and buildings. It also promotes switching to solar power to gain energy independence.
The document summarizes alternative energy sources in Arkansas. It defines different forms of alternative energy like hydroelectric, wind, solar, biomass, nuclear, and geothermal power. It then discusses the availability and value of each energy source in Arkansas based on the author's research. Hydroelectric, biomass, and geothermal power are identified as the most possible and valuable alternative energy options for Arkansas. Solar and wind power are also possible in some areas of the state.
Solar energy can be harnessed through both solar thermal and solar photovoltaic (PV) systems. Solar thermal systems use sunlight to heat water or spaces for uses like cooking and water heating. PV systems convert sunlight directly into electricity using solar panels made of silicon cells. Both types of systems provide environmental benefits over fossil fuels and can offset utility costs. Students can experiment with designing solar collectors and exploring factors that affect their efficiency.
Solar energy can be harnessed through both solar thermal and solar photovoltaic (PV) systems. Solar thermal systems use sunlight to heat water or spaces for uses like cooking and water heating. PV systems convert sunlight directly into electricity using solar panels made of silicon cells. Both types of systems provide environmental benefits over fossil fuels and can be implemented on both small and large scales to meet energy needs. Student experiments can explore variables that impact the efficiency of solar collectors and cells.
This document provides an overview of solar power, including its history, technologies, and future potential. It discusses both active solar systems that use mechanical means to distribute solar energy, as well as passive solar techniques used in building design. Photovoltaic cells that directly convert sunlight to electricity are described as the basic building block of solar energy production. Larger scale technologies like trough systems and concentrating solar power that use mirrors to focus sunlight are also summarized. The document outlines key aspects of passive solar home design and concludes by discussing the Department of Energy's projections that solar costs will be competitive with fossil fuels by 2020.
Three new large-scale solar power plants began operating in the western US in 2013, significantly increasing solar power capacity. The three plants use different solar technologies - one uses photovoltaic panels, two use concentrating solar power that collects and stores thermal energy. Combined, they can produce over 800 MW of electricity, equal to a large fossil fuel plant. Their success will influence whether more large solar plants are built and determine the future of utility-scale solar energy in the US. However, concerns remain about the environmental impacts of siting large plants in fragile desert ecosystems.
The document discusses the benefits of solar energy as a renewable resource. It states that solar energy has the potential to meet humankind's total energy demand given that the amount of solar energy that reaches the Earth's surface in one hour exceeds our total annual energy consumption. It then provides an overview of the two main categories of solar power: solar thermal and solar photovoltaics. Solar thermal is used for water heating and cooking while solar photovoltaics generate electricity. The document outlines various passive solar applications and active solar thermal and photovoltaic technologies to harness the sun's energy.
This document summarizes information about solar energy. It discusses what solar energy is, how much the Earth receives, and major uses like daylight, drying crops, space heating, water heating, and generating electricity. It describes passive and active systems for using solar energy to heat water and living spaces. Larger scale applications like power towers and parabolic dishes that generate solar-thermal electricity are also outlined. The advantages of solar energy being renewable and clean are highlighted, along with some disadvantages like high costs and lack of power at night.
This presentation provides an overview of the types of renewable energy resources and capabilities in the State of Arizona. If you would like to use this, please request a copy.
Advanced Solar Industries and Namaste Solar installed a 2.6 MW solar photovoltaic system for Elizabethtown College. The system consists of 8,170 solar modules across 11 acres and uses a central inverter to convert the solar power to electricity that can power parts of the college. The solar project was designed and installed to provide renewable energy to the college for over 25 years while also offering educational benefits to students.
The document discusses opportunities for developing solar energy projects on abandoned mine lands (AMLs) in the United States. It provides an overview of solar energy technologies, including photovoltaics and solar thermal plants. Examples are given of large-scale solar energy projects installed at former mining and contaminated sites, such as a 14-MW project at Nellis Air Force Base in Nevada. AMLs are described as potentially excellent locations for solar facilities because they have abundant sunlight, large open areas, and existing infrastructure. Developing solar energy at AMLs can return contaminated lands to productive reuse while generating renewable energy and local economic benefits.
