solar farm: นี่คือโพสต์ที่เกี่ยวข้องกับหัวข้อนี้
Solar-generated electricity has been on the rise over the last decade, and is today one of the fastest-growing renewable energy sources in the U.S. Solar technology is destined to form the backbone of any clean energy economy. Over recent years, large-scale ground-mounted solar arrays, private rooftop installations, and utility-scale solar farms have increased dramatically in both popularity and productivity.
Solar farms can be community-owned or private, small or large-scale. Large-scale installations cost around $1 per watt of power generated, with a 1MW farm (powering 200 homes per year) requiring an initial investment of around $1,000,000. Factors contributing toward the success of a solar farm include: proximity to existing infrastructure, sunlight availability, land lease rates, and state incentives.
As attitudes toward the climate crisis change, solar farms are an attractive long-term investment now more than ever. This article describes what solar farms are, how much they cost, outlines their revenue potential, and provides you with the information you’ll need to know when considering the development of a solar farm.
Solar energy is the fastest growing renewable energy source in the US. Source: Pixabay
What is a Solar Farm?
Solar farms are renewable energy power stations, comprising large numbers of photovoltaic panels (PV), also known as solar panels. Thanks to the chemical and physical reaction of their photovoltaic cells, when exposed to sunlight, they are able to generate consumable energy by converting sunlight into electricity.
In contrast to domestic solar arrays, which are typically mounted on roofs for the charging of batteries or home appliances, solar farms usually consist of ground-mounted solar panels installed across large areas. These farms (also known as solar parks or power stations) tend to feed electricity directly to the power grid, from which consumers can access this renewable energy.
Varying Uses for Solar Farms
Solar farms may vary greatly in their application. For example, large-scale solar arrays may be community-owned, through which a nearby community can invest in and enjoy the benefits of solar energy. Community solar farms are popular with those who do not have the personal property or space required for a domestic solar installation, yet have access to nearby land available to lease. Generally speaking, community solar farms require less land and are smaller than utility-scale projects.
Larger projects may be state-owned, supplementing the power grid with energy from renewable, rather than nuclear or fossil fuel sources. Alternatively, they may be the investments of private enterprises, who have established a solar farm (whether onsite or offsite), in order to meet their own high energy demands. These installations feed their generated electricity directly to the company in question.
Utility-scale solar farms may power thousands of homes every year. Source: Pixabay
How Much Do Solar Farms Cost?
The investment required by any given solar farm may vary greatly, depending on a number of variable factors. Before developing a solar farm, sound research is required. Here we present average figures and requirements which may be taken as an indicator of your own development’s projected costs.
Average Cost Per Watt
Though cost per watt may vary depending on factors such as sunlight availability, access to infrastructure, and lease rates for the land, as a good rule-of-thumb the installation of large-scale solar farms costs about $1 per watt. That means for a utility-scale farm producing 1MW (one million watts), the average initial investment would be $1,000,000. A farm of this scale would generate enough electricity to power around 200 households per year, and may require 4-5 acres of space. However, other sources state that the cost per watt may reach upwards of $2.50, making a 1MW farm cost about $2,500,000.
Financing Options for Solar Farms
Considering the financing of a solar farm development, there are often many options available to you. Certain states, government bodies, non-governmental organizations, and utility companies offer subsidized loans with reduced interest rates, in a bid to encourage investors to develop renewable energy projects. These loans can be used to purchase not only the solar equipment required, but also the land. Alternatively, you could choose to establish a cooperative group, through which members of your community can invest in and benefit from the farm. Those with the necessary capital need not resort to loans or coops, but could invest in the farm using personal resources.
Of course, if purchasing the land necessary for a solar farm is impossible or undesirable, then the next best option is to lease the land over an extended, ideally lengthy period of time. Given the large return solar power tends to have on the initial investment, and the trend toward green energy in the global economy, leases of around 40-50 years are recommended. In short, a lengthier lease ensures a greater return on investment.
