Diesel and Natural Gas Bi-Fuel

We at Continental Controls Corporation develop and manufacture an array of diesel engine products using the highest quality materials. Gas Substitution System is one of the products that run on both Diesel and Natural Gas Bi-Fuel, which are based on our popular diesel engines.

France: Rennes Metro Line B Enters Service

France: Rennes Metro Line B Enters Service

Rennes Metro’s new automated Line B has now entered revenue service, equipped with Siemens Mobility’s driverless metro system Cityval. Siemens Mobility delivers Line B of the Rennes metro © Siemens Mobility This technology was designed at the Siemens Mobility world centre of expertise in Toulouse. It offers 60-second minimum intervals between trains and has the ability to add a third car during…

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AMG G63 „Nuthin but a G thang“.

The AMG G63 brings driving performance to the segment of unadulterated off-road vehicles in unexpected form.

The AMG 4.0-litre V8 biturbo engine now also replaces the previous 5.5-litre V8 biturbo engine in the G63. It generates 430KW (585HP) in this model, and delivers a maximum torque of 850Nm. This is available across a wide rev range between 2.500 and 3.500 rpm, and provides a sense of effortless superiority. It absolves a sprint from zero to 100 km/h in 4.5 seconds. This dynamic performance is maintained up to the limited maximum speed of 220km/h, or 240km/h with the AMG Driver‘s package.

The two turbochargers are not positioned on the outside of the cylinder banks, but inside the cylinder „V“. Advantages: a compact engine design, spontaneous response of the turbochargers and low exhaust emissions thanks to optimal airflow to the near-engine catalysts. The eight-cylinder delivers its power with muscular torque in all engine speed ranges, combined with maximum efficiency for low fuel consumption and emission figures.

Two twin scroll turbochargers are used for optimal response.

The housing is divided into two parallel flow channels. Combined with two separate exhaust ducts in the exhaust manifold, this makes it possible to control the exhaust gases on the turbine wheel separately. The exhaust gas from the first and fourth cylinders of the cylinder bank is fed into one duct, that from the second and third cylinders to the other duct.

The aim is to prevent the individual cylinders from having mutually adverse effects on the gas cycle. This reduces the exhaust gas back pressure and improves gas exchange. The results are increased output, more torque at low revs and very fast response times.

Mercedes-AMG One man, one engine Handcrafted by Michael Kübler @f1mike28 in Germany Affalterbach. Driving Performance is our Passion!

Mercedes-AMG the Performance and Sports Car Brand from Mercedes-Benz. Mercedes-AMG Handcrafted by Racers.

Steam venting in Manhattan

The New York City Steam System: A Tale of Power and Efficiency

In the bustling metropolis of New York City, hidden beneath the concrete jungle, lies a remarkable infrastructure that powers and heats much of the city's iconic buildings. The New York City steam system, one of the largest in the world, is an engineering marvel that exemplifies the city's commitment to energy efficiency and sustainability. This vast network of underground pipes and tunnels not only provides reliable and cost-effective energy but also plays a vital role in reducing carbon emissions and improving air quality in the city. Let's delve into the fascinating world of the New York City steam system and uncover its significance.

The history of the New York City steam system dates back to the late 19th century when the demand for steam power and heating began to rise. The idea of centralizing steam production and distribution emerged as an efficient alternative to individual boiler systems in each building. The first steam plant was established in Manhattan in 1882, and over time, the system expanded to encompass other boroughs, including Brooklyn and Queens.

At the heart of the steam system are the Con Edison steam plants, which generate steam by burning natural gas or fuel oil. These plants produce steam at high pressure and temperature, reaching up to 1,200 pounds per square inch (psi) and 850 degrees Fahrenheit. The steam is then transported through an extensive network of pipes, spanning over 100 miles in total length, that crisscrosses beneath the city streets.

The New York City steam system provides various services, including space heating, domestic hot water, and process steam for industrial purposes. It serves a wide range of customers, from residential buildings to commercial and institutional establishments. Notable landmarks such as the Empire State Building, Rockefeller Center, and the United Nations Headquarters are among the many structures that rely on the steam system for their heating and cooling needs.

One of the most significant advantages of the steam system is its exceptional energy efficiency. Centralized steam production enables economies of scale, allowing for efficient fuel utilization. The steam is generated at a high temperature, which maximizes the energy content and reduces waste. Additionally, the system employs the concept of cogeneration, where excess steam is utilized to generate electricity, further enhancing its overall efficiency.

The New York City steam system also contributes to the city's sustainability goals. By utilizing cleaner-burning fuels like natural gas and implementing advanced emission control technologies, the system helps to reduce air pollution and minimize greenhouse gas emissions. In fact, it is estimated that the steam system's carbon footprint is significantly lower compared to individual boiler systems, leading to improved air quality and a smaller environmental impact.

The steam system's reliability is another noteworthy aspect. The interconnected nature of the network ensures redundancy and resilience. In case of a steam plant outage or maintenance, alternative sources can provide backup, minimizing disruptions to customers. This reliability is of paramount importance, especially during harsh winter months when the demand for heating is at its peak.

Moreover, the New York City steam system plays a crucial role in conserving valuable space. The compact nature of the steam pipes allows for efficient utilization of underground areas, reducing the need for large individual boiler rooms in buildings. This not only frees up valuable real estate but also improves safety by eliminating potential hazards associated with on-site boilers.

However, like any complex infrastructure, the steam system also faces its share of challenges. The aging infrastructure requires regular maintenance and upgrades to ensure its continued reliability and efficiency. As the city grows and evolves, the system needs to adapt to accommodate new developments and increased demand.

