#Solar energy systems
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phdwritingassistance · 22 days ago
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🌱 Powering the Future with Renewable Energy 🌍 Dive into a critical evaluation of photovoltaics and wind turbines in modern engineering. Let’s explore how these sustainable solutions are transforming the world and paving the way for a greener tomorrow💡✨
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rishikakraftsolar · 1 month ago
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Solar energy is key to building a sustainable future. This blog highlights top reasons why solar power is essential, from reducing carbon emissions to lowering dependence on fossil fuels. Learn how solar energy promotes cleaner air, cuts energy costs, and supports eco-friendly living, empowering communities to embrace a greener planet for generations to come.
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uniscan · 3 months ago
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Valuable points to remember During Solar Installation on a Roof promoting UNISCAN
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Know cost of solar panel installation for home first because it is a big investment that can pay off in the long run for both you and the world is putting solar panels on your roof. You can make sure that your solar system works well, lasts a long time, and is energy efficient by remembering the important points listed above. When it comes to solar panel installation, UNISCAN stands out as a trusted partner. They offer high-quality products, expert support, and cutting-edge technology to make your solar energy experience the best it can be. You can rest easy knowing that your solar system will work well for years to come if you trust UNISCAN.
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renewableenergyindia · 4 months ago
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The Comprehensive Guide to Solar Water Heating Systems: Harnessing the Power of the Sun
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Introduction: Revolutionizing Water Heating with Solar Energy
Solar water heating systems are a game-changer in the quest for sustainable energy solutions. By capturing and converting sunlight into heat, these systems offer a cost-effective and environmentally friendly alternative to traditional water heating methods. This blog will provide an in-depth exploration of solar water heating systems, their benefits, types, installation considerations, and maintenance tips.
Understanding Solar Water Heating Systems
Solar water heating systems utilize solar collectors to capture sunlight and convert it into heat, which is then transferred to water stored in a tank. These systems are typically comprised of solar collectors, a heat transfer fluid or direct water flow, a heat exchanger, a storage tank, and a control system.
Solar Collectors:
Usually mounted on the roof, these panels absorb sunlight and convert it into heat.
Heat Transfer Fluid:
Circulates through the collectors to absorb and transport heat.
Heat Exchanger:
Transfers heat from the fluid to the water in the storage tank. The hot water is kept in the storage tank until it's needed.
Controller and Pump:
Regulate the system’s operation for optimal efficiency.
Types of Solar Water Heating Systems
Solar water heating systems come in various configurations to suit different needs and climates:
Active Systems:
Utilize pumps and controls to move heat transfer fluid between the collectors and the storage tank. They are further divided into:
Direct Circulation Systems:
Pump water directly through the collectors and into the storage tank.
Indirect Circulation Systems:
Use a heat exchanger to transfer heat from a separate fluid to the water in the tank.
Passive Systems:
Rely on natural convection and gravity to move the water or heat transfer fluid. They are simpler and often less expensive but may be less efficient in colder climates.
Key Benefits of Solar Water Heating Systems
Implementing a solar water heating system provides several significant advantages:
Cost Savings:
Reduces energy bills by utilizing free solar energy.
Environmental Impact:
Lowers carbon footprint by reducing reliance on fossil fuels.
Energy Independence:
Decreases dependence on grid electricity or gas for water heating.
Increased Property Value:
Adds value to your home with a modern, eco-friendly feature.
Low Operating Costs:
Requires minimal maintenance and has a long service life.
Installation Considerations
When installing a solar water heating system, several factors should be considered:
Roof Orientation and Tilt:
Ensuring optimal solar exposure for maximum efficiency.
System Size:
Choosing a system size that matches your household’s water heating needs.
Local Climate:
Selecting the appropriate type of system based on your climate conditions.
Professional Installation:
Hiring a certified installer to ensure proper setup and operation.
Maintenance and Longevity
Proper maintenance is crucial to ensure the longevity and efficiency of your solar water heating system:
Frequent Inspections:
Observe that every part is operating as intended on a regular basis.
Cleaning Collectors:
Keeping solar collectors clean to maximize efficiency.
Flushing the System:
Removing any sediment or debris from the system periodically.
Monitoring Performance:
Using system controls and sensors to monitor performance and address any issues promptly.
In conclusion, using solar water heating for an environmentally friendly future, Solar water heating systems represent a smart investment for anyone looking to reduce energy costs and environmental impact. By understanding how these systems work, their benefits, and maintenance requirements, you can make an informed decision about incorporating solar technology into your home or business.
