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riverofrainbows · 11 months

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TW: i will be talking about food and nutrition and disordered eating, please keep scrolling of you are not up for that right now.

I somehow landed on the "healthy eating nutritionist" side of insta, and omg what fucking problem do these people have with sugar. "Wah wah there is juice concentrate in my baby snack that's so evil" it's a sweet baby snack with fruit what the hell did you expect.

And a lot of the "nutritionist advice" is generally not bad advice and probably helpful while on the journey of recovering from an eating disorder, but it's always only half way there while still incorporating ed motivations around eating. "If you want to eat the cookies you can pair them with addition filling snacks". Like this is probably good advice for people recovering from binging and i am glad if it's helpful for that, but it's still kind of disordered eating. You can just eat the cookies if you want what's bad about that. "You might quickly be hungry again" well then i eat more because evidently i didn't eat enough today. "This food doesn't have many nutrients but it can still be a part of a healthy diet" well sure but why are you still treating the muffin like it's a criminal. It also implies that there is an evil amount of muffin we need to moderate to avoid. "Here is a healthy snack" shows a low carb high fiber lowish fat snack. Why would healthy always involve a low caloric food every single goddamn meal. Also how the fuck is anyone supposed to take in enough calories if every meal is lentils and salad. It's the same logic as in other common diet tipps that's so utterly baffling to me, when people try to replace higher calory food with low calory substitutes. Because then i will just have to eat more to get enough calories???? It just means i ate a meal almost for nothing. Why are you disrespecting all the work your ancestors did to provide you with food options that give you enough calories in one meal instead of 1½ meals and a snack of zucchini pasta??? I'd have to spend double the amount of time eating.

I would love some nutritionist reels on how to make sure you get all your nutrients and enough of them more easily, but that's never the point. I have such trouble getting enough food in me because i barely have access to convenient ready made food nor energy to make myself food, and here are these people jumping through hoops to make sure they make nourishing themselves harder than necessary while claiming not to promote disordered eating (even if they are a lot better that full blown eating disorder promotion).

#own post #cw ed #tw diet culture #istg if i hear one more person say that a cookie has 'no nutrients'. it is FULL of nutrients it has a high density of carbs and fats!! it #might not have fucking vitamins but you can get enough vitamins even if you don't eat 300% of the recommended daily income with every meal #the vitamins wont fuck you so stop praising them like the second coming of jesus and leave me the fuck ALONE with your stupid misnformation #do you know how much i wish i could just go to dunkin donuts and eat three donuts and have my caloric intake covered for that meal #instead i need to cook a high fat sauce (but not too high fat or i get git issues) and a very big portion of pasta and eat all that it #takes for fucking ever and i can't do it on the go #and i need to figure out how to put enough fiber and protein in my diet too because i can't eat most affordable protein around yet have the #required intake of a weight lifter it's so stupid #eating is so exhausting and i get so angry at all these people demonising carbohydrates aka the most accessible calory for your body #like yes make it even harder who needs energy anyway

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blackhallow · 2 years

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Lana!! Hello! What are your thoughts on Yuki's technique now that we finally know it? I like it's so straightforward but I'm seeing so many people complaining because of that, but then they're the same ones saying the manga is too complicated lol. I'm curious to know what you think.

YOO AM HIIII welcome back <33 what happened to your other blog fjekdsjdj

Honestly I like Yuki's technique too, idg why people are complaining after just one chapter? Even if it's straightforward it can have some really cool and unique applications. Like Uro's ct or Blood Manipulation.

The destructive power Yuki can have by simply dropping from a high place is insane, she or Garuda can easily become nukes if they have enough mass, and even Garuda is incredibly deadly since they're so tiny, they wrap around someone and it's goodbye!! Even for defense, more mass without growing in size should make Yuki dense enough to be pretty much invulnerable. And Kenjaku's gravity technique wouldn't really affect her if her mass is infinite, not to mention a battle between gravity and mass COULD mess up the fabric of space and time ahdosjdj. I don't know if Gege will go there, but he does like his science sometimes so I'm hoping to see some wild shit in the coming chapters assuming Tengen's intervention doesn't take the spotlight from Yuki, fingers crossed this fight lasts till the end of the volume, so until ch 209-210.

