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spacetimewithstuartgary · 5 days ago

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Field of Soy Dreams in Illinois

In Illinois, soybeans are big business. The state’s farmers harvested 64 bushels per acre in 2024, producing a record 688 million bushels of the versatile legume. The plant’s protein-rich beans are widely used as food for both livestock and people, as well as for the production of biodiesel and other industrial products.

The map above depicts data from the Cropland Data Layer, an annual, geo-referenced, crop-specific land cover dataset created by the USDA National Agricultural Statistics Service (NASS) for the contiguous United States. It uses data collected by Landsat satellites and Sentinel-2 to identify crop types. The elevation data layered onto the image comes from the Shuttle Radar Topography Mission (SRTM). Areas classified as soybean fields in 2024 are light green. Farmers in the Midwest often grow soybeans in rotation with other crops, usually corn and wheat.

The 2024 soybean harvest in Illinois was the nation’s largest, amounting to 16 percent of the total U.S. crop. A harvest of that scale supports tens of thousands of jobs and generates roughly $7 billion in economic output. Iowa trailed closely with 597 million bushels, followed by Indiana and Minnesota with 341 million and 329 million bushels, respectively.

Illinois growers benefit from having access to fertile soils, flat terrain that enables easy harvesting, and convenient transportation options and processing facilities. Soybeans are grown widely, with the exception of the Chicago area and the hilly region in the southern part of the state. McLean County, in east central Illinois, had the largest harvest of any U.S. county in 2024, producing 22.6 million bushels.

Illinois is also an important hub of agricultural innovation and research. Through the NASA Acres consortium, the University of Illinois Urbana-Champaign is working with other universities on 14 programs designed to convert satellite data into useful information for farmers.

For instance, University of Illinois researcher Kaiyu Guan, chief scientist for NASA Acres, is leading an effort to combine satellite data with ground sampling and hyperspectral imaging to determine the optimal nitrogen levels for crops. Guan and colleagues recently released an online calculator—the Maximum Return To Nitrogen (MRTN) Tool—designed to help Illinois farmers maximize profit while minimizing environmental problems.

NASA Earth Observatory image by Michala Garrison, using Cropland data from USDA NASS and topographic data from the Shuttle Radar Topography Mission (SRTM). Story by Adam Voiland.

#science #space #news #nasa #illinois #earth observatory

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surajjhaseo · 12 days ago

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Latest Sodium Methoxide Manufacturing Plant Project Report by Procurement Resource

Procurement Resource, a leading provider of procurement intelligence and market research solutions, has released its latest Sodium Methoxide Manufacturing Report. This detailed report serves as a vital guide for entrepreneurs and businesses planning to establish a sodium methoxide production facility, offering valuable insights into market trends, plant setup requirements, equipment needs, cost structures, and investment feasibility.

Sodium Methoxide: A Critical Catalyst and Reagent

Sodium methoxide (CH₃ONa) is an organic sodium compound widely used as a strong base and catalyst in various industrial applications. It plays a pivotal role in biodiesel production, pharmaceuticals, agrochemicals, and synthetic chemistry. Owing to its high reactivity and effectiveness in transesterification and deprotonation reactions, the demand for sodium methoxide has seen substantial growth, particularly in the biofuel and chemical synthesis sectors.

In-Depth Manufacturing Plant Report for Strategic Business Planning

The Procurement Resource report offers a detailed analysis of all the critical components involved in establishing a sodium methoxide plant, enabling informed business decisions and efficient resource allocation. Key aspects of the report include:

Market Analysis:

Industry trends, regional consumption patterns, and market segmentation

Raw material and end-product pricing analysis

Influence of sustainability trends and regulatory policies on demand

Technical and Operational Insights:

Comprehensive step-by-step manufacturing process

Machinery requirements (Fully-automatic / Semi-automatic / Manual)

Infrastructure, utilities, and labor needs

Compliance with quality control and safety standards

Financial and Economic Evaluation:

Capital investment requirements and operational expenditures

Profitability projections and return on investment (ROI)

Break-even analysis and long-term economic outlook

Sustainability and Emerging Market Trends

With increasing emphasis on clean energy and sustainable chemical manufacturing, sodium methoxide is gaining traction as a preferred catalyst in biodiesel production. The Asia-Pacific region is at the forefront of consumption, driven by industrial growth and renewable energy initiatives. Additionally, the shift toward eco-friendly processes is prompting manufacturers to explore greener production technologies and process optimization.

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#Sodium Methoxide #Sodium #Sodium Methoxide Manufacturing #Sodium Methoxide Manufacturing Plant Project Report #Sodium Methoxide Manufacturing Report

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readmedia777 · 7 months ago

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Cannabis to Jet Fuel: The High-Flying Future of Sustainable Energy

Introduction

The world stands at a critical crossroads, grappling with the dual challenges of increasing energy demands and climate change. With industries like aviation heavily reliant on fossil fuels, finding sustainable alternatives is no longer optional—it’s imperative. Amid this urgency, a surprising contender is emerging: cannabis, specifically industrial hemp, as a potential source of renewable jet fuel.

From its fast growth cycle to its ability to thrive in diverse conditions, hemp offers remarkable ecological and economic advantages. As researchers explore innovative ways to harness its energy potential, we may be on the cusp of a green revolution in aviation. Let’s delve into how cannabis could transform the skies, making jet fuel not just sustainable but revolutionary.