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solarkart · 4 months ago
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Solar Power Installation
Solar Power Installation Discover how to transform your home into an eco-friendly powerhouse with our in-depth guide to rooftop solar panel installation. Learn about the benefits of solar energy, step-by-step installation processes, and tips for maximizing efficiency. Whether you're curious about the costs, benefits, or technical aspects, our blog covers everything you need to know to make an informed decision. Start your journey towards energy independence and a greener future today!
Unlock the Power of the Sun: A Complete Guide to Rooftop Solar Panel Installation
Explore the future of energy with our comprehensive guide to rooftop solar panel installation. In this blog, we delve into the environmental and financial benefits of solar power, providing you with a clear understanding of how solar panels can reduce your electricity bills and carbon footprint. We break down the entire installation process, from assessing your roof's suitability and choosing the right solar panels, to understanding costs, financing options, and maintenance tips. Whether you're a homeowner looking to save on energy costs or a business owner interested in sustainable practices, our expert insights and practical advice will help you make the most of your solar investment. Join the green energy revolution and learn how to harness the sun's power right from your rooftop.
www.solarkart.co.in
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esteemenergyau · 6 months ago
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A Guide to Understanding Solar Power Batteries
In our most recent guide, we look at the benefits of solar power batteries. Discover how these innovative storage systems may help you save money on energy, improve the efficiency your your house, and offer dependable backup power. Join today's solar revolution!
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shopwaaree · 8 months ago
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Shedding Light on Solar Energy Systems: Powering Your Home the Sustainable Way
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Waaree Energies is a leading solar brand committed to providing homeowners with high-quality and efficient solar energy systems. They offer a comprehensive range of products, from cutting-edge solar panels to expert design and installation services. To know more visit Waaree online.
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freyrenergyservice · 9 months ago
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10 Practical Uses of Solar Power for Residential Homes - FreyrEnergy:
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In recent years, solar power has emerged as a versatile and sustainable energy solution for residential homes. From reducing electricity bills to minimizing carbon footprint, the uses of solar power in homes are diverse and practical. Let's delve into 10 practical applications of solar power for residential homes:
Top Uses of Solar Power in Homes:
Let us check the uses of rooftop solar panel in residential, serving as an alternative, renewable, and green energy source.
Alternative Electricity Source:
Solar panels installed on residential rooftops serve as an alternative source of electricity. By harnessing sunlight and converting it into electricity, homeowners can power their appliances and lighting, reducing reliance on traditional grid electricity.
Solar Water Heating:
Solar water heater systems utilize solar energy to heat water for domestic use. These systems are cost-effective and environmentally friendly alternatives to conventional water heaters, providing hot water for bathing, washing, and other household needs.
Solar Cooking:
Solar cookers harness sunlight to cook food without the need for traditional fuel sources such as gas or electricity. They are ideal for outdoor cooking and can be used to prepare a variety of dishes, ranging from simple recipes to elaborate meals.
Solar Ventilation:
Solar-powered ventilation fans help regulates indoor temperature by expelling hot air from attics and other enclosed spaces. By reducing the need for air conditioning, these fans contribute to energy savings and enhance indoor comfort.
Portable Solar Chargers:
Portable solar chargers allow homeowners to harness solar energy system to charge their electronic devices, such as smart phones, tablets, and laptops. These chargers are convenient for outdoor activities and emergencies, providing a reliable power source wherever you go.
Solar Lighting:
Solar-powered lights and lamps illuminate residential spaces without the need for grid electricity. They are ideal for outdoor lighting, landscaping, and decorative purposes, enhancing the aesthetics of homes while reducing energy costs.
Solar Security Systems:
Solar-powered security cameras and lights offer enhanced security for residential properties. These systems utilize solar energy to operate, providing continuous surveillance and deterrence against intruders without relying on grid electricity.
Solar Water Filtration:
Solar-powered water filtration systems purify water using solar energy, making it safe and drinkable for household use. These systems are especially useful in remote areas where access to clean water is limited.
Solar Air Conditioning:
Solar-powered air conditioning systems use solar energy to cool indoor spaces, reducing electricity consumption and environmental impact. These solar power systems are energy-efficient and cost-effective alternatives to traditional air conditioners.
Solar Home Energy Storage:
Solar energy storage systems store excess solar power generated during the day for use during periods of low sunlight or high energy demand. These residential solar panel systems help homeowners maximize their solar energy savings and achieve greater energy independence.