The document discusses what energy from the sun is and how it is used. It explains that the sun's energy allows plants to produce food through photosynthesis and powers weather patterns like wind that can be converted to electricity. It then describes the two main ways solar energy is generated - through photovoltaic cells that convert sunlight to electricity, and solar thermal systems that convert it to heat. Both require large surface areas to effectively capture the sun's energy at scale. While a renewable source, solar energy systems are expensive and cannot generate power at night or without sunlight.
Alameda County Saves $540,000 A Year in Electricity Costs with SunPowersunpower
They say sustainability starts at home. For Alameda County, home happens to be 738 square miles on the east side of the San Francisco Bay—population 1.4 million http://us.sunpower.com
The document discusses solar energy as a renewable and sustainable source of energy. It notes that solar energy can be used to generate both heat and electricity. While solar power has several benefits, it also faces some challenges in widespread adoption related to high upfront installation costs and the need for battery storage. The document aims to address common myths about solar energy and provide facts about solar panel technology and usage. It outlines how solar panels work to convert sunlight into electricity and provides statistics on solar energy production and costs in homes. Overall, the document presents an overview of solar energy as a viable non-polluting alternative to fossil fuels.
The document discusses solar energy as a natural, renewable resource. It notes that within 40 minutes, the U.S. receives more energy from the sun than it burns from fossil fuels in a year. While solar architecture dates back thousands of years, common myths have prevented more widespread adoption of solar power, such as the ideas that solar power is expensive or not viable at night. However, the document explains that solar panels can power modern homes and appliances, and net metering allows excess solar power to be supplied to homes from the electric grid.
The document discusses solar power and how it works. Solar panels convert sunlight directly into electricity that can power homes and other devices. Solar energy is renewable and produces no waste or pollution. It works best in sunny locations like California and Australia where the climate allows for consistent sunlight exposure to power solar panels. However, solar energy is not effective at night and can be unreliable in less sunny areas.
This document discusses various alternative energy sources that can help reduce carbon emissions, including solar, wind, hydroelectric, geothermal, biomass and hydrogen power. It provides details on how these different technologies work to generate electricity and explains their benefits in addressing climate change over carbon-based fuels. The document also notes that continued development is needed for alternative energies to meet more of the world's growing energy demands.
This document discusses sustainable energy options for Coles County, Illinois and the Midwest region. It proposes establishing a new company called SolarUS to sell, install, finance, and maintain solar equipment. This would help address needs for clean heat, lighting and electricity sources while creating jobs and economic opportunities in the region.
Top mailing list providers in the USA.pptxJeremyPeirce1
Discover the top mailing list providers in the USA, offering targeted lists, segmentation, and analytics to optimize your marketing campaigns and drive engagement.
Best practices for project execution and deliveryCLIVE MINCHIN
A select set of project management best practices to keep your project on-track, on-cost and aligned to scope. Many firms have don't have the necessary skills, diligence, methods and oversight of their projects; this leads to slippage, higher costs and longer timeframes. Often firms have a history of projects that simply failed to move the needle. These best practices will help your firm avoid these pitfalls but they require fortitude to apply.
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Building Your Employer Brand with Social MediaLuanWise
Presented at The Global HR Summit, 6th June 2024
In this keynote, Luan Wise will provide invaluable insights to elevate your employer brand on social media platforms including LinkedIn, Facebook, Instagram, X (formerly Twitter) and TikTok. You'll learn how compelling content can authentically showcase your company culture, values, and employee experiences to support your talent acquisition and retention objectives. Additionally, you'll understand the power of employee advocacy to amplify reach and engagement – helping to position your organization as an employer of choice in today's competitive talent landscape.