The Growing Need for Sustainable Energy in Aviation

The aviation industry accounts for nearly 2.5% of global carbon emissions. This might seem like a small percentage, but when you consider the cumulative environmental impact of millions of flights annually, the numbers become alarming. Traditional jet fuel, derived from fossil fuels, is one of the largest contributors to these emissions.

Efforts to transition to greener aviation fuels, such as biofuels from algae and waste materials, have shown promise. However, these alternatives often face scalability issues, high production costs, or supply limitations. A more sustainable and abundant resource is needed to meet the growing energy demands of global air travel. This is where hemp enters the picture, offering a renewable and viable solution to reduce the carbon footprint of aviation.

Cannabis: An Overview of Its Industrial Potential

Cannabis, often associated with recreational or medicinal use, is also a highly versatile crop with industrial applications. Hemp, a strain of cannabis with negligible psychoactive properties, has been cultivated for centuries for its fiber, seeds, and oil.

What makes hemp stand out is its adaptability and efficiency. It grows quickly, requires minimal water, and can thrive in a variety of climates. Its seeds are rich in oil, which can be processed into biodiesel, while its cellulose-rich stalks are ideal for ethanol production. These properties make hemp a promising candidate for the renewable energy sector, including aviation fuel.

Discover how Cannabis Waste to Jet Fuel is driving the next wave of sustainable energy for aviation.

How Cannabis Can Be Transformed into Jet Fuel

The process of converting hemp into biofuel involves several scientific steps, primarily focused on extracting usable energy components from the plant.

Oil Extraction: Hemp seeds are pressed to extract oil, which can be refined into biodiesel.

Cellulose Processing: The stalks are rich in cellulose, a key ingredient for ethanol and other biofuels.

Catalytic Refinement: Advanced technologies can further refine hemp oil and ethanol into aviation-grade fuel.

When compared to other biofuel sources like corn or soybeans, hemp offers higher yields and requires less intensive agricultural inputs. This makes it not only an environmentally friendly option but also a potentially cost-effective one.

Environmental Benefits of Hemp-Derived Jet Fuel

Hemp’s ability to combat climate change extends beyond its use as biofuel. Here’s how:

Carbon Sequestration: Hemp absorbs significant amounts of CO2 during its growth, effectively offsetting emissions from its fuel production and use.

Low Input Farming: It requires fewer pesticides and fertilizers compared to traditional crops, reducing the environmental impact of its cultivation.

Biodegradability: Any waste generated during hemp biofuel production is biodegradable, contributing to a circular economy.

The transition to hemp-based aviation fuel could lead to a substantial reduction in lifecycle greenhouse gas emissions, bringing us closer to carbon-neutral air travel.

Economic Opportunities from Cannabis-Based Aviation Fuel

The hemp-to-jet-fuel pathway isn’t just about sustainability—it’s a potential economic powerhouse. Hemp cultivation can create jobs, especially in rural and agricultural communities. Transitioning to hemp-based fuels provides farmers with a lucrative alternative to conventional crops, especially in regions facing agricultural challenges.

Additionally, scaling hemp biofuel production could drive down costs, making it competitive with traditional jet fuels. This economic potential makes hemp a win-win solution for the environment and the economy.

Overcoming Challenges in Adoption

While the potential of hemp-derived jet fuel is immense, realizing its full benefits requires addressing significant challenges:

Regulatory Hurdles: Many countries still have restrictive laws surrounding cannabis cultivation, even for industrial purposes. Easing these regulations is critical to enabling large-scale hemp farming and its use in energy production.

Technological Limitations: Developing cost-efficient and scalable methods to extract and refine hemp-based biofuels is a priority. Research in this area is ongoing but requires substantial investment.

Public Perception: Hemp often suffers from its association with marijuana, leading to public misunderstandings. Education and awareness campaigns can help demystify hemp’s role in sustainable energy.

Overcoming these obstacles demands coordinated efforts from policymakers, scientists, and industries. By fostering collaboration and innovation, the barriers to hemp-based aviation fuel adoption can be systematically dismantled.

Global Potential for Hemp Aviation Fuel

Hemp is an incredibly adaptable crop, capable of thriving in various climates, from temperate regions to semi-arid zones. This makes it a viable option for countries across the globe, including those with challenging agricultural conditions.

Developing Countries: Hemp cultivation can provide economic opportunities for developing nations, offering a sustainable crop with high market value.

Energy Independence: By producing their own biofuels, nations can reduce reliance on imported fossil fuels, bolstering energy security.

Global Supply Chain: Establishing international networks for hemp farming and biofuel production could transform the global energy landscape, making green aviation fuel accessible to all.

The global potential for hemp-based aviation fuel lies not just in its environmental benefits but also in its ability to create equitable economic opportunities.

Cannabis vs. Other Biofuel Sources

Hemp isn’t the only crop being considered for biofuel, but it has distinct advantages over many alternatives:CriteriaHempSoybeansAlgaeCornGrowth Cycle3-4 months4-5 monthsContinuous4-6 monthsWater RequirementsLowHighModerateHighLand Use EfficiencyHighModerateVery HighModerateEnvironmental ImpactPositive (CO2 sequestration)NeutralNeutralNegative (high pesticide use)Yield per Acre (Fuel)HighModerateHighLow

Hemp’s balance of high yield, low environmental impact, and versatility makes it a standout choice among biofuel crops, particularly for aviation.