Conclusion:
The uses of solar power for residential homes are numerous and practical, offering homeowners an opportunity to reduce their energy costs, carbon footprint, and reliance on traditional energy sources. With advancements in solar technology and increased awareness of environmental sustainability, solar power is poised to play a crucial role in shaping the future of residential energy consumption.
Freyr Energy, a leader in solar panel system solutions, is dedicated to making solar power accessible and affordable for homeowners across India. With their expertise and support, homeowners can seamlessly integrate solar power into their homes, reducing electricity costs and promoting environmental conservation. Embrace the power of solar panels for home and take the first step towards a greener and more sustainable future.
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the-solar-solutions · 1 year ago
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Benefits of Solar Energy Systems for the Agriculture Industry
The growing population and increasing demand for food have led to increased demand for energy in the agricultural sector. Agriculture is vital to human life as it not only provides food to the population but also provides raw materials for various industries such as textiles, sugar, and oil among others. It is essential to make the agricultural sector more efficient and sustainable as the growing energy demand burdens scarce resources. https://www.linkedin.com/pulse/benefits-solar-energy-systems-agriculture-industry/?trackingId=e1gce%2FIWsdZiOtIAvBgnCA%3D%3D
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asteamtechnosolutions · 1 year ago
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VFDs used in solar energy systems that are renewable.
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 Pumping Systems
Solar Tracking Systems
Energy Storage Systems
Inverter Control
Air Conditioning Systems
🌐Website :- https://asteamtechno.com
👉Contact us :- +91 95372 40404
📧Email :- [email protected]
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gogetsolar · 2 years ago
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Residential Solar | GoGetSolar|Australia
As the demand and prices of electricity have kept on rising, the world looks at renewable energy sources for its power needs. In recent years, solar energy has become a popular renewable energy source because of its falling costs and improving efficiencies.
Homes across Australia are making the solar transition to create a clean energy economy and contribute towards global climate change. Residential solar systems are becoming the need of the hour as they are the future of home energy production and considered a smart investment. Apart from being economical, solar power provides benefits to the environment. Our experienced solar consultants will provide the required help, support, and the best solar solutions for your energy consumption needs.
A solar system is a setup that generates electricity by utilizing the solar energy system. A typical solar system consists of solar panels (which absorb sunlight), inverter (which converts DC into AC), mounting structure (that hold the panels in place), batteries (to store the extra power generated), grid box and balance of systems (wires, nuts etc.). A solar system comes in various sizes.
Visit our website: www.gogetsolar.com.au
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bisexualgenderclown · 2 years ago
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you guys i am so in love with this fandom. you people read 2 whole books about a solar system with 9 planets that is stated to have been the cradle of humanity and you are still surprised when it turns out that it’s like, THE solar system.
Just fully no thoughts, head empty, marinating in the lesbianism of the situation without a single neuron firing. i salute your dedication
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rishikakraftsolar · 2 months ago
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This article provides an in-depth look at the different types of solar energy systems available today. From grid-tied and off-grid systems to hybrid options, we explore the benefits and applications of each. Whether you're considering solar for residential, commercial, or industrial purposes, this guide will help you understand which solar energy system is the best fit for your needs.
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babyfoxcollectionthings · 5 months ago
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mostlysignssomeportents · 7 months ago
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Real innovation vs Silicon Valley nonsense
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This is the LAST DAY to get my bestselling solarpunk utopian novel THE LOST CAUSE (2023) as a $2.99, DRM-free ebook!
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If there was any area where we needed a lot of "innovation," it's in climate tech. We've already blown through numerous points-of-no-return for a habitable Earth, and the pace is accelerating.
Silicon Valley claims to be the epicenter of American innovation, but what passes for innovation in Silicon Valley is some combination of nonsense, climate-wrecking tech, and climate-wrecking nonsense tech. Forget Jeff Hammerbacher's lament about "the best minds of my generation thinking about how to make people click ads." Today's best-paid, best-trained technologists are enlisted to making boobytrapped IoT gadgets:
https://pluralistic.net/2024/05/24/record-scratch/#autoenshittification
Planet-destroying cryptocurrency scams:
https://pluralistic.net/2024/02/15/your-new-first-name/#that-dagger-tho
NFT frauds:
https://pluralistic.net/2022/02/06/crypto-copyright-%f0%9f%a4%a1%f0%9f%92%a9/
Or planet-destroying AI frauds:
https://pluralistic.net/2024/01/29/pay-no-attention/#to-the-little-man-behind-the-curtain
If that was the best "innovation" the human race had to offer, we'd be fucking doomed.