How to Implement a Real Estate CRM SoftwareSalesTown
To implement a CRM for real estate, set clear goals, choose a CRM with key real estate features, and customize it to your needs. Migrate your data, train your team, and use automation to save time. Monitor performance, ensure data security, and use the CRM to enhance marketing. Regularly check its effectiveness to improve your business.
Anny Serafina Love - Letter of Recommendation by Kellen Harkins, MS.AnnySerafinaLove
This letter, written by Kellen Harkins, Course Director at Full Sail University, commends Anny Love's exemplary performance in the Video Sharing Platforms class. It highlights her dedication, willingness to challenge herself, and exceptional skills in production, editing, and marketing across various video platforms like YouTube, TikTok, and Instagram.
Event Report - SAP Sapphire 2024 Orlando - lots of innovation and old challengesHolger Mueller
Holger Mueller of Constellation Research shares his key takeaways from SAP's Sapphire confernece, held in Orlando, June 3rd till 5th 2024, in the Orange Convention Center.
Easily Verify Compliance and Security with Binance KYCAny kyc Account
Use our simple KYC verification guide to make sure your Binance account is safe and compliant. Discover the fundamentals, appreciate the significance of KYC, and trade on one of the biggest cryptocurrency exchanges with confidence.
Navigating the world of forex trading can be challenging, especially for beginners. To help you make an informed decision, we have comprehensively compared the best forex brokers in India for 2024. This article, reviewed by Top Forex Brokers Review, will cover featured award winners, the best forex brokers, featured offers, the best copy trading platforms, the best forex brokers for beginners, the best MetaTrader brokers, and recently updated reviews. We will focus on FP Markets, Black Bull, EightCap, IC Markets, and Octa.
The Genesis of BriansClub.cm Famous Dark WEb PlatformSabaaSudozai
BriansClub.cm, a famous platform on the dark web, has become one of the most infamous carding marketplaces, specializing in the sale of stolen credit card data.
[To download this presentation, visit:
https://www.oeconsulting.com.sg/training-presentations]
This presentation is a curated compilation of PowerPoint diagrams and templates designed to illustrate 20 different digital transformation frameworks and models. These frameworks are based on recent industry trends and best practices, ensuring that the content remains relevant and up-to-date.
Key highlights include Microsoft's Digital Transformation Framework, which focuses on driving innovation and efficiency, and McKinsey's Ten Guiding Principles, which provide strategic insights for successful digital transformation. Additionally, Forrester's framework emphasizes enhancing customer experiences and modernizing IT infrastructure, while IDC's MaturityScape helps assess and develop organizational digital maturity. MIT's framework explores cutting-edge strategies for achieving digital success.
These materials are perfect for enhancing your business or classroom presentations, offering visual aids to supplement your insights. Please note that while comprehensive, these slides are intended as supplementary resources and may not be complete for standalone instructional purposes.
Frameworks/Models included:
Microsoft’s Digital Transformation Framework
McKinsey’s Ten Guiding Principles of Digital Transformation
Forrester’s Digital Transformation Framework
IDC’s Digital Transformation MaturityScape
MIT’s Digital Transformation Framework
Gartner’s Digital Transformation Framework
Accenture’s Digital Strategy & Enterprise Frameworks
Deloitte’s Digital Industrial Transformation Framework
Capgemini’s Digital Transformation Framework
PwC’s Digital Transformation Framework
Cisco’s Digital Transformation Framework
Cognizant’s Digital Transformation Framework
DXC Technology’s Digital Transformation Framework
The BCG Strategy Palette
McKinsey’s Digital Transformation Framework
Digital Transformation Compass
Four Levels of Digital Maturity
Design Thinking Framework
Business Model Canvas
Customer Journey Map
IMPACT Silver is a pure silver zinc producer with over $260 million in revenue since 2008 and a large 100% owned 210km Mexico land package - 2024 catalysts includes new 14% grade zinc Plomosas mine and 20,000m of fully funded exploration drilling.
