UNVEILING THE BENEFITS: LIVESTOCK SANDWICH PANELS REVOLUTIONIZING AGRICULTURAL INFRASTRUCTURE

In the dynamic landscape of modern agriculture, the quest for efficiency, durability, and sustainability remains paramount. Amidst this pursuit, livestock sandwich panels have emerged as a beacon of innovation, transforming traditional farm infrastructure into resilient and high-performance environments. Engineered by Globe Panels, these agricultural sandwich panels epitomize a fusion of cutting-edge technology and practicality, offering many advantages that redefine how we perceive and construct farming facilities.

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Livestock sandwich panels, commonly referred to as farm panels, represent a revolutionary approach to agricultural construction. These panels, meticulously crafted with precision and expertise, embody a composite structure comprising an insulating core encapsulated between two robust outer layers. Such a design not only ensures exceptional thermal insulation but also fortifies the infrastructure against harsh environmental elements, thereby enhancing livestock welfare and optimizing operational efficiency.

In this article, we delve into the manifold advantages bestowed by Globe Panels&#; livestock sandwich panels, elucidating how these innovative solutions have revolutionized agricultural practices worldwide. From unparalleled structural integrity and thermal efficiency to customizable designs tailored to diverse farming needs, the versatility of these panels transcends conventional limitations, empowering farmers to elevate their operations to unprecedented levels of performance and sustainability.

WHAT IS THE LIVESTOCK SANDWICH PANEL? WHAT IS THE DIFFERENCE BETWEEN FARM PANELS AND TRADITIONAL SANDWICH PANELS?

The farm panel, also known as the livestock sandwich panel, stands strong against harsh environmental conditions. It resists aggressive gasses and corrosive environments that quickly degrade traditional sandwich panels&#; outer metallic layer. This enhanced protection ensures excellent thermal insulation, airtightness, and remarkable durability.

Livestock sandwich panels present versatile insulation solutions for various settings. They are not just for intensive animal farms, including fish farms, but also serve the chemical industry and indoor swimming pools. Their smooth surface simplifies maintenance and cleaning. Just a splash of pressurized water and detergent is enough to meet sanitary standards.

HOW DOES THE THICKNESS OF THE LIVESTOCK SANDWICH PANEL VARY ACCORDING TO THE TYPE OF ANIMAL HOUSED?

These panels distinguish themselves from conventional ones in their construction. They usually incorporate a polyester sheet reinforced with fiberglass. The panel thickness varies based on the type of animal it shelters. For example, cows or pigs are best served by panels approximately 30 mm thick. Chickens or rabbits benefit from panels ranging between 40 and 50 mm, while fish farms and swimming pools require 50 mm panels.

Choosing the right livestock sandwich panel also means considering potential outdoor exposure. When outdoor contact is likely, flashing-type panels or those with three to five ribs and a polyester-reinforced interior are optimal. They also double as effective false ceilings, providing a practical solution for roof coverage.

Sandwich panels play a crucial role in enhancing livestock farming efficiency. They significantly reduce energy costs by cutting down thermal losses. These panels improve animals&#; thermal comfort and prevent issues like condensation and dampness.
In poultry and rearing farms, maintaining temperatures above 20°C during the early stages is critical. Sandwich panels help in reducing the need for heating, leading to cost savings. Poorly insulated farms often struggle with environmental quality, sometimes reducing ventilation to avoid extra cooling. This leads to increased humidity and ammonia, causing more diseases and reducing animal performance.

Animals in inadequately insulated facilities tend to consume more feed, as they need extra energy to maintain body heat. One key advantage of livestock sandwich panels is their non-toxic nature, which ensures the safety and quality of livestock products.

ADVANTAGES OF AGRICULTURAL SANDWICH PANELS OF GLOBE PANELS

The potential advantages and benefits of these two models of Globe Panels&#; sandwich panels for farming, each featuring different interior materials: embossed aluminum foil and reinforced fiberglass.

SANDWICH PANELS FOR FARMS WITH ALUMINUM FOIL INTERIOR (NATURAL COLOR OR WHITE)

1. Reflective Surface. The aluminum foil interior reflects heat, which can be especially beneficial in maintaining stable temperatures inside the structure. This reflection can help keep the interior cooler in hot climates and warmer in cold climates.
2. Durability. Aluminum is known for its durability and resistance to corrosion, making these panels long-lasting even in harsh farming environments.
3. Lightweight. Aluminum is a lightweight material, which might make installing and transporting these panels more manageable.
4. Hygiene and Cleaning. The smooth, non-porous surface of aluminum foil is easy to clean and disinfect, which is crucial in maintaining hygiene in farming environments.
5. Aesthetic Options. Offering natural color and white options can be advantageous for aesthetic reasons, allowing for integration into various design schemes.
6. Controlled Light Reflection. In addition to its reflective properties, the option of a white-colored aluminum foil interior is significant where light reflection needs to be minimized. This feature can be crucial in environments where controlling light exposure is important for the well-being of animals or certain types of plant growth in agricultural settings.
7. Cost-Effectiveness. The aluminum foil interior panels are generally more cost-effective compared to their fiberglass counterparts. This makes them a more budget-friendly option for farms looking to balance functionality with financial constraints.