The Role of Innovation in Expanding Hemp’s Potential

Innovation is the linchpin for maximizing hemp’s potential in the energy sector. Recent advancements in agricultural technology, such as precision farming and genetic improvements, have enhanced hemp yields and reduced production costs.

Farming Techniques: Modern irrigation methods and soil management practices can optimize hemp growth, even in challenging environments.

Biofuel Refinement: Emerging technologies in biofuel conversion, like enzymatic processing and catalytic cracking, are making hemp fuel production more efficient.

Integrated Systems: Hemp biofuel production can be coupled with other sustainable initiatives, like carbon capture technology and renewable power generation, to create a holistic green energy system.

By continuously pushing the boundaries of innovation, we can unlock even greater possibilities for hemp-derived energy solutions.

Cannabis and the Future of Green Aviation

Imagine a world where airplanes soar across the skies, powered by a fuel that’s not only renewable but also environmentally restorative. This vision isn’t as far-fetched as it seems. Hemp-based aviation fuel has the potential to:

Decarbonize Air Travel: By drastically reducing emissions, hemp biofuel could make aviation one of the greenest modes of transportation.

Inspire Industry Change: The adoption of sustainable fuels in aviation could set a precedent for other industries to follow.

Enhance Public Perception: Passengers and airlines alike would benefit from the positive environmental impact, creating a ripple effect of sustainability consciousness.

The future of aviation is undoubtedly tied to innovative energy solutions, and hemp is poised to play a starring role in this transformation.

Building a Hemp-Based Energy Ecosystem

To fully realize the potential of hemp-based aviation fuel, it’s essential to integrate it into a broader ecosystem of sustainability. This means:

Circular Economy Practices: Utilizing every part of the hemp plant ensures minimal waste and maximized utility. For example, while the seeds are used for oil, the stalks can be processed into materials like bioplastics.

Collaborative Efforts: Partnerships between energy companies, agricultural sectors, and governments are vital to creating a seamless supply chain.

Infrastructure Development: From farming facilities to biofuel refineries, building the necessary infrastructure is critical for scaling production.

This holistic approach not only amplifies the benefits of hemp fuel but also lays the groundwork for a more sustainable future across multiple industries.

Public Awareness and Policy Advocacy

For hemp aviation fuel to succeed, the public must be aware of its benefits, and policymakers must pave the way for its adoption. Key steps include:

Educational Campaigns: Informing the public about the environmental and economic advantages of hemp biofuel can help dispel misconceptions.

Policy Support: Governments need to incentivize hemp cultivation and biofuel production through subsidies, tax breaks, and research funding.

International Collaboration: Coordinated global efforts can accelerate the development and adoption of hemp-based fuels, ensuring widespread benefits.

Through awareness and advocacy, we can create the conditions necessary for hemp-derived jet fuel to take off—both literally and figuratively.

Conclusion

Hemp represents a beacon of hope in the quest for sustainable energy, particularly in the aviation sector. Its rapid growth, low environmental footprint, and high biofuel yield make it an unparalleled resource for addressing the twin challenges of climate change and energy demand.

By embracing cannabis-derived jet fuel, we can transform the skies into a cleaner, greener space, inspiring future generations to dream bigger and think sustainably. The journey from cannabis to jet fuel isn’t just about energy—it’s about redefining what’s possible in our fight for a better planet.

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theblogjota · 7 months ago

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Facing Challenges: Car Transport Companies and the Switch to Clean Fuels

As the world shifts towards greener energy solutions, car transport companies are facing new challenges and opportunities. Staying competitive and meeting customer demands is important for car shipping services. Explore how these companies are adapting to alternative fuel innovations, and how integrating electric and hybrid vehicles into their fleets and adjusting their services to accommodate this change.

From operational adjustments to training staff on new technologies, discover the practical steps car transport companies are taking to embrace a cleaner future.

Alternative Fuel Innovations

The automotive industry has been making significant strides in developing alternative fuel technologies to reduce reliance on traditional fossil fuels and decrease environmental impact. These innovations have an influence on nationwide car transport services, as they adapt to accommodate vehicles with diverse fuel systems.

Hydrogen Fuel Cells

Hydrogen fuel cell technology has emerged as a promising alternative to conventional internal combustion engines. These systems generate electricity through a chemical reaction between hydrogen and oxygen, producing only water vapor as a byproduct. This clean energy solution has an impact on reducing carbon emissions in the transportation sector.

For nationwide vehicle driveaway services, the adoption of hydrogen fuel cell vehicles presents new challenges and opportunities. Transport companies are adapting their processes to handle these vehicles safely, ensuring proper fueling and maintenance during long-distance shipping. The increasing popularity of hydrogen-powered cars has an influence on the infrastructure development along major transport routes, with more hydrogen refueling stations being established to support these vehicles.

Solar-Powered Accessories

Solar power has found its way into various automotive applications, particularly in the form of solar-powered accessories. These innovative additions harness the sun's energy to power auxiliary systems in vehicles, reducing the load on the main power source and improving overall efficiency.

In the context of auto transport services in California and across the nation, solar-powered accessories have an impact on vehicle preservation during transit. For instance, solar-powered ventilation systems can help maintain optimal temperatures inside vehicles during long journeys, protecting interiors and sensitive electronics from extreme heat. This technology has an influence on the quality of service provided by car shipping companies, ensuring vehicles arrive at their destinations in prime condition.