Starting a business is like embarking on an unpredictable adventure. It’s a journey filled with highs and lows, victories and defeats. But what if I told you that those setbacks and failures could be the very stepping stones that lead you to fortune? Let’s explore how resilience, adaptability, and strategic thinking can transform adversity into opportunity.
At Techbox Square, in Singapore, we're not just creative web designers and developers, we're the driving force behind your brand identity. Contact us today.
2. Solar Arizona:
A solar energy tour of Arizona
The vision of a solar Arizona
– a place where significant
amounts of clean energy are
generated from the power of
the sun – may be closer than
you think. In this CD,
compiled by the Arizona
Department of Commerce
Energy Office, you’ll learn of
ongoing efforts to maximize
the utilization of renewable
energy across the state.
3. Solar Arizona:
October is Solar and
Renewable Energy
Month
Governor Jane D. Hull has
declared October 2002 as
Solar and Renewable Energy
Month. The Arizona
Department of Commerce
Energy Office is working
with the solar community to
stage events throughout the
state.
4. Solar Arizona:
Oct 4-6 Green Building Expo – Phoenix
Oct 5 STAR Center Tour – Tempe
Oct 5 Flagstaff Solar Tour
Oct 5 Prescott Solar Tour
Oct 5 Women for Sustainable
Technologies Conference. -- Tucson
Oct 9-12 EEBA Conference – Phoenix
Oct 10-12 Solar Electric Training --
Tucson
Oct 12 Sedona Solar Tour
Oct 19 Valley of the Sun Solar Tour
Oct 26 Solar Seminar -- Douglas
Oct 26 –27 Hot Topics and Cool
Solutions Conference -- Tucson
Oct 26-27 Tucson Solar Home Tour
Oct 30 Solar dedication Prescott Airport.
5. Solar Arizona
Calex Homes, in a joint
venture with SRP, has
introduced both Solar Water
Pre-Heating and Photovoltaic
Energy (Electricity) in new
home construction in three
east valley subdivisions. The
system at the right is a 1.4 kW
photovoltaic system on a
house under construction.
Click here for larger image
7. Solar Arizona
The completed house at
Johnson Ranch Lakeview
Gardens (Calex Homes) has
both a photovoltaic and solar
water heating system. Sandia
Labs is monitoring the solar
water heating system to
obtain vital information on
energy efficiencies and
benefits of this state-of-the-art
solar water heating system. Click here for larger image
9. Solar Arizona
SRP has installed the latest in
Photovoltaic Panels,
including PV shingles (center
house) that match the color of
the roof. Preliminary
estimates indicate these
systems will produce one (1)
KW of electricity, which
should be sufficient to supply
20-60% of the required
power, depending on the
season.
Click here for larger image
11. Solar Arizona
This home (bottom) in
Johnson Ranch Estates in the
East Valley has four 300-watt
panels that cover
approximately 104 square feet
of the roof surface. The array
on the adjacent building (top)
consists of 12 85-watt panels
that covers 108 square feet of
rooftop. Click here for larger image
13. Solar Arizona
Calex Homes has teamed
with SRP to offer solar
options on homes in The
Estates at Johnson Ranch and
Lakeview Gardens at Johnson
Gardens. This model home in
Johnson Ranch Estates has a
1.2 kW photovoltaic array on
the rooftop.
Click here for larger image
15. Solar Arizona
As these homes
demonstrate, the solar
industry has made great
strides in the past decade to
integrate solar systems into
the roofs of homes. This
new generation of solar
systems have quietly found
their way onto rooftops
throughout Arizona,
offering an aesthetically
pleasing alternative to the
systems of the 1980s.
Click here for larger image
17. Solar Arizona
"What we're literally
doing here is building a
small power plant one
house at a time," said
John Wesley Miller,
developer/homebuilder of
the 99 high-tech solar
homes in Tucson's
historic Armory Park
neighborhood. Homes
include solar water
heating and solar
electricity.