SANDWICH PANELS FOR FARMS WITH REINFORCED FIBERGLASS INTERIOR

1. Corrosion Resistance. Fiberglass is highly resistant to corrosion from chemicals and moisture, which is particularly beneficial in environments like fish farming, where there might be higher humidity and exposure to various substances.
2. Strength and Durability. Reinforced fiberglass is known for its strength, which helps maintain structural integrity over a long period.
3. Thermal Insulation. Fiberglass provides excellent thermal insulation, which can help in maintaining consistent temperature conditions, crucial for animal health and productivity in farming.
4. Non-Conductive. As a non-metallic material, fiberglass doesn&#;t conduct electricity, which can be a safety advantage in environments where electrical equipment is used.
5. Minimal Maintenance. Fiberglass panels typically require minimal maintenance as they are less prone to damage from environmental factors.
6. Superior Corrosion Resistance. As noted, fiberglass excels in environments prone to corrosion. This is particularly valuable in fish farming or situations involving exposure to harsh chemicals.
7. Higher Cost. The reinforced fiberglass panels offer enhanced durability and resistance and come at a higher price point. This increased cost reflects the material&#;s superior performance in certain demanding environments. For farms requiring these specific benefits, their longevity, and lower maintenance needs over time can justify the investment in fiberglass panels.

Both types of agricultural sandwich panels seem designed with specific farming needs in mind. The choice between them would likely depend on the specific requirements of the farming environment, such as the level of exposure to corrosive substances, temperature control needs, and the importance of ease of maintenance and durability.

CONCLUSION

In summary, livestock sandwich panels and agricultural sandwich panels bring numerous benefits. They enhance energy efficiency, provide better living conditions for animals, and facilitate significant cost savings. These panels improve the environmental quality of facilities, reduce disease risks, and lower feed consumption. Their non-toxic nature also ensures the high quality of livestock products, making them indispensable in modern farming.

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West Virginia University researchers are shining a light on the benefits of solar panels on small cattle farms with the support of $1.6 million from the U.S. Department of Energy.

Matt Wilson, professor of animal sciences in the WVU Davis College of Agriculture, Natural Resources and Design and founder of the Alliance for Regenerative Livestock, said panels can generate solar energy on grazing lands and establish more sustainable cattle-raising practices.

Wilson, who is leading the research, will be applying dual-use solar &#; also known as agrivoltaics &#; which seeks ways to combine solar panels with agricultural uses like crop production, livestock or pollinator habitats.

As part of a collaboration with Appalachian Renewable Power, the University will be researching soil, grasses and cattle around the solar systems, while ARP will perform design and installation.

The grant comes as part of the DOE&#;s $71 million investment &#; including $16 million from the Biden Administration&#;s Bipartisan Infrastructure Law &#; in the development of a network of domestic solar energy manufacturers.

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Currently, 68% of agricultural producers in West Virginia have some sort of off-farm income because they cannot make a living in agriculture alone. Wilson said technology like solar would help diversify a farm&#;s income stream. Moreover, the idea of new and greener technology may appeal to younger generations, as the average age of agricultural producers in West Virginia is around 70.

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&#;Young people don't want to go into agriculture because they perceive it&#;s backbreaking work and low technology,&#; Wilson said. &#;But there are opportunities for a high-tech, multi-revenue stream and comprehensive things that a person can do to make a living in agriculture.&#;

West Virginia receives an abundance of rain, which benefits the grasslands cattle require, but the state&#;s topography doesn&#;t lend itself to row-crop agriculture. Livestock, however, can graze on hillsides and mountainsides where renewable energy is also being generated.

Wilson said the notion is not without its detractors, however.

&#;One of the largest hurdles that renewable energy is starting to face is that everybody wants all their energy from a renewable source, but they don&#;t want to see the windmills. They don&#;t want to see the solar panels. They definitely don&#;t want to put up panels that displace agriculture,&#; he said.

Despite these common objections, solar developers prefer agricultural lands because there&#;s little need for remediation of environmental problems.

&#;From a cost perspective, if I&#;m a solar developer, I want to pick a place where I won&#;t have to worry about legacy chemicals,&#; Wilson said. &#;We&#;ve been trying to pursue agrivoltaics. If we could design the source system so that they were in a high-quality pasture where you&#;re both raising a calf crop and energy on the same acreage, instead of switching purposes, you&#;ve now got dual purpose.&#;

Wilson&#;s primary research has focused on improving the sustainability of the beef industry through breeding more robust animals that consume fewer resources. In the last two decades, he&#;s developed a system for measuring feed intake, water intake and beef herd performance, and will use it to study the animals as they graze under solar arrays.

He has proposed installing both traditional flat panels as well as bifacial solar photovoltaic cells held together by netting. The latter would prevent water runoff that might affect soil hydrology.

&#;That&#;s our big goal with this project,&#; he said. &#;Install some solar and then study how animals perform in that scenario, under the panels. Then we can start making recommendations for producers if they&#;re interested.&#;

Ember Morrissey, associate professor of environmental microbiology, has been studying the potential impacts of dual-solar use on soil health and is part of the project.

&#;My team will collect and analyze soil samples from pasture with the novel agrivoltaics panels as well as traditional pastures,&#; she said. &#;This will allow us to determine if incorporating solar panels into pasture ecosystems may alter soil health.&#;

Establishing policy going forward will also be key. Electricity producers don&#;t get paid for generation. Wilson envisions an agricultural exemption that would allow farmers to receive compensation for solar. Questions remain, however, as the arrays would generate more power than a farm would need.

&#;I&#;ve been starting to talk to faculty in engineering and other places about what we can do,&#; he said. &#;Can we convert some of that into electrolysis to produce hydrogen or other things?&#;

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