How Solar Mounting Structures Make Solar Panels Last Longer

Solar energy is becoming more and more popular as people look for cleaner ways to produce energy. For solar panels to work well and last a long time, they need strong support. This is where solar module mounting structures come in. These frames hold the panels in place and keep them stable, especially in tough weather conditions. While they might not get much attention, they are a key part of any solar energy system.

What Are Solar Mounting Structures?

Think of solar mounting structures as the backbone of your solar panels. They are designed to:

Help panels catch the most sunlight.

Stay strong against wind, rain, and snow.

Keep the panels safe from water or debris on the ground.

The better these structures are, the longer your solar panels will last.

Materials Used in Solar Mounting Structures

The materials used to make solar module mounting structures are chosen for their strength, durability, and cost. Some common options include:

Hot Dip Galvanized Steel: This material resists rust really well because it is coated with zinc. It can handle harsh conditions and lasts a long time.

Pre-Galvanized Steel: This is a more budget friendly option that works in areas with less exposure to moisture or corrosion.

Aluminum: Lightweight and rust proof, aluminum is a favorite for many solar mounting manufacturers.

Stainless Steel: In salty environments like near the coast, stainless steel is a great choice because it does not corrode easily.

Reach out to us to learn more about top-quality galvanized solar mounting structures.

How Solar Mounting Structures Help Panels Last Longer

1. Protection from Weather

Solar mounting structures provide a solid base to protect panels from strong winds, heavy rain, and snow. When installed correctly, these systems stop the panels from bending or breaking in bad weather. For example, ground-mounted systems used in large SPV power plant projects are built to handle powerful winds and other extreme conditions.

2. Rust Resistance

Outdoor metal structures often face rust problems. But with hot dip galvanizing, the steel gets a protective coating that keeps it safe from moisture. This makes the mounting system last longer, even in humid or coastal areas. For budget-conscious projects, pre-galvanized structures are a good alternative without losing too much durability.

3. Better Sunlight Absorption

By keeping panels at the right angle, solar mounting structures ensure they absorb as much sunlight as possible. This not only improves energy output but also reduces wear and tear since the panels do not need constant adjustments. Fixed tilt and tracking systems are great examples of how these structures boost performance.

4. Strength in Extreme Conditions

Good-quality solar module mounting structures are made to handle strong winds, earthquakes, and other tough conditions. For instance, hot dip galvanized steel frames are popular for their ability to stay strong in harsh weather.

5. Lower Maintenance Costs

Strong mounting structures mean you do not have to spend as much on repairs or replacements. This saves time and money over the long run.

6. Versatile Installation Options

Manufacturers create solar module mounting structures for all kinds of setups, like rooftop systems, ground-mounted systems, and even floating solar systems. Each type is made to match different project needs and environments.

Types of Solar Mounting Structures

1. Fixed-Tilt Structures

These systems keep solar panels at one angle. They are affordable and work well in places with steady sunlight throughout the year.

2. Adjustable-Tilt Structures

These allow you to change the panel angle depending on the season. This helps capture more sunlight and reduces stress on the panels in bad weather.

3. Single-Axis and Dual-Axis Trackers

These advanced systems move with the sun to maximize energy production. Though they cost more, their efficiency and durability make them ideal for large SPV power plant projects.

4. Floating Solar Mounting Systems

Designed for water installations, these systems use materials like aluminum or stainless steel to resist constant contact with water. They are great for areas with limited land.

Why High-Quality Mounting Structures Matter

Using top-notch solar mounting structures gives you:

Longer Lifespan: Materials like hot dip galvanized steel can last for decades.

Safety: Well-made structures prevent panels from being damaged or dislodged during storms.

Better Performance: Mounting systems keep panels at the perfect angle for maximum energy output.

Flexibility: Advanced designs can adapt to different terrains and weather conditions.

On the flip side, poor-quality materials or designs can lead to frequent repairs, lower energy efficiency, and safety risks. For dependable solutions, visit Best Solar Module Mounting Manufacturers.

What’s New in Solar Mounting Structures?