But – as Ryan Cooper writes for The American Prospect – there's a far more dynamic, consequential, useful and exciting innovation revolution underway, thanks to muscular public spending on climate tech:
https://prospect.org/environment/2024-05-30-green-energy-revolution-real-innovation/
The green energy revolution – funded by the Bipartisan Infrastructure Act, the Inflation Reduction Act, the CHIPS Act and the Science Act – is accomplishing amazing feats, which are barely registering amid the clamor of AI nonsense and other hype. I did an interview a while ago about my climate novel The Lost Cause and the interviewer wanted to know what role AI would play in resolving the climate emergency. I was momentarily speechless, then I said, "Well, I guess maybe all the energy used to train and operate models could make it much worse? What role do you think it could play?" The interviewer had no answer.
Here's brief tour of the revolution:
2023 saw 32GW of new solar energy come online in the USA (up 50% from 2022);
Wind increased from 118GW to 141GW;
Grid-scale batteries doubled in 2023 and will double again in 2024;
EV sales increased from 20,000 to 90,000/month.
https://www.whitehouse.gov/briefing-room/blog/2023/12/19/building-a-thriving-clean-energy-economy-in-2023-and-beyond/
The cost of clean energy is plummeting, and that's triggering other areas of innovation, like using "hot rocks" to replace fossil fuel heat (25% of overall US energy consumption):
https://rondo.com/products
Increasing our access to cheap, clean energy will require a lot of materials, and material production is very carbon intensive. Luckily, the existing supply of cheap, clean energy is fueling "green steel" production experiments:
https://www.wdam.com/2024/03/25/americas-1st-green-steel-plant-coming-perry-county-1b-federal-investment/
Cheap, clean energy also makes it possible to recover valuable minerals from aluminum production tailings, a process that doubles as site-remediation:
https://interestingengineering.com/innovation/toxic-red-mud-co2-free-iron
And while all this electrification is going to require grid upgrades, there's lots we can do with our existing grid, like power-line automation that increases capacity by 40%:
https://www.npr.org/2023/08/13/1187620367/power-grid-enhancing-technologies-climate-change
It's also going to require a lot of storage, which is why it's so exciting that we're figuring out how to turn decommissioned mines into giant batteries. During the day, excess renewable energy is channeled into raising rock-laden platforms to the top of the mine-shafts, and at night, these unspool, releasing energy that's fed into the high-availability power-lines that are already present at every mine-site:
https://www.euronews.com/green/2024/02/06/this-disused-mine-in-finland-is-being-turned-into-a-gravity-battery-to-store-renewable-ene
Why are we paying so much attention to Silicon Valley pump-and-dumps and ignoring all this incredible, potentially planet-saving, real innovation? Cooper cites a plausible explanation from the Apperceptive newsletter:
https://buttondown.email/apperceptive/archive/destructive-investing-and-the-siren-song-of/
Silicon Valley is the land of low-capital, low-labor growth. Software development requires fewer people than infrastructure and hard goods manufacturing, both to get started and to run as an ongoing operation. Silicon Valley is the place where you get rich without creating jobs. It's run by investors who hate the idea of paying people. That's why AI is so exciting for Silicon Valley types: it lets them fantasize about making humans obsolete. A company without employees is a company without labor issues, without messy co-determination fights, without any moral consideration for others. It's the natural progression for an industry that started by misclassifying the workers in its buildings as "contractors," and then graduated to pretending that millions of workers were actually "independent small businesses."
It's also the natural next step for an industry that hates workers so much that it will pretend that their work is being done by robots, and then outsource the labor itself to distant Indian call-centers (no wonder Indian techies joke that "AI" stands for "absent Indians"):
https://pluralistic.net/2024/05/17/fake-it-until-you-dont-make-it/#twenty-one-seconds
Contrast this with climate tech: this is a profoundly physical kind of technology. It is labor intensive. It is skilled. The workers who perform it have power, both because they are so far from their employers' direct oversight and because these fed-funded sectors are more likely to be unionized than Silicon Valley shops. Moreover, climate tech is capital intensive. All of those workers are out there moving stuff around: solar panels, wires, batteries.