Click here for larger image
19. Solar Arizona
A 2.4 kw PV system being
installed on a roof in a
Scottsdale subdivision.
The system is one of a
growing number of grid-
connected homes in urban
areas that are taking
advantage of utility rebates
and tax credits to finance
systems with favorable
payback terms. Click here for larger image
21. Solar Arizona
The 2.4 kW PV system on
this Scottsdale house is
eligible for a $4,800 utility
company rebate and a
$1,000 state tax credit. The
Arizona solar tax credit is
25% of the system cost up
to a maximum of $1,000.
The tax credit (ARS 43-
1083) has been in existence
since 1995.. Click here for larger image
23. Solar Arizona
This 1 kW PV system in
Scottsdale consists of 20 50-
watt solar panels. The house
is grid-connected, thus the
homeowners can sell solar
generated electricity back to
the utility company if the
house does not have a
demand for the electricity at
the time it is produced.
Click here for larger image
25. Solar Arizona
This Prescott house does
not stand out from the
others in the
neighborhood, however it
is different. The house
collects rainwater for all
household purposes. It
utilizes solar electricity
and solar water heating. It
is built with certified
sustainably harvested and
local 'leftover' wood and
utilizes cast earth and
strawbale construction.
Click here for larger image
27. Solar Arizona
Designed by Prescott College
student Brad Tito, the house
uses a fraction of the energy
the previous house on the
same site consumed. That
house was about one-quarter
the size of the new one but
consumed more than four
times the energy. This past
January the utility bills were
$22 for gas (used for cooling
and water heating) and $4.23
for electricity.
Click here for larger image
29. Solar Arizona
Solar isn’t exactly a new
phenomenon, Arizonans
began building solar homes
(passive and active) in the
1970s in response to the
Energy Crisis. This home,
in Flagstaff, is just one of
many built throughout the
state in the late 1970s. The
passive solar features
provides more than 55% of
the home’s heating needs.
Click here for larger image
31. Solar Arizona
Another example of the
alternative building methods
employed during the 70s and
80s, this Tempe solar home
is 68 percent earth covered
or earth bermed. Built in
1981 this home’s features
include a rock bed for
heating and cooling, an
attached greenhouse and a
solar domestic water heating
system.
Click here for larger image
33. Solar Arizona
This 1850 square foot
residence in Prescott is made
of Poured Earth and features
solar for all electrical needs
and hot water. The home
also uses passive solar
power and its 16" thick
thermal walls for both
heating and cooling. Backup
heat is provided by a radiant
floor and a high efficiency
wood stove.
Click here for larger image
35. Solar Arizona
Solar energy is a great way
to heat swimming pools.
Using the existing pool
pump, water is diverted to
the solar system. It then
passes through the
collectors, where the water
is heated by the sun’s radiant
energy. Next, the water is
returned to the pool to repeat
the cycle until the pool has
been warmed.
Click here for larger image
37. Solar Arizona
In many cases, solar rooftop
systems are barely
noticeable. Planned
communities and
Homeowner Associations,
once a barrier to growth in
the solar industry, have
dropped their objections to
rooftop systems. ARS 33-
439 protects the rights of
homeowners to install and
use solar systems on their
property.
Click here for larger image
39. Solar Arizona
Solar energy has long been
used in areas of the state
that are not serviced by the
electric utility company.
This off-grid solar house on
the Navajo Reservation was
constructed by the local
coal company when the
original housing structure
had to be removed due to
mining activity. Click here for larger image
41. Solar Arizona
At the Backus Ranch in
central Arizona, this PV
system, installed in 1980,
provides the only source of
power for a family ranch
house. In areas throughout
Arizona that are beyond the
utility lines, PV systems are
often much cheaper for the
rancher than paying for a
utility line extension. Click here for larger image
43. Solar Arizona
This 900-watt solar electric
system near Sedona runs a 5-
horsepower water pump.