Factors Affecting Solar Farm Lease Rates
The great advantage to solar energy production is that it’s output is consistent and reliable, and relies on an infinite fuel source (sunlight). Given the consistency of this return, fixed rental rates on a per-acre basis are the most common structure used in land lease contracts for utility-scale solar farms. Typically, these contracts range in terms anywhere from 15 to 50 years. However, it is important to remember that rental rates can vary greatly, depending on the size of the project, average land prices in the area, alternative possible uses, and the regional supply and demand of solar power.
Generally speaking, rent tends to be higher for small-scale solar farms (such as community arrays requiring only 5 or 10 acres of land) than large, industrial or utility-scale installations (which may cover hundreds of acres in the same region). The higher rent is incurred not only in order to cover tenants’ access to existing infrastructure and connection to the power grid, but also as recompense for landlords who would prefer to rent to larger-scale developers.
Additionally, whilst land lease rates naturally vary from state to state, they may also differ wildly within a given state. Oftentimes a bidder must understand the profits a landlord makes on the land’s current use, or may hope to gain from alternative developments (such as residential or transport projects), and adjust their bid accordingly. Naturally, the higher demand for land, the higher the cost to rent it.
Factors Affecting Solar Farm Revenue Potential
The long-term value of any solar installation depends largely on the initial investment. In other words, a solar farm is guaranteed to consistently produce energy, which will always be in high demand, but the revenue potential of a farm may only be fully realised once the initial investment has been paid off. Thus, the smaller the initial investment, the sooner the solar farm can start turning profit. One of the best ways to ensure a fast turnaround of capital is to purchase the solar equipment required, though (as we’ve mentioned) there are subsidized, or even $0-down loans for solar projects available to investors.
The primary factors affecting a solar farm’s potential revenue are:
- Sunlight availability
- Location of the farm (i.e. state rules, proximity to exisiting infrastructure)
- SREC (solar renewable energy certificate) values in the area
- SITC (solar investment tax credit) availability in the area
- Additional incentives
In order to produce as much electricity as possible, and thus generate the maximum revenue, the land selected for solar farm development is crucially important. South-facing land (in the USA) is preferable, ideal if that south-facing land is free of obstructions which may cast shadows on solar panels at any point during the day/year. If such obstructions exist, they should be removed (if possible), in order to maximise the potential output of the farm.
Location of the Farm
Solar developments require connection to the electrical grid in order to supply generated electricity to consumers or private enterprises. Thus, an important consideration in the evaluation process should be the proximity of the prospective land to existing infrastructures, such as roads and electricity grids. Utilizing existing infrastructures is preferable, given the immense expense and regulatory processes behind building them from scratch.
Additionally, the layout and quality of the land are important. If the area is unstable, difficult to build on, or contains debris and existing structures, additional investment would be required to prepare the land for the solar farm. with other debris and obstructions, this could make an additional investment necessary to clear the land.
Solar renewable energy certificates are granted per megawatt of solar electricity produced. State regulations known as renewable portfolio standards (RPS) require utilities to produce a certain percentage of their energy from renewable sources. These utilities will buy SRECs from producers of solar energy (such as those private and cooperative owners of solar farms) in order to prove to the State that they have met their RPS quota. Thus, SRECs can provide the owners of solar farms a substantial additional source of annual income.
In order to promote the continued development of renewable energy plants and farms, such as solar farms, the US Federal Government made a system of Investment Tax Credits available to solar developers. As of 2023, the scheme is being phased out, since it has achieved the goal of stimulating the USA’s growth in this economic sector. However, for installations started before the end of 2022, new solar developers may claim tax credits of up to 26% on their solar investment.
In addition to SRECs and SITCs, some federal states will continue to offer private investors and businesses tax cuts in return for investment in the solar sector, including the development of solar farms. Furthermore, some states and public utilities offer cash rebates to solar investors for the speedy installation and deployment of solar farms, which may cover anywhere up to 20% of the investor’s initial investment.
As special measures to increase solar energy production, Feed-In-Tariffs (FITs) may also be offered to solar investors, per kilowatt-hour of electricity a solar farm generates. It is worth researching, however, whether FITs require the investor to build their solar farms using locally-manufactured equipment, or not – this can often be a caveat of these specific incentives.