Climate tech is infrastructural. As Deb Chachra writes in her must-read 2023 book How Infrastructure Works, infrastructure is a gift we give to our descendants. Infrastructure projects rarely pay for themselves during the lives of the people who decide to build them:
https://pluralistic.net/2023/10/17/care-work/#charismatic-megaprojects
Climate tech also produces gigantic, diffused, uncapturable benefits. The "social cost of carbon" is a measure that seeks to capture how much we all pay as polluters despoil our shared world. It includes the direct health impacts of burning fossil fuels, and the indirect costs of wildfires and extreme weather events. The "social savings" of climate tech are massive:
https://arstechnica.com/science/2024/05/climate-and-health-benefits-of-wind-and-solar-dwarf-all-subsidies/
For every MWh of renewable power produced, we save $100 in social carbon costs. That's $100 worth of people not sickening and dying from pollution, $100 worth of homes and habitats not burning down or disappearing under floodwaters. All told, US renewables have delivered $250,000,000,000 (one quarter of one trillion dollars) in social carbon savings over the past four years:
https://arstechnica.com/science/2024/05/climate-and-health-benefits-of-wind-and-solar-dwarf-all-subsidies/
In other words, climate tech is unselfish tech. It's a gift to the future and to the broad public. It shares its spoils with workers. It requires public action. By contrast, Silicon Valley is greedy tech that is relentlessly focused on the shortest-term returns that can be extracted with the least share going to labor. It also requires massive public investment, but it also totally committed to giving as little back to the public as is possible.
No wonder America's richest and most powerful people are lining up to endorse and fund Trump:
https://prospect.org/blogs-and-newsletters/tap/2024-05-30-democracy-deshmocracy-mega-financiers-flocking-to-trump/
Silicon Valley epitomizes Stafford Beer's motto that "the purpose of a system is what it does." If Silicon Valley produces nothing but planet-wrecking nonsense, grifty scams, and planet-wrecking, nonsensical scams, then these are all features of the tech sector, not bugs.
As Anil Dash writes:
Driving change requires us to make the machine want something else. If the purpose of a system is what it does, and we don’t like what it does, then we have to change the system.
https://www.anildash.com/2024/05/29/systems-the-purpose-of-a-system/
To give climate tech the attention, excitement, and political will it deserves, we need to recalibrate our understanding of the world. We need to have object permanence. We need to remember just how few people were actually using cryptocurrency during the bubble and apply that understanding to AI hype. Only 2% of Britons surveyed in a recent study use AI tools:
https://www.bbc.com/news/articles/c511x4g7x7jo
If we want our tech companies to do good, we have to understand that their ground state is to create planet-wrecking nonsense, grifty scams, and planet-wrecking, nonsensical scams. We need to make these companies small enough to fail, small enough to jail, and small enough to care:
https://pluralistic.net/2024/04/04/teach-me-how-to-shruggie/#kagi
We need to hold companies responsible, and we need to change the microeconomics of the board room, to make it easier for tech workers who want to do good to shout down the scammers, nonsense-peddlers and grifters:
https://pluralistic.net/2023/07/28/microincentives-and-enshittification/
Yesterday, a federal judge ruled that the FTC could hold Amazon executives personally liable for the decision to trick people into signing up for Prime, and for making the unsubscribe-from-Prime process into a Kafka-as-a-service nightmare:
https://arstechnica.com/tech-policy/2024/05/amazon-execs-may-be-personally-liable-for-tricking-users-into-prime-sign-ups/
Imagine how powerful a precedent this could set. The Amazon employees who vociferously objected to their bosses' decision to make Prime as confusing as possible could have raised the objection that doing this could end up personally costing those bosses millions of dollars in fines:
https://pluralistic.net/2023/09/03/big-tech-cant-stop-telling-on-itself/
We need to make climate tech, not Big Tech, the center of our scrutiny and will. The climate emergency is so terrifying as to be nearly unponderable. Science fiction writers are increasingly being called upon to try to frame this incomprehensible risk in human terms. SF writer (and biologist) Peter Watts's conversation with evolutionary biologist Dan Brooks is an eye-opener:
https://thereader.mitpress.mit.edu/the-collapse-is-coming-will-humanity-adapt/
They draw a distinction between "sustainability" meaning "what kind of technological fixes can we come up with that will allow us to continue to do business as usual without paying a penalty for it?" and sustainability meaning, "what changes in behavior will allow us to save ourselves with the technology that is possible?"