Lightweight Designs: These reduce the load on the roof and make installation easier.

Pre-Assembled Systems: Save time and effort during installation while staying durable.

Eco-Friendly Materials: Recyclable materials are becoming more common, helping the environment.

Built-In Monitoring: Some systems now include sensors to track panel performance and detect issues early.

Where Solar Mounting Structures Are Used

1. Rooftop Systems

Perfect for homes and businesses, rooftop systems are lightweight and designed to make the most of limited space. They work with flat or sloped roofs.

2. Ground Mounted Systems

For large projects like SPV power plants, ground-mounted systems are a popular choice. They are sturdy and allow for flexible layouts.

3. Tracking Systems

This enables solar panels to track the sun so that energy production from this power source is improved. They are found necessary at solar farms that are meant for the utility.

4. Floating Systems

Used in water-based installations, these systems also help reduce water evaporation from reservoirs.

For further information on these options, go through Top 4 Solar Module Mounting Structures: Pros and Cons Explained.

Final Thoughts

Solar mounting structures play a critical role in ensuring that your solar panels last long and work effectively. They provide protection, stability, and optimal positioning. Whether you are looking for galvanized solar structures, pre-galvanized options, or advanced tracking systems, choosing high-quality materials and designs is key.

For durable and affordable solutions, check out KP Green Engineering. We offer reliable products that ensure your solar projects stand the test of time.

PV Racking and Mounting Equipment Market Business Strategies and Huge Demand by 2032

Overview: The PV (Photovoltaic) racking and mounting equipment market refers to the market for components and systems used to securely install and mount solar panels in photovoltaic systems. Racking and mounting equipment are essential for ensuring proper positioning, stability, and durability of solar panels in various applications, such as residential, commercial, and utility-scale solar installations. The solar PV mounting systems market size exceeded USD 24.1 billion in 2022 and is poised to depict 3.9% CAGR during 2023 to 2032

Trends:

Increasing solar installations: The PV racking and mounting equipment market has witnessed significant growth due to the increasing installation of solar PV systems globally. The growing demand for clean and renewable energy sources, coupled with declining solar panel costs, has led to a surge in solar installations across residential, commercial, and utility sectors. This trend has directly influenced the demand for racking and mounting equipment.

Technological advancements: The market is experiencing continuous technological advancements in PV racking and mounting equipment. Innovations include improved mounting systems, lightweight materials, enhanced adjustability, and integrated cable management solutions. These advancements aim to improve installation efficiency, reduce material and labor costs, and ensure optimal system performance.

Shift towards bifacial and larger solar modules: The solar industry is witnessing a shift towards bifacial solar modules and larger-sized solar panels. This trend requires racking and mounting solutions that can accommodate the unique requirements of bifacial modules and effectively handle the increased size and weight of larger solar panels. Manufacturers are developing specialized racking and mounting solutions to cater to these emerging needs.

Key Factors: Key factors influencing the PV racking and mounting equipment market include:

Solar industry growth: The growth of the solar industry, including both residential and utility-scale installations, directly impacts the demand for racking and mounting equipment. Factors such as government policies, incentives, and declining solar panel costs contribute to the expansion of the solar industry and subsequently drive the demand for mounting equipment.

Technological advancements: Advancements in racking and mounting solutions, such as innovative designs, improved installation techniques, and enhanced durability, play a vital role in driving market growth. Technological developments that simplify installation processes, increase system efficiency, and reduce maintenance requirements are highly sought after by installers and system owners.

Cost-effectiveness and system performance: Cost-effectiveness, ease of installation, and system performance are key factors influencing the selection of racking and mounting equipment. Installers and system owners seek solutions that provide reliable and long-lasting performance, while also being cost-competitive and easy to install. Manufacturers that offer high-quality products at competitive prices are likely to gain a competitive edge in the market.

Forecast Analysis: The PV racking and mounting equipment market is expected to witness continued growth in the forecast period. Factors such as the increasing adoption of solar energy, supportive government policies, and technological advancements in racking and mounting solutions are anticipated to drive market expansion. Additionally, the growing trend towards bifacial and larger solar modules will create opportunities for manufacturers to develop specialized mounting solutions.