Solar farms are profitable and reliable in almost any region around the world. Source: Pexels
Solar Farm Development Terms: Defined
Solar Panels Per Acre of Land
Referring to how many solar panels may be installed per acre of land. The number depends on the type of installation (ground-mounted, for example), and the type of panels used. High efficiency mono-crystalline solar panels generate more power per acre, whilst polycrystalline panels (which are more common on solar farms due to the cheaper cost) generate less energy per acre.
Solar Farm Acres Per Megawatt
Referring to the number of acres required to produce 1MW (one-million watts) of solar electricity. Calculating the acreage per megawatt must take into consideration all of the equipment which shall consume space on the farm: primarily the panels and the structural components (note that solar farms tend to be very space efficient). Typically, a 1MW solar power plant installation will require around 4-5 acres, assuming that every kilowatt of solar electricity production will require about 100 square feet of space.
Solar Megawatts Per Acre of Land
Referring to the number of megawatts which can be produced on each acre of land. As always, the calculation depends on the efficiency and effectiveness of the solar panels installed, and the availability of sunlight in the area. The calculation of the space needed is also influenced by the efficiency of the solar panels and the efficiency of the technology. If, as discussed above, a 1MW solar farm requires on average 4.5 acres of land, then each acre would produce 0.222MWh of electricity per year.
Solar Farm Revenue Per Acre
Referring to the revenue generated by the entire solar farm, divided by the number of acres on the farm. As discussed, revenue depends largely on the initial investment costs, the electricity prices at which the energy generated it sold to consumers, and available incentives, credits, and tax breaks.
Solar Farm Profit Per Acre
Referring to the profit made by a solar farm, divided by the number of acres the farm uses. According to Landmark Dividend, the average solar farm profit per acre ranges between $21,250 and $42,500. Of course, these figures vary on a project-to-project basis.
Solar Farm Cost Per Acre
Referring to the cost of establishing a solar farm, divided by the number of acres the farm will cover. Given a 1MW solar farm costs on average at least $1,000,000 and requires about 4.5 acres, but may cost up to $2,500,000, then for a 1MW farm the cost per acre would range from roughly $222,000 to $500,000.
Solar Farm Lease Rates Per Acre
Referring to the costs to lease an acre of land for use in the development of a solar farm. Rates can vary dramatically depending on the several factors discussed above. However, we can state that in the US the cost of leasing one acre of land for solar development is about $500 per month. For a 1MW farm requiring 4.5 acres on average, this places the monthly lease rate at $2,250 per month.
High-efficiency monocrystalline solar panels greatly increase a solar farms profit per acre. Source: Pixabay
Building a Solar Farm: Questions to Ask a Solar Developer
How many acres of land do I need?
The acres required for a solar farm differ depending on the scale of the power plant itself and the efficiency of the panels used. In general, for a solar farm of 1MW at least 4 acres of land are needed, which includes the space required for additional equipment (i.e. on top of the solar panels).
How will my solar panels be kept clean?
In order to maintain the efficiency of solar panels, especially those which are situated close to the ground, routine cleaning is important. Rain water alone is insufficient, and so professional cleaning and maintenance with warm soapy water, a soft cloth and sponge, is necessary. Professionally cleaned solar panels have on average a 12% higher electricity output, arguably mitigating the costs incurred by hiring professional cleaning services.
How many panels can I put on this acreage of land?
The number of solar panels which may be installed on any given acre of land depends on two things: the way they are mounted, and what type of panels are being used. Highly efficient monocrystalline solar panels generate more electricity per acre than cheaper, less efficient polycrystalline panels.
[Update] What Is A Solar Farm? What Are The Pros and Cons? | solar farm – POLLICELEE
Did you know that the energy sun gives to the earth for one hour could
the worldwide energy needs for one year
? Consumers and policymakers end up with two options in battling with the economy of energy. They could make more or useless. It is a practical issue to a certain extent, while conservation is a popular idea.
Without a doubt, the sun is an incredible energy source.
And even though we are not capable but rather gathering a small amount of this energy, tackling this power by introducing solar panels can substantially affect
In this way, dependent
nations on automation that restriction of power usage is likely
attainable around the edges of peoples’ lives
. Renewable energy better calls to this next-generation society. Solar farms are appealing to many. However
they are not without weaknesses.