Biodiesel Compatibility

Biodiesel, a renewable fuel produced from vegetable oils or animal fats, has gained traction as an alternative to petroleum-based diesel. Many modern diesel engines are now designed to be compatible with biodiesel blends, offering a more environmentally friendly option for drivers and transport companies alike.

For San Jose auto shipping services and other transport providers, the increased compatibility with biodiesel has an impact on fuel options and environmental considerations. Transport companies are increasingly incorporating biodiesel-compatible vehicles into their fleets, reducing their carbon footprint while maintaining performance standards. This shift has an influence on the overall sustainability of nationwide car transport operations, aligning with growing environmental concerns and regulations.

The integration of these alternative fuel innovations in the automotive industry has a significant impact on nationwide car transport services. As vehicles become more diverse in their fuel requirements, transport companies are adapting their practices to accommodate these changes.

For those interested in learning more about how these alternative fuel technologies affect car shipping and the broader automotive landscape, it is recommended to read the full details on luckystarautotransport.com, where comprehensive information about these advancements is available. For those interested in learning more about how these innovations affect, nationwide car transport and the broader automotive industry, it is recommended to read this contact form on luckystarautotransport.com interested in the transport industry and its improvement toward sustainability.

For those interested in learning more about how these innovations affect, nationwide car transport and the broader automotive industry, it is recommended to navigate this website and discover the untapped market potential of eco-conscious consumers in the transport industry and its improvement toward sustainability.

Clean fuels aren’t just a trend—they’re the future of car transport. Will you adapt or get left behind?

youtube

#auto transport #car transport #car shipping #car carrier #Youtube

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dertaglichedan · 1 year ago

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Today that number is over 5500

Another one bites the dust. 97 and counting.

While the fire seems insignificant, it's part of a much larger issue of a spate of "accidental fires," one by one, taking out America's food supply chain over the past year.

Here's a list of 97 so far:

1/11/21 A fire that destroyed a 75,000-square-foot processing plant in Fayetteville

4/30/21 A fire ignited inside the Smithfield Foods pork processing plant in Monmouth, IL

7/25/21 Three-alarm fire at Kellogg plant in Memphis, 170 emergency personnel responded to the call

7/30/21 Firefighters on Friday battled a large fire at Tyson's River Valley Ingredients plant in Hanceville, Alabama

8/23/21 Fire crews were called to the Patak Meat Production company on Ewing Road in Austell

9/13/21 A fire at the JBS beef plant in Grand Island, Neb., on Sunday night forced a halt to slaughter and fabrication lines

10/13/21 A five-alarm fire ripped through the Darigold butter production plant in Caldwell, ID

11/15/21 A woman is in custody following a fire at the Garrard County Food Pantry

11/29/21 A fire broke out around 5:30 p.m. at the Maid-Rite Steak Company meat processing plant

12/13/21 West Side food processing plant in San Antonio left with smoke damage after a fire

1/7/22 Damage to a poultry processing plant on Hamilton's Mountain following an overnight fire

1/13/22 Firefighters worked for 12 hours to put a fire out at the Cargill-Nutrena plant in Lecompte, LA

1/31/22 a fertilizer plant with 600 tons of ammonium nitrate inside caught on fire on Cherry Street in Winston-Salem

2/3/22 A massive fire swept through Wisconsin River Meats in Mauston

2/3/22 At least 130 cows were killed in a fire at Percy Farm in Stowe

2/15/22 Bonanza Meat Company goes up in flames in El Paso, Texas

2/15/22 Nearly a week after the fire destroyed most of the Shearer's Foods plant in Hermiston

2/16/22 A fire had broken at US largest soybean processing and biodiesel plant in Claypool, Indiana

2/18/22 An early morning fire tore through the milk parlor at Bess View Farm

2/19/22 Three people were injured, and one was hospitalized, after an ammonia leak at Lincoln Premium Poultry in Fremont

2/22/22 The Shearer's Foods plant in Hermiston caught fire after a propane boiler exploded

2/28/22 A smoldering pile of sulfur quickly became a raging chemical fire at Nutrien Ag Solutions

2/28/22 A man was hurt after a fire broke out at the Shadow Brook Farm and Dutch Girl Creamery

3/4/22 294,800 chickens destroyed at farm in Stoddard, Missouri

3/4/22 644,000 chickens destroyed at egg farm in Cecil, Maryland

3/8/22 243,900 chickens destroyed at egg farm in New Castle, Delaware

3/10/22 663,400 chickens destroyed at egg farm in Cecil, MD

3/10/22 915,900 chickens destroyed at egg farm in Taylor, IA

3/14/22 The blaze at 244 Meadow Drive was discovered shortly after 5 p.m. by farm owner Wayne Hoover

3/14/22 2,750,700 chickens destroyed at egg farm in Jefferson, Wisconsin

3/16/22 A fire at a Walmart warehouse distribution center has cast a large plume of smoke visible throughout Indianapolis.

3/16/22 Nestle Food Plant extensively damaged in fire and new production destroyed Jonesboro, Arkansas

3/17/22 5,347,500 chickens destroyed at egg farm in Buena Vista, Iowa

3/17/22 147,600 chickens destroyed at farm in Kent, Delaware

3/18/22 315,400 chickens destroyed at egg farm in Cecil, Maryland

3/22/22 172,000 Turkeys destroyed on farms in South Dakota

3/22/22 570,000 chickens destroyed at farm in Butler, Nebraska

3/24/22 Fire fighters from numerous towns are battling a major fire at the McCrum potato processing facility in Belfast.