However, market dynamics and growth forecasts may vary regionally due to factors such as regional energy policies, market maturity, and local installation practices. It is also important to consider potential challenges, such as pricing pressures, competition, and regulatory changes, which may influence market growth.

PV Racking and Mounting Equipment Market key benefits for stakeholders

Durability and Longevity: High-quality racking and mounting solutions are built to withstand challenging environmental conditions, including extreme temperatures, wind, and snow loads. They contribute to the longevity of the solar installation, providing a reliable, long-term energy solution.

Reduced Maintenance Costs: Well-designed mounting equipment minimizes the risk of damage to solar panels and the overall system. This results in lower maintenance and repair costs over the system's lifespan.

Safety and Compliance: Compliance with relevant building codes and safety standards is critical in solar installations. Quality PV racking and mounting equipment ensures the safety of workers during installation and maintenance and helps meet regulatory requirements.

Opportunities for Manufacturers and Suppliers: The PV racking and mounting equipment market presents business opportunities for manufacturers and suppliers in the renewable energy sector. As solar adoption continues to grow, demand for these products remains steady, encouraging investments and innovation in the industry.

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 PV Racking and Mounting Equipment Market: By Company • Nextracker • Trina Solar • FTC Solar • Akcome • PV Racking • Clenergy • JZNEE • K2 Systems • Versolsolar Hangzhou Co., Ltd. • Schletter Solar • Unirac • Array Technologies • Arctech Solar • Soltec • Jsolar • GameChange Solar • Gibraltar Industries • Ideematec • ArcelorMittal (Exosun) • Huge Energy • DPW Solar • RBI Solar • Ideematec • Renusol • Van der Valk Solar Systems • GRENGY • Esdec • Xiamen Mibet New Energy Global PV Racking and Mounting Equipment Market: By Type • Roof Mounting • Ground Mounting Global PV Racking and Mounting Equipment Market: By Application • Industrial and Commercial Roof • Ground Power Station Global PV Racking and Mounting Equipment Market: Regional Analysis All the regional segmentation has been studied based on recent and future trends, and the market is forecasted throughout the prediction period. The countries covered in the regional analysis of the Global PV Racking and Mounting Equipment market report are U.S., Canada, and Mexico in North America, Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe in Europe, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E, South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), and Argentina, Brazil, and Rest of South America as part of South America.

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Reasons to Purchase PV Racking and Mounting Equipment Market Report:

Comprehensive Insights: Market research reports provide in-depth and comprehensive insights into the ULSFO market. They typically cover various aspects such as market size, growth trends, competitive landscape, regulatory environment, technological developments, and consumer behavior. These reports offer a holistic view of the market, saving time and effort in gathering information from multiple sources.

Data and Statistics: Market research reports often include reliable and up-to-date data and statistics related to the ULSFO market. This data can help in analyzing market trends, understanding demand and supply dynamics, and making informed business decisions. Reports may include historical data, current market figures, and future projections, allowing businesses to assess market opportunities and potential risks.

Market Segmentation and Targeting: Market research reports often provide segmentation analysis, which helps identify different market segments based on factors such as vessel type, application, end-users, and geography. This information assists businesses in targeting specific customer segments and tailoring their marketing and business strategies accordingly.

Competitive Analysis: Market research reports typically include a competitive analysis section that identifies key players in the ULSFO market and evaluates their market share, strategies, and product offerings. This information helps businesses understand the competitive landscape, benchmark their performance against competitors, and identify areas for differentiation and growth.

Market Trends and Forecast: Market research reports provide insights into current market trends and future forecasts, enabling businesses to anticipate changes in the ULSFO market. This information is valuable for strategic planning, product development, investment decisions, and identifying emerging opportunities or potential threats in the market.

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Solar Mounting Structures: A Foundation for Sustainable Energy

Solar mounting structures are the backbone of solar energy systems, providing a secure and stable foundation for solar panels. As the demand for renewable energy continues to rise, the importance of reliable and efficient solar mounting solutions cannot be overstated. This blog post will delve into the key factors to consider when selecting a solar mounting structure manufacturer and explore the benefits of investing in sustainable energy infrastructure.