What is a solar farm?
A solar farm collects solar arrays on vacant land to produce power from the sun’s energy.
While homeowners with solar panels on their rooftops intend to produce enough power to cover their individual energy needs, large utility-scale solar farms
to create enough electricity to power many homes and businesses
. Who do solar farms work?
A solar panel farm supplies power into the electrical grid as fossil-fuel energy plants do
Only that solar farms produce no pollution of any sort and use almost no water compared with traditional power plants
Large commercial photovoltaic (PV) solar farms usually use hundreds or thousands of PV panels covered to convert the sun’s rays into electricity
Types of Solar Farms
There are two types of solar farms. Both photovoltaic (PV) solar panels and solar thermal energy arrays can
in solar farms.
A photovoltaic solar panel farm uses solar panels that convert sunlight immediately into electricity
A solar thermal energy farm uses illustrative troughs that gather, reflect, and concentrate the sun’s energy
. To warm a heat transfer fluid. This exchange fluid
into a thermal engine that converts the heat into power.
PV solar farms are more popular and in a lot more use.
How does a solar farm work?
Using unoccupied land,
as farmland, and many solar panels, a solar farm converts solar energy into electric power
. The generated power
once more into the electric grid. The local electricity company pays the owner for the generated energy.
The primary standards are similar to a solar panel operation installed on a homeowner’s rooftop,
for a bigger scope
. A solar farm makes use of an enormous plot of land to produce and sell power to the local utility at a profit.
How much energy can a solar farm produce?
The biggest solar panel farm on the planet is Longyangxia Dam Solar Park, situated in China. The solar farm generates approximately 850 MW every day.
There is a 550 MW solar farm (The Desert Sunlight Project) constructed in 2011 in Riverside County, California
The biggest solar thermal energy farm on the planet is
called the Ivanpah Solar Electric Generating System and is situated
in the Mojave Desert in California. The farm produces a daily limit of 392 MW.
Pros and Cons of Solar Farms
Advantages of a Solar Farm
Solar farms are enormous scope collections of PV (photovoltaic) panels spread more than one to 100 acres of land
Collecting the sun’s energy to produce power, they feed into local and regional power grids organized by public utilities
. All by themselves, they discharge no harmful atmospheric discharges. This is a good thing for the atmosphere and for
individual who lives. As a result, fewer fossil fuels burned, further improving the atmosphere’s surface.
Neither does solar power contaminate land or water. Non-renewable fuels like oil are sometimes leaked or spilled. This
affects the soil, vegetation, and animal populations. No such large-scale harm is ever connected to solar farms or PV panels.
PV systems have since quite a long
empowered calculators and timepieces
with minimal impact on health
As we discuss solar farms’ pros and cons, we have to clarify the terminology. They are not “farms,” as in people raise animals or grow crops. The PV modules collect energy from the sun and produce power. Once set up, the modules need little maintenance or support. Besides a
cleaning, these units can work for more than twenty years without even a check-up.
Once more, this reality remains unmistakable help against the equipment related to oil or petroleum gas withdrawal
Furthermore, the minimal maintenance for solar panels piles up well against wind turbines, another popular renewable energy
. When the modules are going, there is little else to do. A crop or livestock farmer can
dream of a day without intense work.
Any assessment of solar farms’ pros and cons is insufficient without considering noise pollution
. Drills cause noise, so as pumps.
every process linked with fossil fuel making is noisy.
It is interesting to know that an attempt to study and investigate whale communication in 2013 must
because of the undersea commotion produced by offshore drilling
. Gas compressors are among the
On the other hand
, solar farms discharge at the very least a low murmur.
when the direct current secured by the PV panels
over to exchanging current to
be obtained by
. Indeed, it is so low that one can
hear it if there is relative quietness outside the solar farm’s borders.
Regular consumers of electricity like to be aware that its source capacity will be accessible, not
today, but in the long run
One significant shortcoming of relying upon geological resources is the time it takes for them to renew
. A few researchers theorize that it could be more than 100,000 years for a gallon of oil to do as such.