The pump draws water from
860 feet deep. PV water
pumping systems are
common throughout Arizona
in areas where utility power
is unavailable. Click here for larger image
45. Solar Arizona
Civano, a planned energy-
efficient community in
Tucson, includes a
neighborhood center equipped
with a 6-kW PV system.
Civano home’s are 30-60%
more energy efficient than the
typical home. The initial
planning stages of the Civano
Project and the community
center were funded by the
Arizona Energy Office.
Click here for larger image
47. Solar Arizona
To meet the reduced energy
goals set for the community of
Civano, the builders offer
various energy efficient and
renewable energy options
Among the options are
photovoltaic grid-tied systems,
solar hot water heaters, and
thermal mass design and
masonry construction.
Click here for larger image
49. Solar Arizona
This photo offers a bird’s-
eye view of the Civano
development. Various
renewable energy options
are available to homebuyers
including passive solar
design, solar water heating
and photovoltaic systems
Click here for larger image
51. Solar Arizona
A cool tower and shaded
entrance patio highlight
front of building at the
Global Solar Manufacturing
facility in the community of
Civano. Global Solar is a
manufacturer of thin-film
PV products and a major
employer in the community.
Click here for larger image
53. Solar Arizona
The TEP Sunshare program
pays a rebate to customers
who install solar electric
systems on their homes. To
date, 24 Tucson area
homeowners have taken
advantage of the utility
company’s program and have
received rebates ranging
from $2,000 to $10,000.
Click here for larger image
55. Solar Arizona
City of Tucson Southeast
Service Center: The City’s
main objectives in
undertaking this project
were to design and build a
commercial office building
using commercially
available energy efficient
products and to educate
staff, consultants and
contractors in application
methodology.
Click here for larger image
57. Solar Arizona
Glendale West Area Water
Reclamation Facility:
Solar panels generate hot
water and electricity for the
administration building. The
panels also facilitate passive
solar heat gain in the winter.
The PV system generates over
12 kW per hour of electricity.
The panels provide shade for
walkways and south-facing
glass.
Click here for larger image
59. Solar Arizona
The Safford Middle School
PV installation was
completed in the fall of 2000.
The 4 kW system was a joint
venture of many solar
organizations in the state and
was funded through a MSR
grant from US DOE. Safford
is one of 14 schools in the
state that have gone solar.
Click here for larger image
61. Solar Arizona
Solar Pond Aerator
Somerton Municipal
Wastewater Treatment
Plant: Somerton estimates
a 100% savings on energy
costs to operate the 40hp
Blower system due to the
blowers being completely
shut off. The estimated
cost of electricity saved is
$1,080 per month ($12,960
per yr).
Click here for larger image
63. Solar Arizona
A 25 kW PV systems sits
overlooking a landfill in
Central Arizona. The
system was developed by
APS has part of a federal
grant through the Arizona
Energy Office to displace
diesel generators. The
system at the Graywolf
Lanfill made immediate
economic sense for
operators.
Click here for larger image
65. Solar Arizona
This pole mounted
photovoltaic system powers
a light at a trail entrance in
the Tonto National Forest.
Utility grid power was
several miles from the site
and line extension had to be
underground, meaning that
solar electricity was the
least-cost alternative on a
first-cost basis. Click here for larger image
67. Solar Arizona
Top -- Wing walls and
overhangs protect insulated
window walls yet provide day
lighting deep into the Sierra
Vista Library. Middle -- From
the west, massive wing walls
protect windows from direct
sun and create shade spaces
outdoors in the park. Bottom --
At the north energy clear
insulated roof panels provide
day lighting for the northern
portions of the library.
Click here for larger image
69. Solar Arizona
The design of the Sierra Vista
Library -- with south and
southwest-facing glass
dictated the use of low-e
thermal pane glass and
window overhangs with fins.
With its use of natural
daylighting and other
features, the annual energy
use for the new building is
estimated to be one-half of
the national design standard.