Understanding Solar Mounting Structures

Solar mounting structures are designed to hold solar panels at the optimal angle to maximize sunlight exposure and energy production. They come in various types, including:

Roof-mounted structures: Ideal for residential and commercial buildings, these structures are designed to fit specific roof types and orientations.

Ground-mounted structures: Suitable for large-scale solar projects, these structures can be installed in open fields or parking lots.

Carport-mounted structures: Combining solar energy with shade and shelter, these structures are often used in parking areas.

Factors to Consider When Choosing a Manufacturer

Experience and Expertise: Look for a manufacturer with a proven track record in designing and manufacturing solar mounting structures. Experience ensures quality, reliability, and adherence to industry standards.

Customization Options: A reputable manufacturer should be able to offer customized solutions to meet your specific project requirements, including panel size, roof type, and installation location.

Quality and Durability: Invest in high-quality materials and construction techniques to ensure the longevity and structural integrity of your solar mounting system.

Warranty and Support: A comprehensive warranty provides peace of mind and protects your investment. Additionally, reliable customer support is essential for addressing any issues or concerns.

Certifications and Compliance: Ensure that the manufacturer adheres to relevant industry standards and certifications, such as UL (Underwriters Laboratories) and IEC (International Electrotechnical Commission).

Benefits of Investing in Solar Mounting Structures

Increased Energy Production: Well-designed solar mounting structures optimize sunlight exposure, leading to higher energy output and lower electricity bills.

Enhanced System Efficiency: High-quality structures contribute to the overall efficiency and performance of your solar energy system.

Durability and Longevity: Durable materials and robust construction ensure that your solar mounting system can withstand harsh weather conditions and provide long-term support for your solar panels.

Environmental Impact: By investing in solar energy and the necessary infrastructure, you are contributing to a cleaner and more sustainable future.

Conclusion Choosing the right solar mounting structure manufacturer is crucial for the success of your solar energy project. By considering factors such as experience, customization options, quality, warranty, and certifications, you can make an informed decision and build a reliable foundation for your renewable energy system.

Best solar module mounting structure manufacturer in Gujarat

Enhance the performance of your solar power systems with our adaptable solar module mounting structures, ideal for both large-scale projects and rooftop setups. LCP India, a top manufacturer and supplier, offers durable SMM structures made from hot-dip galvanized iron and galvalume, ensuring long-lasting durability and superior corrosion resistance.

How Module Manufacturing Facilities are Illuminating Lives & Cultures Investigate the impact of ground-mounted solar systems on communities, which offer sustainable energy solutions that alter lives and protect cultural heritage.

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Find reliable solar module mounting structures in Hyderabad with the trusted manufacturers. Get high-quality and durable solutions for efficient solar panel installations and maximize your solar energy production.

Apollo Program: Block I Command and Service Module tests

CSM-008 shown inside of Chamber A during a test of the carbon arc solar simulators mounted on the side of the chamber.

"The initial tests in chamber A occurred later in 1966, when Apollo Command and Service Modules (CSM-008) underwent a series of trials to demonstrate the adequacy of the Block I version of the spacecraft for manned earth-orbital missions.

The crew shown entering CSM-008 for the start of the first manned thermal-vacuum test on August 1, 1966

The contractor for the CSM, North American Aviation (NAA) in Downey, California, had performed an altitude test on a Block I Command Module in the summer of 1966. Company engineers Erman, Abell and Moyles spent two weeks flying a simulated mission in a CM inside NAA’s vacuum chamber – called the 'bell jar'. Because the 5-meter chamber was too small to hold the complete Apollo spacecraft, electrical power, oxygen and drinking water were provided by ground support equipment.

North American Aviation engineers Richard Erman, John Moyles and Norman Abell sitting inside a Block I Apollo CM on March 29, 1966 at the beginning of their simulated two-week mission inside 'the bell jar' at North American’s Downey, California facility.