On the positive side of solar farms, the pros and cons are that sunlight renews itself
Except if the earth quits revolving around its star, we have a consistent power source with the aid of solar farms
Many research institutions and universities, indeed, are integrating solar farms to help power their grounds
Together with wind and hydroelectric generation, these organizations are
of petroleum products and enhancing renewable and sustainable supplies
Disadvantages of a Solar Farm
Storage media like batteries help to save collected energy for when the need is ideal.
, the technology to
this is expensive.
Balancing this cost is how most energy consumption happens when the sun is at its brightest—around noontime
Such calculations do not guarantee more prominent heat usage in the corner of winter, for example
. This is something to think about among the solar farm pros and cons.
Lithium-ion battery packs—equipped for storing solar energy—cost around $1,000 per kilowatt-hour
Indeed, even with the extended limit of grids to get sun-generated power, the cost given to the customer is unbearable
. Compared with what they would pay about non-renewable energy source power.
, the sun will
be there (for a long time to come, in any case). Nonetheless, clouds disrupt everything, not to mention the nighttime. This absence of constant access makes more dependence on solar energy a problem. Other sustainable sources —wind power, once more—are additionally irregular, much more so. This is a calming reality when weighing the solar farm’s pros and cons.
As a result of this absence of consistency, grid operators
with a problem and
compelled to search out other energy suppliers when solar farms generate a smaller yield
, solar farms are not
restrictive sources for grids. Which must receive a combination of renewable and non-renewable supplies. Indeed, even the development of clouds can
affect solar farm electricity output.
Cadmium telluride (CdTe) and copper indium gallium diselenide (CIGS) are not accessible at retail enterprises
. These are particular
used to produce solar cells
. Moreover, they
and the use of uncommon earth minerals is questionable, regardless of whether the objectives are not. Given the lifespan of solar panels, this
won’t give off an impression of worry.
, while sunlight is sustainable, these components are not.
What else happens in a solar farm?
While solar farms
in agricultural areas, one may find that the photovoltaic cells
related to a previous agricultural cycle since
solar farms are the most
means of supplying power to a power grid.
This is generally because of the absence of harmful materials available in the usage of fossil fuels. And the absence of moving parts (which is available in wind farms).
there have been a couple of studies
from places like the Argonne National Laboratory from the US Department of Energy that
solar farms to be
.’ This term implies that the environment is present at a solar farm is ideal for pollinators.
Like birds and particularly honey bees since the local mowing and spreading of herbicide enhances the development of a wide range of various flowers
. Thus expanding organic variety.
They likewise appeared that if the solar farms’ homeowners additionally applied some targeted herbicide for weeds and planted a few seeds, it could make an ideal pollinator condition
The advancement and protection of honey bees is likewise nothing to
that honey bee pollination includes more than $15 billion in value to the U.S. agribusiness industry throughout the year
So what you can take from this area is that solar farms can have
agricultural advantages close by their essential use, some of which (for example, the
necessary when the number of inhabitants in
is declining at an alarming rate
Outfitting the sun’s capacity for human use shows a huge guarantee as an answer for energy shortage and climate change
, answers in some cases bring up more issues as solutions now and then make more issues.
Further research will help settle a few issues, yet expanding energy sources is likely a safe procedure for the present moment
World’s Largest Hydro-Floating Solar Farm Goes Live in Thailand
A floating solar farm that’s equivalent to about 70 soccer fields in size has begun generating power in Thailand, reflecting the country’s push to achieve carbon neutral status by 2050. The facility in Sirindhorn reservoir, about 660 kilometers (410 miles) east of the capital city Bangkok, is the world’s largest hydrofloating solar hybrid system, which combines two methods of electricity generation, according to staterun Electricity Generating Authority of Thailand. While 145,000 solar panels harness power from the sun during the day, three turbines convert energy from flowing water at night.
The $34 million solar farm, which joined the grid on Oct. 31, is the first of 16 projects planned in key Thai reservoirs, with a combined capacity of 2.7 gigawatts. It’s part of the country’s push for more renewable energy sources to reduce its reliance on natural gas, which is currently the biggest source for electricity generation.