Writing about the Watts/Brooks dialog for Naked Capitalism, Yves Smith invokes William Gibson's The Peripheral:
With everything stumbling deeper into a ditch of shit, history itself become a slaughterhouse, science had started popping. Not all at once, no one big heroic thing, but there were cleaner, cheaper energy sources, more effective ways to get carbon out of the air, new drugs that did what antibiotics had done before…. Ways to print food that required much less in the way of actual food to begin with. So everything, however deeply fucked in general, was lit increasingly by the new, by things that made people blink and sit up, but then the rest of it would just go on, deeper into the ditch. A progress accompanied by constant violence, he said, by sufferings unimaginable.
https://www.nakedcapitalism.com/2024/05/preparing-for-collapse-why-the-focus-on-climate-energy-sustainability-is-destructive.html
Gibson doesn't think this is likely, mind, and even if it's attainable, it will come amidst "unimaginable suffering."
But the universe of possible technologies is quite large. As Chachra points out in How Infrastructure Works, we could give every person on Earth a Canadian's energy budget (like an American's, but colder), by capturing a mere 0.4% of the solar radiation that reaches the Earth's surface every day. Doing this will require heroic amounts of material and labor, especially if we're going to do it without destroying the planet through material extraction and manufacturing.
These are the questions that we should be concerning ourselves with: what behavioral changes will allow us to realize cheap, abundant, green energy? What "innovations" will our society need to focus on the things we need, rather than the scams and nonsense that creates Silicon Valley fortunes?
How can we use planning, and solidarity, and codetermination to usher in the kind of tech that makes it possible for us to get through the climate bottleneck with as little death and destruction as possible? How can we use enforcement, discernment, and labor rights to thwart the enshittificatory impulses of Silicon Valley's biggest assholes?
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If you'd like an essay-formatted version of this post to read or share, here's a link to it on pluralistic.net, my surveillance-free, ad-free, tracker-free blog:
https://pluralistic.net/2024/05/30/posiwid/#social-cost-of-carbon
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solarkart · 4 months ago
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Solar Panel Installation in Delhi
Title- Solar Panel Installation
Solar panel installation involves the process of setting up photovoltaic (PV) panels on rooftops or other suitable structures to convert sunlight into electricity. Here’s an overview of the process:
1. Site Assessment:
Initial Consultation: A professional assesses the site to determine its suitability for solar panel installation. Solar Power Installation This includes checking the roof's condition, angle, orientation, and potential shading from nearby trees or buildings.
Energy Needs Analysis: The homeowner's or business’s energy usage is reviewed to recommend an appropriately sized system. Solar Panel Maintenance
2. Design and Planning:
System Design: Engineers design the solar system, determining the number of panels needed, their arrangement, and the type of inverter required. Solar Energy Systems
Permitting: Necessary permits are obtained from local authorities, ensuring compliance with zoning laws and electrical codes.
3. Installation:
Mounting System Installation: The roof is prepared, and mounting systems are installed to securely hold the solar panels. These mounts are usually placed at an angle to maximize sunlight exposure.
Panel Installation: The solar panels are then affixed to the mounting system. Wiring is connected to link the panels in series or parallel configurations, depending on the design.
Inverter and Electrical Connections: The system is connected to an inverter, which converts the direct current (DC) generated by the panels into alternating current (AC) used by household appliances. The inverter is connected to the main electrical panel, and a net meter is installed if the system is tied to the grid.
4. Inspection and Testing:
System Testing: After installation, the system is tested to ensure it is working correctly and safely. Solar Power Installation
Final Inspection: Local authorities inspect the installation to verify that it meets all regulations. Solar Panel Installation in Delhi
5. Activation:
Utility Company Coordination: For grid-tied systems, the utility company may need to be involved to switch on the system and start the net metering process. Solar Power Installation
System Activation: Once everything is approved, the system is activated, and the solar panels start generating electricity. Solar Energy Systems
6. Maintenance:
Regular Checks: Routine maintenance is recommended to keep the panels clean and the system running efficiently. Solar Panel Maintenance
Monitoring: Many systems come with monitoring software that allows users to track energy production in real-time. Roof Top Solar Panel
Benefits:
Energy Savings: Reduces electricity bills by generating your own power.
Environmental Impact: Solar energy is renewable and reduces reliance on fossil fuels, lowering your carbon footprint. Solar Panel Installation in Delhi
Increased Property Value: Homes with solar installations often have higher property values. This process typically takes a few weeks from initial consultation to final activation, depending on the complexity and size of the system. Solar Panel Installation in UP
www.solarkart.co.in
Solar Power Installation, Solar Panel Maintenance, Solar Energy Systems, Solar Panel Installation in Delhi, Solar Panel Installation in UP, Roof Top Solar Panel
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