Diagram showing the major components of the SESL Chamber A and the placement of the Apollo CSM test article. Click on image to enlarge.

Houston’s SESL could accomodate the complete spacecraft, including the Service Module, and so CSM-008 spent 83 days inside chamber A in the second half of 1966, during which time a 92-hour unmanned test and a 163-hour manned test were conducted. During this six-day manned period the spacecraft was 'flown' by astronauts Ed Givens and Joe Kerwin, with the third seat occupied by Joe Gagliano, an Air Force captain on assignment to MSC’s Flight Crew Support Division. The test revealed several design flaws and procedural errors that would have to be corrected before the first manned Apollo flight, planned for early 1967.

CSM-008 shown inside SESL Chamber A with work platforms and the access walkway in place."

source, source

NASA ID: S66-59204

Explore Solar Module Mounting Structures: Ideal for Every Solar Power Project

Solar energy has become highly important as one of the cleanest and most sustainable sources of power. The core part of any solar power system would have to be the mounting structure for the solar modules. These structures ensure that solar panels are properly installed, positioned, and protected in order to maximize the generation of energy. Whether it's small residential solar systems or large-scale SPV Power Plant projects, understanding mounting structures for solar panels is critical to ensuring the system's efficiency and longevity.

What Are Solar Module Mounting Structures?

A solar module mounting structure is the system that holds and secures solar panels in place, ensuring that they are positioned for maximum sunlight exposure. It provides the foundation for your solar power system, ensuring your panels remain steady even in challenging weather conditions. Without a proper mounting structure, your solar panels could become misaligned or damaged, leading to poor performance and costly repairs.

These solar structures are important as they help in making sure that the solar panels maintain the correct tilt angle, which receives maximum amounts of sunlight on them. With the right solar module mounting system, you can achieve much greater energy output from your solar panels.

Types of Solar Module Mounting Structures

The most common types of solar module mounting structures are:

Rooftop Mounted Solar Systems As the name suggests, rooftop mounted solar systems are installed on the roofs of homes, businesses, and other buildings. These systems are cost-effective and space-efficient, as they take advantage of unused roof space. The solar structure is fastened to the roof using special brackets or rails, and the solar panels are mounted safely on top. Rooftop solar systems are better suited for small to medium-sized projects where space is limited. However, they do require significant modifications to the roof structure to ensure stability and prevent leaks. The main advantage of rooftop systems is that they utilize unused space rather than requiring additional land or ground area.

Ground-Mounted Solar Systems Ground-mounted solar systems are an excellent choice for bigger installations. They are not limited by roof space; it is thus ideal for a large house, businesses, and other SPV Power Plants projects. The panels can be mounted in such a manner that there is maximum sunlight absorption through the day. They are usually pole or rack mounted for elevation from the ground. Ground-mounted systems are the most flexible type of system. They can be adjusted, both in tilt and position. In this way, they maximize efficiency. However, these systems require more space than rooftop systems and may be subject to higher installation costs. Additionally, there can be issues with access to the land or the specific terrain in certain places, which will make installation pretty complicated.

Pole-Mounted Solar Systems In areas where there is a lack of available land or in areas where the ground is uneven, pole-mounted solar systems offer an elevated, space-efficient solution. These systems mount the solar panels on poles, allowing them to be raised above obstacles like trees, buildings, or debris. Pole-mounted systems are particularly useful for rural or farm settings. The pole-mounted system has the benefit of lifting the panels up to avoid dirt buildup, snowfall, and shading from nearby objects. However, these systems are relatively expensive because extra materials and labor are needed for the installation process. Lastly, high-wind areas should not use pole-mounted solar systems because such installations can be unstable.

Floating Solar Systems Floating solar systems, also known as floatovoltaics, are mounted on bodies of water such as lakes or reservoirs. These systems are becoming very popular in areas with limited land space, since it would not be feasible to install ground-mounted or rooftop systems. The most significant advantage offered by floating solar systems is that they can benefit from water natural cooling, which helps improve the efficiency of solar panels in hot climates. These systems are also less prone to dust and dirt accumulation, as they are floating above the water's surface. However, they can only be used in areas that contain huge bodies of water, and its technology is not even fully developed yet, which may make it not as cost-effective as some other types of installations.