#it's a cool technique! kenjaku mentioning her extension technique and how it may have a high output mmmm #foreshadow for something awesome i bet #something something density and mass + gravity = black hole. i am sadly not smart enough for this #also something something theoretically she could move at light speeds #assuming she's also able to decrease her mass and turn it into energy. but probably she can't. idk how virtual mass works #my knowledge on physics is high school level so this is probably wrong in a lot of ways #begging for the stem side of the fandom to theorize ;__;#answered #jjk spoilers #also AM i missed youuuuu hope you're doing well dear <3333333 sorry this took me a whole ass day to respond lmao

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wayti-blog · 1 year

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“Researchers have theorized a new mechanism to generate high-energy "quantum light," which could be used to investigate new properties of matter at the atomic scale.

The researchers, from the University of Cambridge, along with colleagues from the U.S., Israel and Austria, developed a theory describing a new state of light, which has controllable quantum properties over a broad range of frequencies, up as high as X-ray frequencies. Their results are reported in the journal Nature Physics.”

continue reading article

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royalninja · 4 months

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for my health and wellbeing i desperately need more music that makes me feel the way fang island by fang island and bromst by dan deacon make me feel.

#text #music #cant a man just want music to forcibly instill hope into his soul #ultrapositive high density energy #on the fang island front at least math pop exists #nothing sounds QUITE like the fa s/t but there's some good stuff regardless #Adebisi Shank's second album #Three Trapped Tigers seem good #Giraffes? Giraffes! as well #i tried to find other ultra-upbeat dense electronica like dan #Passion Pit's remix of Ok Go's This Too Shall Pass seemed promising #but then i listened to Manners and really hated the singer's voice #Math the Band's Don't Worry does some of the trick but its more rock than electronc #Terror Pigeon's second album was just about there

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crazydiscostu · 9 months

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PowerAdd 10000 EnergyCell

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poojascmi · 10 months

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Global IGBT and Super Junction MOSFET Market Is Estimated To Witness High Growth Owing To Rising Demand for Power Electronics Applications

The global IGBT and Super Junction MOSFET market is estimated to be valued at US$ 12,782.8 million in 2021 and is expected to exhibit a CAGR of 12.5% over the forecast period (2021-2028), as highlighted in a new report published by Coherent Market Insights. A) Market Overview: The IGBT (Insulated Gate Bipolar Transistor) and Super Junction MOSFET (Metal-Oxide-Semiconductor Field-Effect Transistor) technologies are widely used in power electronics applications such as motor drives, renewable energy systems, industrial equipment, and consumer electronics. These technologies offer advantages such as high efficiency, low on-state voltage, fast switching speed, and high power density. The increasing demand for energy-efficient devices, coupled with the rising adoption of electric vehicles and renewable energy sources, is driving the growth of the IGBT and Super Junction MOSFET market. B) Market Key Trends: One key trend in the IGBT and Super Junction MOSFET market is the growing focus on renewable energy sources. With the increasing global concerns about climate change and the need to reduce greenhouse gas emissions, there has been a significant shift towards renewable energy generation. This has led to a surge in the installation of solar and wind power systems, creating a demand for power electronic devices such as IGBT and Super Junction MOSFETs to efficiently convert and control the power generated from these sources. For example, according to the International Energy Agency (IEA), the global renewable energy capacity is expected to expand by 50% between 2021 and 2024, reaching 1,200 GW. This increasing adoption of renewable energy sources is expected to drive the demand for IGBT and Super Junction MOSFETs. C) PEST Analysis: Political: The political landscape plays a crucial role in the growth of the IGBT and Super Junction MOSFET market. Government policies and regulations supporting the adoption of renewable energy sources and energy efficiency initiatives can positively impact market growth. Economic: The economic factors such as GDP growth, disposable income, and investment in infrastructure development influence the demand for power electronics products powered by IGBT and Super Junction MOSFETs. Social: The increasing awareness about the environmental impact of conventional energy sources and the need for sustainable solutions is driving the social acceptance and adoption of renewable energy systems, thereby boosting the demand for IGBT and Super Junction MOSFETs. Technological: Technological advancements in IGBT and Super Junction MOSFETs, such as improved efficiency, higher power density, and enhanced thermal performance, are driving their adoption across various applications. D) Key Takeaways: 1: The Global IGBT and Super Junction MOSFET Market is expected to witness high growth, exhibiting a CAGR of 12.5% over the forecast period, due to the increasing demand for energy-efficient devices and the growing adoption of electric vehicles and renewable energy sources. 2: Asia Pacific is expected to be the fastest-growing and dominating region in the IGBT and Super Junction MOSFET market. The region's rapid industrialization, urbanization, and investments in infrastructure development are driving the demand for power electronics products. 3: Key players operating in the global IGBT and Super Junction MOSFET market include Infineon Technologies AG, Vishay Intertechnology, Inc., Mitsubishi Electric Corporation, STMicroelectronics N.V., Fuji Electric Co. Ltd., Toshiba Corporation, Hitachi Power Semiconductor Device Ltd., Fairchild Semiconductor International, Inc., Semikron Elektronik GmbH & Co. KG, and ABB Ltd.