Click here for larger image
71. Solar Arizona
Installed in 1998 this system
preheats 50,000 gallons of
water daily for use by more
than 1500 federal inmates
and staff at a prison north of
Phoenix. The hot water is
used in the laundry, kitchen,
and shower areas. Data
indicate that the system saves
about $6,000 in electricity
costs per month. Click here for larger image
73. Solar Arizona
Parabolic troughs are used to
heat water for the Federal
Correctional Institution north
of Phoenix. During normal
use, a tracking device keeps
the troughs at the correct angle
to capture the most solar
energy. The system was
installed as part of an Energy
Service Performance Contract
– where a third party covers
the cost of the system and is
repaid from the cost savings.
Click here for larger image
75. Solar Arizona
This large solar thermal
system was installed at a
new barracks facility at Fort
Huachuca Army Base in
Sierra Vista, Arizona. This
building-integrated system
was ground-mounted for
ease in maintenance.
Click here for larger image
77. Solar Arizona
Gould Electronics of
Chandler, has had its
parabolic-trough collector
system since 1982. An
example of the use of oil for
heat transfer, the system
provides process water for
copper foil production.
Click here for larger image
79. Solar Arizona
US Department of Energy
helped design the solar water
heating system at the
Maricopa County Outdoor
Education Center. The
system serves as an
educational tool while
providing real energy, cost,
and emissions savings.
Click here for larger image
81. Solar Arizona
This 2 kW PV system
provides an uninterruptible
power system for the US
Department of Interior’s
Bureau of Indian Affairs at
the Havasupai School in
Supai Village. The village is
located at the bottom of the
Grand Canyon.
Click here for larger image
83. Solar Arizona
This parking ramada is
located at the Yuma Proving
Ground in southwestern
Arizona. As can be seen in
the photo, the structure is an
excellent source of shade in
the hot desert climate. What
can’t be seen is that the PV
panels generate clean power
to charge the electric carts
used on site. Click here for larger image
85. Solar Arizona
On the Utah/Arizona border,
Dangling Rope Marina at
Lake Powell
was one of the first PV
installations in the National
Park Service to replace
electricity produced by
diesel generators.
Click here for larger image
87. Solar Arizona
Two communications towers
at a remote Arizona location
are powered by a 25kW
hybrid PV/diesel system. The
Carol Springs Mountain
system went on-line in Aug
1995 replacing a diesel
generator that ran 24/7. The
PV system powers towers for
AT&T, US West, and a TV
station in Tempe. Click here for larger image
89. Solar Arizona
TEP operates one of the
world’s largest PV power
stations -- a 1.4 MW ground-
mounted system in
northeastern Arizona. The
plant will be expanded to 2.4
MW of generating capacity
by the end of 2002. The
plant began generating
electricity one month after
construction started in June
2001. The entire system was
on-line in five months.
Click here for larger image
93. Solar Arizona
This SRP Solar Power Plant
consists 588 modules covering
approximately 24,418 square
feet. The array DC power is
converted to 208 Volts AC and
interconnected to the SRP
distribution
system by a 12.47 kV isolation
transformer. The ac power
rating is 200 kW.
The PV system is located at
SRP's Agua Fria Generating
Station.
Click here for larger image
95. Solar Arizona
The largest system under test
at APS’s Solar Test and
Research (STAR) Center is a
high-performance
“concentrating” PV power
generator. Although not
suitable for small projects,
concentrator systems have
very good potential for large-
scale power generation.
Click here for larger image
97. Solar Arizona
The concentrating collector
at the STAR Center
produces 20 kW of
electricity, or about enough
to power five Phoenix-area
homes. Systems like these
may someday provide power
for entire communities.
Presently, a system similar
to this is under construction
near the Prescott Airport in
the northern part of the state.
Click here for larger image
99. Solar Arizona
APS is evaluating the
performance of the latest in
dish/Stirling solar power
systems at its STAR Center
near Phoenix. Capable of
producing 25 kW of
electricity, the system uses
mirrors to focus sunlight onto
a thermal receiver, which
runs a Stirling heat engine,
which drives an electric
generator.