Why Solar Module Mounting Structures Matter

The good solar module mounting structure can make a huge difference in the performance of your solar system. A poor installation or subpar mounting structure can lead to lesser energy production, short-term damage on the panels, and higher maintenance costs. By choosing a high-quality solar structure, you can protect your investment and improve the overall longevity of your solar panels.

Proper alignment is another reason mounting structures for solar panels are so important. Panels that aren't properly positioned at the right angle don't absorb enough sunlight to their advantage, resulting in lower energy output. Solar module mounting structures allow you to adjust the tilt of the panels to the optimal angle, which varies depending on the location and time of year. The more sunlight your panels can absorb, the more energy they will produce.

Moreover, solar module mounting structures protect your panels from environmental factors such as wind, snow, and rain. By holding the panels securely in place, limits potential damage to be incurred on your panels during storms or extreme conditions.

How to Choose the Right Solar Module Mounting Structure

Selecting the right solar module mounting structure is important for ensuring the efficiency and stability of your solar system. Here are some factors to consider when choosing the mounting structure:

Location: Aspects of your solar system's location will influence the best mounting structure to use. For example, rooftop systems are best suited for urban locations with limited land, while ground-mounted and pole-mounted systems would be best suited for open land or rural locations.

Budget: While ground mounted systems are more flexible, they are usually more expensive. Rooftop and pole-mounted systems can be more affordable but require additional modifications to existing structures.

Weather Conditions: Local climate will also determine the type of solar module mounting you install. Places that experience high winds, heavy snowfall, and extreme temperatures require more durable, specialized mounting systems.

Space Availability: If space is limited, rooftop solar systems are the best option. However if you have more space, then you can go for ground-mounted systems for maximum efficiency.

Conclusion

Whether you’re installing solar panels for a home, business, or large-scale SPV Power Plant projects, the right choice of solar module mounting structure is essential for ensuring maximum efficiency and long-term performance. The solar structure you choose will have a significant impact on the energy output, durability, and maintenance requirements of your solar power system. By understanding the different types of mounting systems available and their benefits is essential in making the right decision and gaining the full advantage of solar energy.KP Green Engineering offers high-quality, customizable solar module mounting structures to meet the needs of every project. With a focus on durability, flexibility, and reliability, their solutions help ensure that your solar panels are mounted securely and efficiently for years to come.

Now that i've finally finished bg2 and throne of bhaal, can I just say that Bhaal's resurrection in wotc canon does not make sense to me? The one as described in the Murder in Baldur's Gate module.

Let me pop off under the readmore, I have things to say and a bone to pick with wotc about the way they clearly ignore bg2 established lore.

(yes its their IP, they can do whatever they want. I can also be disappointed by it and think its poorly thought out bullshit)

Melissa: One of his priesthood needed to have access to the essence that would be collected from the Bhaalspawn... one of his priesthood would have to perform the neccessary rites to give the dead Lord of Murder back that essence.

As stated by Melissan/Amalyssan (by the word of Bhaal himself, for he told her this) just killing the bhaalspawn (thereby returning their essence) would not have been enough to revive Bhaal. It requires a ritual, likely in Bhaal's planar domain where the final battle of bg2 takes place and the bhaalspawn essence automatically regathers.

Solar: The vast majority of the soul essence of the children of Bhaal, Lord of Murder, now belong to you and you alone. You must now decide what to do with this power... Be wise -- the choice is irrevocable.

While Solar hints that not all bhaalspawn are likely death. At the least the vast majority of his essence is returned. Enough to perform the ritual. Enough for Gorian's Ward to ascend to godhood in their father's place. So this doesn't conflict with Murder in BG (and bg3) and the presence of bhaalspawn still.

What does conflict is the way Murder in BG proclaim 'the last bhaalspawn die'. The last bhaalspawn being wotc canon Gorian's Ward, Abdel Adrian, and effectively some random guy. These two duking it out and dying is somehow enough to revive Bhaal.