#IGBT and Super Junction MOSFET Market #IGBT and Super Junction MOSFET Market Demand #IGBT and Super Junction MOSFET Market Forecast #IGBT and Super Junction MOSFET Market Outlook #motor drives #renewable energy systems #high power density #Coherent Market Insights

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electronalytics · 10 months

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Lithium Ceramic Battery (LCB) Market Consumption Analysis, Business Overview and Upcoming Key Players,Growth factors, Trends 2032

Overview of the Lithium Ceramic Battery (LCB) Market:

The Lithium Ceramic Battery (LCB) market involves the production, distribution, and utilization of batteries that utilize a ceramic electrolyte in combination with lithium-based materials. LCBs are a type of solid-state battery technology that offers potential advantages such as high energy density, improved safety, and longer cycle life compared to traditional lithium-ion batteries. LCBs are being developed for various applications, including electric vehicles, renewable energy storage, and portable electronics.

The Global Lithium Ceramic Battery (LCB) Market Size is expected to grow from USD 1.02 Billion in 2017 to USD 2.48 Billion by 2030, at a CAGR of 10.5% from 2022to2032

Here are some key drivers of demand for LCBs in the market:

High Energy Density: LCBs offer higher energy density compared to traditional lithium-ion batteries, which is especially appealing for applications where compact and lightweight energy storage is crucial.

Safety and Stability: LCBs are known for their improved safety features, including resistance to thermal runaway and reduced risk of fire or explosion. This makes them a preferred choice for applications where safety is a primary concern.

Long Cycle Life: LCBs have demonstrated longer cycle life and calendar life compared to some conventional lithium-ion batteries. This characteristic is valuable in applications where longevity and durability are essential.

Temperature Performance: LCBs perform well in a wide range of temperatures, from extreme cold to high heat. This makes them suitable for applications in diverse environments, such as aerospace and automotive industries.

Fast Charging: As demand grows for faster-charging solutions, LCBs are being explored for their potential to support rapid charging without compromising safety or longevity.

Sustainability and Environmental Concerns: The shift towards sustainable energy storage technologies has led to increased interest in LCBs due to their potential to reduce environmental impact and reliance on fossil fuels.

Certainly, here's an overview of the Lithium Ceramic Battery (LCB) market trends, scope, and opportunities:

Trends:

High Energy Density: Lithium Ceramic Batteries (LCBs) offer higher energy density compared to traditional lithium-ion batteries, making them attractive for applications requiring longer-lasting and more powerful energy sources.

Enhanced Safety: LCBs are known for their improved safety characteristics, including resistance to thermal runaway and reduced risk of fire or explosion. This makes them appealing for applications where safety is a critical concern.

Wide Temperature Range: LCBs exhibit excellent performance across a broad temperature range, making them suitable for applications in extreme environments, such as aerospace and military applications.

Durability and Longevity: LCBs have demonstrated longer cycle life and extended calendar life compared to some conventional lithium-ion technologies, reducing the need for frequent replacements.

Fast Charging: Emerging technologies within the LCB category are showing potential for faster charging capabilities, catering to the growing demand for quick charging solutions.