Thailand will reach carbon neutrality by 2050, ahead of the earlier target of 2065, Prime Minister Prayuth ChanOcha pledged earlier this month at the United Nations Climate Change Conference. The country has set a goal to reduce all greenhousegas emissions to net zero by 2065. Natural gas accounted for nearly twothirds of Thailand’s power generation last year, while wind, solar and hydropower combined for less than 10%, according to BloombergNEF.
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Solar Thailand Explained
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The Futuristic Farms That Will Feed the World | Freethink | Future of Food
How efficient farming in the Netherlands is producing 20 times more food with 1/4 the water and the most sustainable agriculture systems in the world. It’s the first episode of Freethink’s The Future of Food. Subscribe: https://freeth.ink/youtubesubscribefofsustainableag
Amidst climate change, a growing population, and people consuming more of less sustainable food, how will we feed our future world? The answer may not be increasing resourcesland, water, and employeesbut rather improving production efficiency to create more sustainable farming of crops. The key question: How do we increase the amount of food we produce while using the same or fewer resources?
The Sustainable Development Roadmap from an Unexpected Superpower:
When it comes to scaling agricultural production sustainably, one small country has a very large impact. Bolstered by a national commitment to produce twice the amount of food with half the resources, the Netherlands has become the world’s 2 produce exporter. The close collaboration between the government, science organizations and the food industry have driven impressive innovation and an efficiency that’s unmatched anywhere else in the world.
On a normal openfield tomato farm, one could expect 4 kilograms of yield per square meter. In a hightech greenhouse in the Netherlands, that number shoots up to 80 kilograms of yield per square meter, with 4X less water. That’s a 20X improvement on output! And it’s not just tomatoesthe Dutch are 1 in the world on producing chilis, green peppers, and cucumbers (measured by yield per square mile). With conservation and sustainable food as two of the most important global issues, could other countries copy their approach to help save the earth?
Sustainable Farming Practices Driven by AI
What is sustainability driven by? The technology behind these greenhouses allows for an extreme level of control over water, light, temperature, and CO2all of which are finely tuned and optimized. Constant testing on countless variables is what drives these facilities and could be the future of our planet’s sustainable food systems. Tests can be as simple as comparing different hues of LEDs to increase tolerance against pests, or as advanced as a mothkilling drone.
In addition, eco friendly technology is simply getting better. More and more, efficient farming is becoming automated, using artificial intelligence to find the optimal conditions. By learning the behaviors of plants, climate computers can adjust conditions far better than a human.
Scaling Efficient Farming: It’s All About Knowledge Sharing
The Netherlands is not just thinking about the Netherlands. Besides leveraging technology in efficient ways, these innovators are exploring how to use their findings on a greater scale. For example, their greenhouses emulate climates across the world in order to optimize growth outside of the country. As they learn about what’s optimal in Columbia, for example, they can then transfer that knowledge and help build sustainable food systems across the earth. This level of big picture thinking could be a gamechanger as we tackle global warming and climate change one of society’s greatest challenges in the coming years.
For more stories profiling pioneers of science and tech innovation, subscribe to Freethink on YouTube: https://freeth.ink/youtubesubscribetoc
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Thailand’s massive floating solar farm
This new floating solar project at Sirindhorn Dam in Thailand’s Ubon Ratchathani province is the largest of its kind in the world, comprising 144,000 floating solar panels as Thailand looks to increase its clean energy capacity. Read more: https://cna.asia/3nFhW3Z
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The World’s Largest Floating Solar Farm
Roughly 150km south of Shanghai a gigantic civil engineering experiment is underway that’s causing international ripples in more ways than one.
Potentially capable of providing 50% of the world’s ongoing energy needs, the clean and green technology being trialed in China’s Hangzhou Fengling Electricity Science Technology solar park will also provide employment and nutritious food for locals.
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Imagery supplied via Getty Images
The World’s Largest Floating Solar Farm
1 MW Solar Plant | 1 MW Solar Plant Cost |Generation | Financials| MW Solar BOM |Land Required |
This Video Covers Solar Energy Scenario In India And MW Scale Solar Power Plants.
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