Even though Bhaal told his own priest he could only be revived after enough essence had returned and a ritual was performed by his own priesthood?

"But Idle" I hear you say, "Bhaal could've told others of his former priesthood. They could've performed the ritual in the background in Murder in BG."

If Bhaal did we still have to account for the fact that Bhaal died, scattering and destroying any organised religion (that was already scattered and unorganised to begin with). Many priests converted to Cyric, others just died. Not to mention by the time Murder in BG happens it has been 126 years since Bhaal died in the Time of Troubles. Leaving only a few races (like [half]elves and perhaps dwarves) who could be priests and have survived till then.

Even then, I must ask. If these hypothetical other priests knew how to revive Bhaal. Why weren't they trying to do so during the Bhaalspawn crisis. The prime moment to do so. But no, it was only Amalyssan. If there were any other priests, she likely killed them when they made it to Bhaal's domain to make the attempt, so she could have the power alone.

But for the sake of the argument, lets pretend there is another priests who has survived and knows of the ritual.

Here's why it's still bullshit:

Solar: Surrendering the essence will allow the gods to remove its evil taint and hide it well within the halls of Mount Celestial, forever preventing it from soiling further souls.

Canon wotc, according to Murder in BG, has a Gorian's Ward named Abdel Adrian. Abdel is a human and has clearly not risen to divinity. Abdel has therefore given up his Bhaalspawn essence. Ignoring the fact that the human Abdel Adrian is alive 113 years post BG2 (living around 50y~ more than the average human). Because to be mortal required giving up the Bhaalspawn essence that Murder in BG reasons was the last bit of essence needed to revive Bhaal somehow. Which Abdel shouldn't have anymore. Because he's mortal.

By all accounts. Bhaal's resurrection, as per wotc canon, goes against what BG2 establishes.

(also boo, why is becoming a mortal the canon wotc choice. rising to divinity is the more fun and interesting option)

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This edition of the Marshall Star from 1973, a newsletter of the George C. Marshall Space Center in Huntsville, Alabama, features an article titled “Anita, Job Done, Dies Aboard Skylab.” 

The article goes on to explain that Anita was the back-up spider in the Web Formation Experiment.  The primary spider, Arabella, was still alive at the time of the newsletter. Arabella’s current whereabouts are unknown.

Record Group 255: Records of the National Aeronautics and Space AdministrationSeries: Marshall StarFile Unit: Marshall Star Volume 14

Marshall Star Vol. 14, No. 2 . NASA George C. Marshall Space Flight Center -- Huntsville, Ala. 35812 . September, 1973 Final EVA Saturday Skylab 3 Crew Prepares For Next Week's 'Splash' Skylab's second manned crew, prvoding a bonanza of scientific data to investigators on Earth. has begun preparations for splashdown and recovery scheduled for Tuesday, Sept. 25. As they head into the home stretch, Astronauts Alan Bean, Owen Garriott and Jack Lousma are operating ahead of experiment timelines. Flight directors estimate they will exceed 100 percent of their planned activity in all scientific disciplines. The crew is scheduled to conduct its third and final EVA Saturday. Exposed film cannisters will be removed from the Apollo Telescope Mount's instruments for stowage inside the Command and Service Module and return to Earth. For the EVA, the crew is to awaken at 2 a.m. Hatch opening is expected about four hours later. Monday the crew becan changing the rhythm of their sleep-work cycle by arising at 4 a.m. after goint to bed two hours early. This schedule was to be followed Tuesday. Today the crew planned to arise at 2 a.m. after beginning their sleep period at 6 p.m. last night. Purpose of the new sleep-work cycle is to prepare the astronauts for splashdown day when they will be required to arise early for a full day's activity. The crew was given the go- ahead last week for continuation to the end of the 59-day mission. This approval for a fourth incremental extension beyond 28 days followed review of the inflight medical data and the recommendation of the NASA director for life sciences, Dr. Charles A. Berry. The crew's health and spirits are excellent. The body weight of each has been relatively constant (See SKYLAB on Page 4) SOLAR ERUPTION -- A mammoth solar eruption is seen in this photo taken by the White Light Coronagraph about Sklyab. The eruption expanded into space at a speed of about one million miles per hour. When photographed it was approximately 220 times the diameter of Earth. Solar eruptions are a result of the interaction between solar material and magnetic fields around the Sun. Combined Federal Campaign 'Kickoff' Scheduled Monday MSFC's 1974 Combined Federal Campaign gets underway Monday with a "kickoff" in Morris Auditorium. The annual campaign combines the monetary needs of many health, welfare and recreational agencies into one drive. Rober G. Sheppard, executive chairman, stated the drive officially begins with the 10:45 a.m. kickoff and will end November 2. He explained that the 1974 goal is to do as well as in 1973 when MSFC employees contributed $194,712. Monday's kickoff ceremonies will feature and address by Dr. Rocco A. Petrone, director. He will be joined by several distinguished guests, including Mrs. Ruth Ferrari, International Services Agencies; Tom Horton, Jr., National Health Agencies; and Mrs. Jerri McLain, Huntsville/ Madison County United Way. MSFC lab and office directors, campaign mangers and solicitors are expected to attend the opening ceremonies. Music will be provided by the 55th U.S. Army Band. The Rev. Hugh Chambliss, presi- (See 'KICKOFF' on Page 4) 