Solid-State Design: Some LCB variants use solid-state electrolytes, eliminating the need for flammable liquid electrolytes and enhancing overall battery stability and safety.

Scope:

Electronics and Consumer Devices: LCBs could find applications in smartphones, laptops, tablets, and other consumer electronics due to their high energy density and improved safety.

Electric Vehicles (EVs): The EV industry could benefit from LCBs' fast charging capabilities, extended cycle life, and resistance to temperature fluctuations.

Aerospace and Aviation: LCBs' ability to operate in extreme temperatures and provide reliable power could make them suitable for aerospace applications, including satellites and unmanned aerial vehicles.

Military and Defense: The durability, safety, and reliability of LCBs could be advantageous for defense applications, such as portable electronics and military vehicles.

Medical Devices: LCBs' safety features, longevity, and potential for high energy density might make them valuable for medical devices requiring stable and efficient power sources.

Grid Energy Storage: LCBs could play a role in grid-scale energy storage due to their high energy density, longer cycle life, and safety features.

Opportunities:

Advanced Materials Development: Opportunities exist for research and development of new materials to further improve the performance, energy density, and safety of LCBs.

Commercialization: Companies that can successfully develop and commercialize LCB technologies could tap into various industries seeking high-performance, safe, and durable energy storage solutions.

Partnerships and Collaborations: Opportunities for partnerships between battery manufacturers, research institutions, and industries seeking reliable energy solutions.

Customization: Tailoring LCB technologies to specific applications, such as medical devices or defense equipment, can open up opportunities for specialized markets.

Sustainable Energy Storage: LCBs' potential to enhance the efficiency of renewable energy storage systems presents opportunities in the transition to clean energy.

Investment and Funding: Investors and venture capitalists interested in innovative battery technologies could find opportunities to support the development of LCB technologies.

We recommend referring our Stringent datalytics firm, industry publications, and websites that specialize in providing market reports. These sources often offer comprehensive analysis, market trends, growth forecasts, competitive landscape, and other valuable insights into this market.

By visiting our website or contacting us directly, you can explore the availability of specific reports related to this market. These reports often require a purchase or subscription, but we provide comprehensive and in-depth information that can be valuable for businesses, investors, and individuals interested in this market.

“Remember to look for recent reports to ensure you have the most current and relevant information.”

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Market Segmentations:

Global Lithium Ceramic Battery (LCB) Market: By Company

• Evonik

• ProLogium(PLG)

Global Lithium Ceramic Battery (LCB) Market: By Type

• Laminate Type

• Cylindrical Type

Global Lithium Ceramic Battery (LCB) Market: By Application

• Transportation

• Energy Storage System

• Telecom and IT

• Industrial Equipment

• Others

Global Lithium Ceramic Battery (LCB) Market: Regional Analysis

The regional analysis of the global Lithium Ceramic Battery (LCB) market provides insights into the market's performance across different regions of the world. The analysis is based on recent and future trends and includes market forecast for the prediction period. The countries covered in the regional analysis of the Lithium Ceramic Battery (LCB) market report are as follows:

North America: The North America region includes the U.S., Canada, and Mexico. The U.S. is the largest market for Lithium Ceramic Battery (LCB) in this region, followed by Canada and Mexico. The market growth in this region is primarily driven by the presence of key market players and the increasing demand for the product.

Europe: The Europe region includes Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe. Germany is the largest market for Lithium Ceramic Battery (LCB) in this region, followed by the U.K. and France. The market growth in this region is driven by the increasing demand for the product in the automotive and aerospace sectors.

Asia-Pacific: The Asia-Pacific region includes Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, and Rest of Asia-Pacific. China is the largest market for Lithium Ceramic Battery (LCB) in this region, followed by Japan and India. The market growth in this region is driven by the increasing adoption of the product in various end-use industries, such as automotive, aerospace, and construction.

Middle East and Africa: The Middle East and Africa region includes Saudi Arabia, U.A.E, South Africa, Egypt, Israel, and Rest of Middle East and Africa. The market growth in this region is driven by the increasing demand for the product in the aerospace and defense sectors.