3/24/22 418,500 chickens destroyed at farm in Butler, Nebraska

3/25/22 250,300 chickens destroyed at egg farm in Franklin, Iowa

3/26/22 311,000 Turkeys destroyed in Minnesota

3/27/22 126,300 Turkeys destroyed in South Dakota

3/28/22 1,460,000 chickens destroyed at egg farm in Guthrie, Iowa

3/29/22 A massive fire burned 40,000 pounds of food meant to feed people in a food desert near Maricopa

3/31/22 A structure fire caused significant damage to a large portion of key fresh onion packing facilities in south Texas

3/31/22 76,400 Turkeys destroyed in Osceola, Iowa

3/31/22 5,011,700 chickens destroyed at egg farm in Osceola, Iowa

4/6/22 281,600 chickens destroyed at farm in Wayne, North Carolina

4/9/22 76,400 Turkeys destroyed in Minnesota

4/9/22 208,900 Turkeys destroyed in Minnesota

4/12/22 89,700 chickens destroyed at farm in Wayne, North Carolina

4/12/22 1,746,900 chickens destroyed at egg farm in Dixon, Nebraska

4/12/22 259,000 chickens destroyed at farm in Minnesota

4/13/22 fire destroys East Conway Beef & Pork Meat Market in Conway, New Hampshire

4/13/22 Plane crashes into Gem State Processing, Idaho potato and food processing plant

4/13/22 77,000 Turkeys destroyed in Minnesota

4/14/22 Taylor Farms Food Processing plant burns down Salinas, California.

4/14/22 99,600 Turkeys destroyed in Minnesota

4/15/22 1,380,500 chickens destroyed at egg farm in Lancaster, Minnesota

4/19/22 Azure Standard nation's premier independent distributor of organic and healthy food, was destroyed by fire in Dufur, Oregon

4/19/22 339,000 Turkeys destroyed in Minnesota

4/19/22 58,000 chickens destroyed at farm in Montrose, Color

4/20/22 2,000,000 chickens destroyed at egg farm in Minnesota

4/21/22 A small plane crashed in the lot of a General Mills plant in Georgia

4/22/22 197,000 Turkeys destroyed in Minnesota

4/23/22 200,000 Turkeys destroyed in Minnesota

4/25/22 1,501,200 chickens destroyed at egg farm Cache, Utah

4/26/22 307,400 chickens destroyed at farm Lancaster Pennsylvania

4/27/22 2,118,000 chickens destroyed at farm Knox, Nebraska

4/28/22 Egg-laying facility in Iowa kills 5.3 million chickens, fires 200-plus workers

4/28/22 Allen Harim Foods processing plant killed nearly 2M chickens in Delaware

4/2822 110,700 Turkeys destroyed Barron Wisconsin

4/29/22 1,366,200 chickens destroyed at farm Weld Colorado

4/30/22 13,800 chickens destroyed at farm Sequoia Oklahoma

5/3/22 58,000 Turkeys destroyed Barron Wisconsin

5/3/22 118,900 Turkeys destroyed Beadle S Dakota

5/3/22 114,000 ducks destroyed at Duck farm Berks Pennsylvania

5/3/22 118,900 Turkeys destroyed Lyon Minnesota

5/7/22 20,100 Turkeys destroyed Barron Wisconsin

5/10/22 72,300 chickens destroyed at farm Lancaster Pennsylvania

5/10/22 61,000 ducks destroyed at Duck farm Berks Pennsylvania

5/10/22 35,100 Turkeys destroyed Muskegon, Michigan

5/13/22 10,500 Turkeys destroyed Barron Wisconsin

5/14/22 83,400 ducks destroyed at Duck farm Berks Pennsylvania

5/17/22 79,00 chickens destroyed at Duck farm Berks Pennsylvania

5/18/22 7,200 ducks destroyed at Duck farm Berks Pennsylvania

5/19/22 Train carrying limestone derailed Jensen Beach FL

5/21/22 57,000 Turkeys destroyed on farm in Dakota Minnesota

5/23/22 4,000 ducks destroyed at Duck farm Berks Pennsylvania

5/29/22 A Saturday night fire destroyed a poultry building at Forsman Farms

5/31/22 3,000,000 chickens destroyed by fire at Forsman facility in Stockholm Township, Minnesota

6/2/22 30,000 ducks destroyed at Duck farm Berks Pennsylvania

6/7/22 A fire occurred Tuesday evening at the JBS meat packing plant in Green Bay.

6/8/22 Firefighters from Tangipahoa Fire District 1 respond to a fire at the Purina Feed Mill in Arcola

6/9/22 Irrigation water was canceled in California (the #1 producer of food in the US) and storage water flushed directly out to the delta.

6/12/22 Largest Pork Company in the US Shuts Down California Plant Due to High Costs

6/13/22 Fire Breaks Out at a Food Processing Plant West of Waupaca County in Wisconsin.

***This is from 2021 and 2022.. Can that total today be correct???

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thecatamaranlad · 2 years ago

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OC dump

These are just Some Guys (and gals and nonbinary pals) from a story I wrote in 2017 after taking a road trip across the US post-Trump election, tentatively titled "Raptors".