Anita, Job Done, Dies Aboard Skylab One of Skylab's two "spider astronauts" --who never were intended to be brought back to Earth--has now finished her job in space and is dead. Anita, the backup spider for the Web Formation Experiment, ED52, apparently died sometime over the weekend. The report of Anita's death came from science pilot Owen Garriott early Monday. Although NASA had no plans to bring back the spiders, it was announced several weeks ago that they would be returned if they could be kept alive. Arabella, the prime spider for the experiment, is still doing fine. Garriott explained from the (See ANITA on Page 4)

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in a wn subnautica au it could be really cool if ava usually needs like a mobility device above water BUT due to the fact that subnautica is literally underwater AND you can fabricate a little powered water propulsion device, ava actually can get along quite well solo. idk i just think the environment allows for a neat acknowledgement of avas disability in a way that doesn't immediately fix it with a halo ex machina yknow?

yeah exactly that's what I was angling at with the first ask. an Ava who's used to using the Aurora's drones as her eyes and ears in places she's unable to access because her chair doesn't fit, an Ava who would have thrived in low- and no-grav if she hadn't been stuck in the halls of the ship, who looked on with longing every time she passed the Vehicle Bay and saw the PRAWN Suits hanging in their rigging. The rumours in the caf and in the bunkrooms about modules for pilots with limited mobility that she ate up with far more relish than the nutrient blocks

the thrill of it when she realizes the seaglide works perfectly for her, lets her legs drift behind her in a streamline as she rockets through the water. entering and exiting the seamoth can feel at times like the learning curve of those first few days after she'd gotten a new chair, getting into the rhythm of mount and dismount, the movements working muscles in her arms and shoulders and upper back that weren't used to that specific pattern of recruitment. the vast majority of the controls there are hand-worked as well.

the PRAWN Suit doesn't even require a separate module, she realizes once she's deep in sub-menus and staring at commands for reassigning inputs. she could have been using one this whole time, if she had only had the blueprints from the outset, if she hadn't had to drag herself through miles and miles of the Aurora's burning corpse to find them in the wreckage of the vehicle bay

she unearths blueprints for the Cyclops and examines them on her PDA, spins the holograph of the ship this way and that with frank disgust. this so-called mobile base, this one-stop shop for everything she'd need to make what seems like the final run through the depths she needs to save herself, is completely inaccessible to her. instead, she builds herself microbase after microbase to keep caches of supplies in helpful places, takes the prawn deeper and deeper and deeper and fears the day she pitches over a blind cliff she can't pull herself back out of.

in the end, she always finds herself trending back towards the surface, towards her first base in those safe shallow waters, where she'd laid platforms just beneath the surface that she could move amongst with ease, accessing planter beds and solar panels and basking in the sun