South America: The South America region includes Argentina, Brazil, and Rest of South America. Brazil is the largest market for Lithium Ceramic Battery (LCB) in this region, followed by Argentina. The market growth in this region is primarily driven by the increasing demand for the product in the automotive sector.

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Reasons to Purchase Lithium Ceramic Battery (LCB) Market Report:

• To gain insights into market trends and dynamics: this reports provide valuable insights into industry trends and dynamics, including market size, growth rates, and key drivers and challenges.

• To identify key players and competitors: this research reports can help businesses identify key players and competitors in their industry, including their market share, strategies, and strengths and weaknesses.

• To understand consumer behavior: this research reports can provide valuable insights into consumer behavior, including their preferences, purchasing habits, and demographics.

• To evaluate market opportunities: this research reports can help businesses evaluate market opportunities, including potential new products or services, new markets, and emerging trends.

• To make informed business decisions: this research reports provide businesses with data-driven insights that can help them make informed business decisions, including strategic planning, product development, and marketing and advertising strategies.

About US:

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manufacturerlithiumbattery · 1 year

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Lithium ion Battery Manufacturers India

Lithium-ion batteries are rechargeable batteries that use lithium-ion to store and release electrical energy. These batteries are commonly used for various portable electron devices and electric vehicles. During the charging process

Lithium-ion batteries are known for their high energy density, which means they can store a significant amount of energy relative to their size and weight. They also exhibit low self-discharge rates when compared to other battery types. However, they require careful handling and monitoring to prevent overcharging, overheating, and other safety concerns.

Future Hi-Tech Batteries are a leading lithium-ion battery manufacturer in India. Established in 1998 company offers a comprehensive range of products for industrial and domestic uses. For more details about lithium products, visit Future-Hi-Tech Batteries.

#lithium battery #high energy density batteries

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monicascot · 11 months

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youtube

The shocking truth about EV batteries: 1000 km on just 10 min! | Carcastics

Have you ever wished you could drive your car for 1000km without needing to recharge? Well, now there's a new technology that could make that possible! In this video, we'll explain the stunning new solid state battery technology and show you how it works.

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fadi123 · 1 year

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sand battery

What Is a ‘Sand Battery’ 2023?

A “sand battery” is a high temperature thermal energy storage that uses sand or sand-like materials as its storage medium. It stores energy in sand as heat.

Its main purpose is to work as a high-power and high-capacity reservoir for excess wind and solar energy. The energy is stored as heat, which can be used to heat homes, or to provide hot steam and high temperature process heat to industries that are often fossil-fuel dependent.

As the world shifts towards higher and higher renewables fraction in electricity production, the intermittent nature of these energy sources cause challenges to energy networks. The sand battery helps to ambitiously upscale renewables production by ensuring there’s always a way to benefit from clean energy, even if the surplus is massive.

The first commercial sand battery in the world is in a town called Kankaanpää, Western Finland. It is connected to a district heating network and heating residential and commercial buildings such as family homes and the municipal swimming pool. The district heating network is operated by an energy utility called Vatajankoski.

The term “sand battery” was introduced to grand audience by a BBC News story published the 5th of July 2022. The story was written by BBC News’ Environmental Correspondent Matt McGrath.

Read the story: BBC News: Climate change: 'Sand battery' could solve green energy's big problem

Watch the video: BBC News: How the world's first sand battery stores green power

UPDATE: We’ve been getting a lot of attention after our sand battery went viral. Due to a massive amount of requests and messages, our reply times can be very long. We appreciate your patience. Thank you! Please also note that we don’t have products for individual homes yet.

Frequently Asked Questions

What is the structure of your heat storage?

It is an insulated silo made of steel housing, filled with sand and heat transfer pipes. Additionally, equipment outside the storage is required, such as automation components, valves, a fan, and a heat exchanger or a steam generator.

How do you heat the sand?

With electricity from the grid or from local production, in both cases from fluctuating sources such as wind and solar. We charge it when clean and cheap electricity is available. The electrical energy is transferred to the heat storage using a closed loop air-pipe arrangement. Air is heated up using electrical resistors and circulated in the heat transfer piping.

How hot is the sand?