Setting: (linked to more in depth post) near-future sci-fi, United States. Lots of climate-linked natural disasters and social breakdowns.

Story vibe: Queer buddy/road trip comedy with some drama, friendship, found and birth families. And shitty biodiesel campervans!!

OK, here are the dudes and other folks: (below the cut)

Tai (they/them): Main character. Biracial (black mom, redneck white dad), nonbinary, queer, from South Carolina. Really into cars and mechanics. Autistic, reserved, fiercely loyal to those they let into their world. Has unprocessed childhood trauma LOL but who doesn't amirite. 19 years old at the beginning of The Trip.

Kat (she/her but dgaf, she's literally a cat): Tai's cat. Small black adventure meow who will ride on your shoulder if you're Tai or Carla, and tolerates harnesses and road trips -- if she can look out the window. A year old at the beginning of the story/trip. Her name is either short for Katrina or Category 6, depending on who you ask.

Sam/Sammy (he/him): excessively tattooed meteorology grad student. Tai's childhood friend/babysitter. White, redheaded trans man. Kind Of A Mess. Not over his ex. Full Of Feelings. Eventually acquires a motorcycle. 24 at the start of The Trip, but doesn't join. Will answer calls and monitor the weather where you're at even if he's mad at you. (Three guesses who's my self-insert character.)

Carla (she/they): Asexual biromantic Hispanic girl with blue hair (at the start of the story anyways). From New Jersey. Sammy's ex and also roommate (it's complicated). 26 at the start of The Trip, which she joins because she's tired of Sam's angsty BS. Can't get a job in her field (mechanical engineering). Way too impulsive.

Lou (they/them): Nonbinary Asian American kid from Boston. Tai's... ex? It's complicated! Emotionally constipated, but well-meaning. 20 years old when Tai ditches them to fuck off to California in a shitty van LOL.

Marisa (she/her... she/they really): Tai's mom. A black woman in her 50s. Overeducated and underpaid (doctorate in English Literature). Might be involved in fomenting a revolution but who knows. Has certainly been illegally fired for union organizing before. Lost custody in the divorce. Lives in California now and communicates with Tai sporadically but supportively.

Holly (she/her): Tai's aunt's ex-lesbian lover from college. (Still definitely a lesbian. Probably white? I haven't decided yet.) Manages a queer farming/ranching co-operative in Montana. Bit of a prepper and not a little paranoid, but welcoming and caring nonetheless.

Anyways these are my lil comfort OC blorbos (aka the ones I DON'T make do a shit ton of emotional processing on my behalf). I just stick them into the world my brain is convinced is starting to exist anyhow (gotta use that degree for something!!), and see what they do.

#me writing a thing #raptors story #sam the motorcycle man #wip wednesday #original characters #my ocs #i need to learn to draw for these guys tbh

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theglowsociety · 18 days ago

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Hemp is often touted as a “miracle plant” due to its wide range of uses and environmental benefits. With the world facing climate change, deforestation, pollution, and resource depletion, hemp offers a sustainable solution that can help mitigate some of the planet’s biggest challenges.

1. Reducing Deforestation

One of the most significant benefits of hemp is its ability to replace paper made from trees. Hemp grows quickly—requiring only about four months to reach full maturity—while trees take years. Hemp paper also requires fewer chemicals to process, and it can be recycled multiple times. This reduces the need to cut down trees, preserving forests that act as carbon sinks and biodiversity hotspots.

2. Carbon Sequestration

Hemp plants are incredibly efficient at sequestering carbon. During its growth cycle, hemp absorbs CO2 from the atmosphere, making it a powerful tool in the fight against climate change. Studies suggest that hemp can absorb up to 1.63 tons of CO2 per ton of hemp produced, far more than trees.

3. Soil Remediation

Hemp is also used for phytoremediation, a process in which plants are used to absorb and detoxify soil contaminated with heavy metals, pesticides, and other pollutants. By planting hemp in polluted areas, it can help restore the health of the soil and make it suitable for future agricultural use.

4. Sustainable Textiles

The fashion industry is one of the largest polluters on the planet. Hemp offers an eco-friendly alternative to conventional cotton, which requires vast amounts of water, pesticides, and synthetic fertilizers. Hemp textiles are durable, biodegradable, and require minimal resources to grow, making them a sustainable option for clothing and other fabric-based products.

5. Biofuels and Renewable Energy

Hemp can be used to produce biofuels, including hemp biodiesel and ethanol. These fuels are renewable, and using them reduces reliance on fossil fuels, which contribute to pollution and greenhouse gas emissions. Hemp-based biofuels could play a role in creating cleaner energy systems for the future.

6. Hemp Plastics

Plastic pollution is a global crisis, with millions of tons of plastic ending up in oceans and landfills each year. Hemp can be used to create biodegradable plastic products. These hemp-based plastics break down naturally over time, unlike traditional plastics that can take hundreds of years to decompose.

By adopting hemp as a resource for a variety of industries, we can reduce our reliance on unsustainable materials and significantly lower our environmental impact. The planet desperately needs alternatives to fossil fuels, harmful chemicals, and deforestation, and hemp offers a solution that’s both practical and sustainable.

ice cream cake

#mine #original #cannablr #cannacommunity #hemp #indica strains #indica flower #budtender #ambitious women #beautiful women

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snehalshinde65799 · 5 days ago

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Rapeseed Meal Market Development Supported by Technological Advancements and Feed Industry Expansion

The rapeseed meal market has witnessed considerable growth in recent years, driven by increasing demand for high-protein animal feed, growing awareness of its nutritional benefits, and the expanding biofuel industry. Rapeseed meal, a by-product derived from the oil extraction process of rapeseed or canola seeds, has become a crucial component in livestock diets across the globe due to its rich protein content and economic viability. With the global population rising and the consequent need for food security and sustainable agricultural practices, the role of rapeseed meal in feed and industrial applications is more important than ever.