Click here for larger image
101. Solar Arizona
Once perfected and
manufactured on a large
scale, the dish/Stirling
engine has the potential to
become one of the cheapest
solar energy technologies
available.
Click here for larger image
103. Solar Arizona
APS and Embry-Riddle
Aeronautical University
jointly constructed a 190
kW solar power plant
north of Prescott.
Opened in March 2001,
the solar power facility
produces enough energy
to power 25 to 40 homes.
Click here for larger image
105. Solar Arizona
The 125-kW APS solar
power plant located in
Gilbert consists of 10 solar
arrays, which will track the
sun from east to west on a
single axis. The plant,
which was dedicated in
April 2001, feeds directly
into the APS electric grid.
Click here for larger image
107. Solar Arizona
In 2001, Glendale
partnered with APS to build
the world’s first commercial
application of high-
concentration PV arrays at
the Glendale Municipal
Airport. This technology
tracks the sun’s movement
and employs special
lenses to magnify the sun’s
rays 250 times onto each
solar cell.
Click here for larger image
109. Solar Arizona
Boyce-Thompson Arboretum
rests at the base of the Picket
Post Mountains of central
Arizona, east of Superior.
Established in 1920, the
arboretum/botanical garden,
cultivates desert plants from
all over the world. The
Arboretum is part of APS’
Project Sol – and is outfitted
with a 2 kW solar array on its
visitor center.
Click here for larger image
111. Solar Arizona
Challenger Learning Center is
an innovative educational
center exploring the wonders
of outer space. Located
northwest of Phoenix, the
Center offers space
exploration programs for
students and the public. The
Center’s roof also supports a
2 kW solar array that provides
additional educational
experiences for students.
Click here for larger image
113. Solar Arizona
The Desert Outdoor Center
at Lake Pleasant is also part
of the APS Project Sol.
Located north of Phoenix,
the Center interprets the
region's flora, fauna and
geology through a variety of
programs open to the
public. A 2 kW solar array
provides power to the
Center. Click here for larger image
115. Solar Arizona
Lowell Observatory is the
perfect location for a solar
array. Well known for both
its astronomical research,
Lowell Observatory was
established by Percival
Lowell in 1894. From the
observatory on Mars Hill,
scientists discovered the
planet Pluto and established
first evidence of an
expanding universe.
Click here for larger image
117. Solar Arizona
Named for Arizona
writer/historian Sharlot Hall
and housed in the Arizona
territorial Governor's
Mansion in Prescott, a log
home built in 1864, the
museum displays artifacts
from Arizona's pioneer
era. The museum’s visitor
center has a roof mounted 2
kW solar array. Click here for larger image
119. Solar Arizona
APS and the City of
Scottsdale have partnered
to build 186 kW of solar
generation at the City’s
facilities. Projects include
solar covered parking, on a
library and water tanks.
The City also purchases
solar energy under the APS
Solar Partner Program.
Click here for larger image
121. Solar Arizona
APS and the City of
Scottsdale partnered on
a solar power plant at the
Scottsdale Water
Campus. The facility
feeds 300 kW of solar
energy – enough to
provide for the electrical
needs of up to 100
homes – to the electric
grid. Click here for larger image
123. Solar Arizona
Located on the grounds
of the APS Solar Test and
Research Center (STAR
Center) in Tempe, this
solar plant generates 182
kW of solar energy for
use by all APS
customers.
Click here for larger image
125. Return to previous slide
The following organizations contributed photos for this CD:
Al Nichols Engineering
Arizona Energy Office
Arizona Solar Center
Arizona Public Service
Az. Solar Energy Ind. Association
American Solar
Calex Homes
City of Glendale
City of Tucson
John Miller Homes
Living Systems Architecture
Dr. Martin J. Pasqualetti
Prescott College
Salt River Project
US DOE -- NREL