The maximum temperature in the Kankaanpää heat storage is about 600 degrees Celsius. However, the temperature may even be higher depending on customer needs. In practice, the maximum temperature of a sand-based heat storage is not limited by the properties of the storage medium, but by the heat resistance of the materials used in the construction and control of the storage.

How do you get heat out of the heat storage?

The heat storage is unloaded by blowing cool air through the pipes. It heats up as it passes through the storage, and it can be used for example to convert water into process steam or to heat district heating water in an air-to-water heat exchanger.

Why do you use sand?

Many solid materials, such as sand, can be heated to temperatures well above the boiling point of water. Sand-based heat storages can store several times the amount of energy that can be stored in a water tank of a similar size; this is thanks to the large temperature range allowed by the sand. So, it saves space and it allows versatile use in many industrial applications.

What kind of a sand you are using?

The heat storage is not very sensitive to sand grain size. We prefer high density, low-cost materials that are not from scarce sources. Someone else’s dirt could be our heat storage medium. We prefer to use materials that are not suitable for construction industry.

Does it matter what the grain size of the sand is?

Not much, we prefer to use those grain sizes that are not suitable for construction industry.

How is the heat storage insulated?

The heat storage is made of steel and insulated with standard, heat resistant insulating materials. The insulation is all around the heat storage between the outer steel layer and the inner one.

How long does the sand stay hot in the winter?

It can stay hot for months if needed, but the actual use case of the heat storage in Kankaanpää is to charge it in about 2-week cycles. The heat storage has its best range of use when it is charged and discharged 20 to 200 times per year, depending on the application.

Is the outer surface of the heat storage hot?

The surface of the storage is not hot, because the heat stays inside the storage—where it should be.

Can it store electricity?

Not as such, as it stores energy in the form of heat. The heat can be converted back to electricity using turbines like the ORC-turbine or a steam turbine. This requires additional investments to the turbine technology, and the conversion to electricity has inherent losses, thus complicating the economical side.

Is this a new technology?

Well, yes and no. The idea of heating sand to store energy is not new. Our way of doing things and commercializing it in large scale applications is.

#Sand Battery: An Innovative Energy Storage Solution #In recent years #the world has seen a growing demand for renewable energy sources that can help reduce our dependence on fossil fuels and mitigate the effec #energy storage remains a major challenge for the wider adoption of these technologies. This is where the sand battery comes in #an innovative energy storage solution that has been gaining traction in the scientific community.#A sand battery is a type of rechargeable battery that uses sand as its electrolyte #the substance that facilitates the flow of electric current. The concept of using sand in batteries is not new #as it has been studied since the 1980s. However #recent advancements in nanotechnology have made it possible to create high-performance sand batteries that are more efficient #durable #and cost-effective than ever before.#The basic principle behind a sand battery is simple. The battery consists of two electrodes #an anode and a cathode #separated by a layer of sand. When the battery is charged #electrons flow from the anode to the cathode through the sand #creating a flow of electricity. When the battery is discharged #the process is reversed #and the electrons flow back to the anode #providing electrical power.#One of the key advantages of sand batteries is their high energy density #which means they can store a large amount of energy in a small space. This makes them ideal for use in applications where space is limited #such as in mobile devices and electric vehicles. In addition #sand batteries are non-toxic #environmentally friendly #and have a long lifespan #making them a more sustainable energy storage solution compared to traditional batteries.#Another advantage of sand batteries is their low cost. Unlike traditional batteries that use expensive metals such as lithium and cobalt #sand batteries use abundant and widely available materials such as sand #graphite #and aluminum. This makes them a more affordable energy storage solution

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pnwnativeplants · 5 months

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https://www.xerces.org/blog/want-to-save-bees-focus-on-habitat-not-honey-bees

Five reasons why honey bees can be a problem

Native plants need native bees. Native bees coevolved with our native plants and often have behavioral adaptations that make them better pollinators than honey bees. For example, buzz-pollination, in which a bee grasps a flower and shakes the pollen loose, is a behavior at which bumble bees and other large-bodied native bees excel, and one that honey bees lack.