Market Overview

Rapeseed meal is the second most widely traded protein meal in the world after soybean meal. It contains about 34–38% protein and is extensively used as a feed ingredient for cattle, poultry, swine, and aquaculture. The Asia-Pacific region, especially China and India, leads in consumption due to their large livestock sectors. Europe, meanwhile, is a key producer, with countries like Germany, France, and the UK being major exporters.

In 2024, the global rapeseed meal market was valued at approximately USD 14 billion, and it is projected to reach around USD 18 billion by 2030, growing at a CAGR of 3.5–4.5%. This growth is fueled by the rising awareness about alternative and sustainable protein sources and the volatility in prices of conventional feed ingredients like soybean.

Key Drivers of Growth

Rising Demand for Animal Protein: The increasing global consumption of meat, eggs, and dairy has led to a surge in demand for quality animal feed. Rapeseed meal offers a cost-effective alternative to soybean meal and helps meet this growing requirement.

Sustainable and Eco-Friendly: As sustainability becomes a central theme in agriculture and food production, rapeseed meal gains favor for being an eco-friendly by-product. Its use reduces feed costs and environmental impact, supporting circular economy practices.

Expanding Oilseed Processing Industry: The growing demand for rapeseed oil in cooking and biodiesel production results in higher availability of rapeseed meal as a secondary product, boosting its supply and market stability.

Government Support and Policies: Several governments are promoting the use of rapeseed meal in feed production through subsidies and import/export incentives. Additionally, import substitution policies in countries like India are pushing domestic production and use of rapeseed meal.

Market Challenges

Despite its numerous advantages, the rapeseed meal market faces a few hurdles. One of the main issues is its relatively lower digestibility and the presence of anti-nutritional factors such as glucosinolates, which can limit its use in feed for monogastric animals like poultry and pigs. However, advancements in processing techniques and genetic improvements in rapeseed cultivars are steadily addressing these concerns.

Another challenge is competition from other protein meals such as soybean, sunflower, and cottonseed meal. These alternatives may be preferred in certain regions based on availability, cost, and compatibility with livestock needs.

Regional Insights

Asia-Pacific: Dominated by China and India, this region accounts for the largest share of rapeseed meal consumption. The expanding dairy and poultry industries in these countries create strong demand.

Europe: Leading producer and exporter, especially in non-GMO feed markets. The European feed industry values rapeseed meal for its local availability and lower carbon footprint.

North America: While not a major consumer, the U.S. and Canada contribute significantly to production. Canada, a major exporter of canola meal, plays a pivotal role in the global trade landscape.

Trends and Opportunities

Emerging trends in the market include the development of low-glucosinolate varieties (known as “canola meal”), increased use of rapeseed meal in aquafeed, and research into enzyme supplementation to enhance digestibility. Furthermore, there's a growing focus on organic and non-GMO variants in Europe and North America, which presents lucrative opportunities for value-added product offerings.

Additionally, innovations in feed formulation and the integration of precision livestock farming are encouraging the use of alternative feed ingredients like rapeseed meal, boosting its relevance and appeal to modern producers.

Conclusion

The rapeseed meal market stands at the intersection of sustainability, animal nutrition, and economic viability. As global food and feed systems evolve, rapeseed meal is poised to play an increasingly strategic role. Through technological advancements, regulatory support, and a focus on sustainable agriculture, the market is set to expand its footprint, offering both challenges and significant opportunities for stakeholders across the supply chain.

#RapeseedMealMarket #AnimalFeedMarket #FeedIngredients #ProteinMealMarket #OilseedIndustry

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chemanalystdata · 5 days ago

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Tallow Oil Prices Index: Trend, Chart, News, Graph, Demand, Forecast

The Tallow Oil market in the first quarter of 2025 exhibited a highly dynamic pricing landscape shaped by global economic factors, regional supply-demand imbalances, and shifting trade flows. In the United States, prices fluctuated throughout the quarter as supply chain disruptions, transportation bottlenecks, and energy costs played critical roles in market behavior. January witnessed a moderate rise in prices, primarily driven by heightened procurement activities from importers concerned about looming logistical challenges and higher freight rates. Harsh winter weather added strain to transport routes, delaying shipments and tightening inventories. These constraints pushed prices upward as buyers scrambled to secure sufficient stock. Rising energy costs further added to the inflationary pressure on production and transportation, amplifying the upward momentum in the market. In addition, uncertainties related to global economic recovery, potential labor strikes, and the complex geopolitical landscape fueled a precautionary buying sentiment, keeping prices on the higher end of the spectrum.