Honey bees are sub-par pollinators. The way that honey bees interact with flowers means that they sometimes contribute little or nothing to pollination. Honey bees groom their pollen and carry it in neat pollen cakes, where it’s less likely to contact the stigma of another flower and pollinate it. They are also known “nectar robbers” of many plants, accessing their nectar in a way that means they don’t touch the pollen, often by biting a hole in the base of the flower. By contrast, many of our native bees tend to be messier, carrying pollen as dry grains, often all over their bodies where it’s more likely to pollinate the plant.

Hungry hives crowd out native pollinators. Introducing a single honey bee hive means 15,000 to 50,000 additional mouths to feed in an area that may already lack sufficient flowering resources. This increases competition with our native bees and raises the energy costs of foraging, which can be significant. One study calculated that over a period of three months, a single hive collects as much pollen as could support the development of 100,000 native solitary bees!

Honey bees can spread disease. Unfortunately, honey bees can spread diseases to our native bees—deformed wing virus, for example, can be passed from honey bees to bumble bees—and can also amplify and distribute diseases within a bee community.

Urban honey bee hive densities are often too high. There is growing evidence of negative impacts in towns and cities from the presence of honey bees. A recent study from Montreal showed that the number of species of native bees found in an area decreased when the number of honey bees went up. In Britain, the London Beekeepers Association found that some parts of that city had four times as many hives as the city’s gardens and parks could support. The conservation organization Buglife recommends creating two hectares (five acres) of habitat for each hive, several times the size of an average residential lot in the United States.

#native plants #save the bees #ecology

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genderqueerdykes · 1 year

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small observations for people who are just starting testosterone HRT

If you suffer from chronic fatigue, chronic illness, or mental illness, you may notice that your energy levels dip down very low after first starting T. this is due your body needing extra energy to process the extra hormones, not anything long lasting. after your body adjusts, this fatigue will go away, and you may actually find that you have way, way more energy now

Beards love to be patchy and mustaches love to be invisible or nonexistent at first. if your beard is patchy at first, or if you just can't grow a full mustache, this is also normal. it can take years of testosterone HRT for beards to become full, especially if you had low T to begin with. moisturizing your beard regularly can help reduce this, and also any potential itchiness from being too long. beards will get itchy for many if they get long.

The acne (should) go away after your body adjusts, and you will not be greasy forever. you will find that your natural body odor smells different, though. this lasts as long as you are on T, as far as i'm aware for most people, but it's only noticeable for me when i get very sweaty after a lot of exertion, or illness.

You may find after you adjust that you have generally a bit more stamina or ease with starting up or adjusting to new physical activities after you've adjusted. it may be easier for you to work out now because you don't become fatigued as easy, for example, or you may find it is easier for you to put on muscle density.

The mood swings will calm down in time- they are most severe right after you start T, and then taper down as your body adjusts. it doesn't turn you into a "rage monster". you just go through normal pubescent moodiness. it's manageable, especially if you have good coping skills like physical activity, journaling, or art while stressed.

Libido goes either way, i've noticed. many people see a huge spike in libido at first, sometimes it stays for a long time, other people don't notice any change whatsoever. also, T for most people will not change what gender or type of person you are attracted to, however it can change how you view yourself in relationships and lead you to changing your identity labels, or questioning things. it generally doesn't make people change their identities overnight, though

Periods do stop for the vast majority of transmascs. it can take a long time, but they do stop if your doseage of T is right for you. if yours haven't stopped and you do not have reproductive health issues, you likely just need a higher dose to see this effect.

Breast tissue reduces in density when higher levels of testosterone are in the body, so it is very likely that you will see your breasts become flatter or even "Deflate" a bit. this is entirely normal. my chest has been like this my entire life due to very high T from hyperandrogenism & intersexuality

Balding can definitely happen, but this is generally only if you have a genetic predisposition to it. i have actually not seen many transmascs bald, although for many of us, our hairlines do shift upwards, but it's not noticeable unless you compare how you look now to older pics of yourself, and generally it takes years for your hairline to migrate anyway, which is natural for AMAB people later in life anyway. even if you do bald, you can speak with your prescriber and have access to medications to help with balding. it's not the end of the road and many respond very well to medication.

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