February brought a shift in market sentiment as conditions became more favorable. The stabilization of shipping lanes and a drop in freight costs allowed for improved product availability across U.S. ports. Major suppliers, particularly from Asia and Latin America, were able to meet demand with fewer disruptions, reducing the urgency for stockpiling. Despite a healthier supply environment, downstream demand remained relatively soft, especially in sectors like biofuels, animal feed, and oleochemicals, where production either slowed or inventories were already well-stocked. This balance between steady supply and subdued demand led to a drop in Tallow Oil prices during the month. Importers took a more conservative approach, scaling back new orders as they monitored the market for signs of either recovery or further decline. The overall sentiment remained cautious, with buyers resisting aggressive pricing amid adequate domestic and imported supply.

Get Real time Prices for Tallow Oil: https://www.chemanalyst.com/Pricing-data/tallow-oil-1333

By March, the Tallow Oil market began to exhibit signs of recovery, influenced by a renewed sense of urgency in procurement. A combination of growing geopolitical tensions, concerns over tightening raw material availability, and fluctuating crude oil prices contributed to an uptick in market activity. Buyers re-entered the market with increased confidence, anticipating potential constraints in supply due to political instability in certain exporting nations and currency fluctuations affecting trade flows. Additionally, some segments of the manufacturing sector began to rebound, driving up demand for Tallow Oil used in products such as soaps, detergents, lubricants, and biodiesel. This renewed interest led to a gradual price increase as suppliers adjusted their offers in response to rising inquiries and lower inventories. The quarter concluded with a firmer pricing outlook, supported by both supply concerns and demand optimism.

In the Asia Pacific region, particularly in India, Tallow Oil prices saw significant volatility throughout Q1 2025. January began with sharp price hikes fueled by robust demand from the food processing, cosmetics, and bio-lubricants industries. The Indian manufacturing sector was performing strongly, creating heightened demand for raw materials like Tallow Oil. Export demand also surged, largely due to the depreciation of the Indian Rupee, which made Indian-origin products more competitive in global markets. However, February brought temporary stability, as concerns about a bird flu outbreak in Maharashtra slowed down the buying momentum. Market participants grew cautious, though underlying demand remained steady across sectors like animal feed, biofuels, and oleochemicals. March marked another upward movement in prices as demand strengthened across various applications, and export volumes to the Middle East rose sharply. The increase in overseas shipments tightened domestic supply, creating upward pressure on prices. The quarter closed on a bullish note, with tight supply and active demand contributing to a firm pricing environment.

In Europe, the Tallow Oil market showed mixed trends during the first quarter. Germany, one of the region’s major markets, experienced a moderate price increase in January driven by strong demand from the food, biofuel, and oleochemical sectors. Rising energy costs, stemming from broader inflationary pressures, also played a role in increasing production costs and pricing. February saw a brief period of price stability as supply and demand reached equilibrium, although a strong Euro weighed on export competitiveness. Political uncertainty related to national elections created a more risk-averse environment among buyers. March brought about a notable price decline as demand weakened and an oversupply emerged across European markets. The introduction of new U.S. tariffs on beef tallow disrupted trade patterns and led to inventory accumulation in key producing countries. European exporters struggled with reduced foreign demand, prompting price reductions to manage excess stock. This situation led to a bearish close for Q1, with the market facing oversupply challenges and limited near-term upside potential.

In the Middle East and Africa region, particularly the UAE, Tallow Oil prices followed a mostly downward trend for the majority of the quarter. January and February were characterized by weak global demand, particularly from sectors like cosmetics, pharmaceuticals, and biofuels. High inventory levels carried over from late 2024 discouraged aggressive purchasing, and buyers remained on the sidelines awaiting further price corrections. Additionally, the stability of the UAE Dirham against the U.S. Dollar kept import costs predictable, contributing to price declines. The Dirham’s appreciation in February further eased purchasing costs, especially from Indian suppliers, intensifying the downward trend. However, March saw a reversal as prices rebounded slightly. Renewed interest from regional buyers and improved sentiment around oil markets led to increased procurement. Export demand also picked up marginally, creating a more balanced market. This late-quarter recovery pointed to the potential for future price gains depending on how demand and supply dynamics evolve.

Overall, the global Tallow Oil market in Q1 2025 was marked by regional inconsistencies and evolving trade patterns. While North America and India showed resilience and late-quarter recoveries, Europe faced headwinds from oversupply and trade restrictions, and the Middle East began to stabilize after a sluggish start. The interplay of energy markets, geopolitical developments, currency fluctuations, and industrial activity will likely continue to shape the pricing trajectory of Tallow Oil in the months ahead, making it imperative for stakeholders to monitor both macroeconomic and regional indicators closely.

Get Real time Prices for Tallow Oil: https://www.chemanalyst.com/Pricing-data/tallow-oil-1333

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materialsscienceandengineering · 1 year ago

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Researchers at Chalmers University of Technology in Sweden have developed an environmentally friendly method for recycling and purifying metals. Using gold earrings from a pawnshop in Gothenburg and biodiesel from the nearest filling station, the discovery could change an industry that is currently dependent on large amounts of fossil oil. "Pure metals have a number of uses in a modern society, not least for the development of green technologies. Our research shows how the metal industry can accelerate the transition from fossil to bio-based solvents," says Mark Foreman, Associate Professor of Chemistry at Chalmers. Gold is not only a precious metal that is a symbol of wealth in jewellery and gold bars. A regular smartphone contains slightly more than 0.03 grams of gold, and the metal is found in most of the everyday electronics we have around us. It is also important in components for the aerospace industry. For many applications, gold is mixed with other metals, which then need to be removed when the valuable gold sheet is to be recycled. In this process, organic solvents, such as fossil diesel, are used.