In recent years, there have been efforts to explore innovative technologies and solutions to enhance the steam system further. One such initiative is the utilization of waste heat from data centers to generate additional steam, promoting the efficient use of resources and reducing waste. Additionally, exploring renewable energy sources like geothermal heat or solar thermal could potentially diversify the system's fuel mix and reduce its environmental impact even further.

The New York City steam system is a testament to the city's pioneering spirit and commitment to sustainable urban development. It not only provides a reliable and cost-effective energy solution but also contributes to a cleaner environment. As New York City continues to grow and innovate, the steam system will undoubtedly play a crucial role in shaping its energy landscape and ensuring a greener and more sustainable future.

Transitioning into new technologies and renewable energy sources is a promising direction for the future of the New York City steam system. As the city strives to reduce its carbon footprint and embrace cleaner energy alternatives, integrating renewable sources into the steam system could be a game-changer.

Geothermal heat, for example, harnesses the Earth's natural heat from underground reservoirs. By tapping into this sustainable energy source, the steam system could reduce its reliance on fossil fuels and significantly lower greenhouse gas emissions. Geothermal wells could be drilled to extract the heat, which would then be used to generate steam for heating and power generation.

Another avenue to explore is solar thermal energy. Solar collectors, such as mirrors or solar panels, could capture sunlight and convert it into heat. This heat could then be used to produce steam for the system. Implementing solar thermal technology alongside the existing steam plants would provide a renewable and clean energy source, particularly during the sunny summer months when demand for steam is lower.

Furthermore, the integration of waste heat recovery systems presents an exciting opportunity for the steam system. Large facilities like data centers, hospitals, and industrial complexes generate substantial amounts of waste heat. Instead of allowing this heat to go to waste, it can be captured and utilized to generate additional steam. By incorporating waste heat recovery into the system, the overall efficiency and sustainability of the steam system can be significantly improved.

While the adoption of new technologies and renewable energy sources may require initial investments and infrastructure upgrades, the long-term benefits are worth considering. Not only would it further reduce carbon emissions and reliance on fossil fuels, but it would also future-proof the steam system against potential fuel supply constraints or price fluctuations.

In addition to exploring new energy sources, ongoing maintenance and upgrades of the existing infrastructure are crucial. The aging pipes and equipment require regular inspections, repairs, and replacements to ensure the system's reliability and efficiency. Investing in modernizing the steam plants, optimizing distribution networks, and implementing smart monitoring systems can improve operational efficiency and reduce energy losses.

Public awareness and education about the benefits of the steam system and its sustainability efforts are also essential. Engaging with the community and providing information about the environmental advantages, energy savings, and air quality improvements associated with the steam system can foster a sense of ownership and pride among New Yorkers.

In conclusion, the New York City steam system stands as a shining example of a well-established and efficient energy infrastructure. Its centralized approach to steam production and distribution not only provides reliable and cost-effective energy for heating and power but also contributes to the city's sustainability goals. As the system evolves, incorporating renewable energy sources, exploring waste heat recovery, and embracing innovative technologies will ensure that the New York City steam system continues to be a model of energy efficiency and environmental responsibility for cities worldwide.

Why does New York have steam vents? Does New York still use steam? How are buildings in NYC heated?

What are the steam pipes in NYC? New York has a network of pipes that move steam around the city, delivering it to buildings just like electricity. This hot steam is used for a variety of purposes, including cooling buildings.

Why does steam come out of vents in New York? Most of the time, the steam you see is the condensation that results from cooler water, like rain, falling through manhole covers coming into contact with the extremely hot pipes below street level. You're more likely to experience this in cooler temperatures than in warmer ones. Don't be afraid, it's not dirty smoke.

How is NYC steam generated? The vast majority of our steam—91 percent—is made from burning natural gas in one of our five steam-generating plants. Our boilers also use low-sulfur oil or clean-burning natural gas to produce steam. NYC also get steam delivered under contract with the Brooklyn Navy Yard.

The Future of Auto Engine Cleaning: Innovations in Dry Ice Blasting

In the ever-evolving world of automotive technology, innovation is the driving force behind improvements in engine performance, environmental sustainability, and overall driving experience. As engines become more advanced, so do the methods used to clean and maintain them. One of the most promising innovations on the horizon is "dry ice blasting in automobile" engine cleaning, a revolutionary approach that is set to reshape the future of auto maintenance. In this blog post, we will explore the latest developments and the potential of Dry Ice Blasting in the Automotive Industry.

Dry Ice Blasting in Car Engine

The Importance of Engine Cleaning

A clean engine is not just a matter of aesthetics; it's crucial for optimal performance and efficiency. Over time, engines accumulate dirt, grime, carbon deposits, and other contaminants that can negatively impact their function. Regular engine cleaning is essential to maintain fuel efficiency, reduce emissions, prevent damage, and extend the life of the engine. In this context, the emerging technology of dry ice blasting promises to be a game-changer.

Traditional Engine Cleaning Methods

Before diving into the innovative aspects of dry ice blasting, let's take a quick look at the traditional methods for engine cleaning:

Chemical Cleaning: Chemical solvents and degreasers are commonly used to dissolve and remove dirt and grime. However, these chemicals can be harmful to the environment and pose health risks to those handling them.

Abrasive Cleaning: Sandblasting or other abrasive methods involve blasting particles at the engine surface to remove contaminants. These methods can be effective but also risk damaging engine components.

Water-Based Cleaning: High-pressure water jet cleaning is used to remove dirt, but it can result in water waste and may not be suitable for certain engine parts.

The Rise of Dry Ice Blasting

Dry ice blasting is a cutting-edge cleaning method that leverages solid carbon dioxide (CO2) pellets. When these pellets are propelled at high speeds and impact the surface to be cleaned, they undergo a process known as sublimation, transitioning directly from a solid to a gas. This sublimation process creates mini-explosions on the surface, effectively dislodging and removing contaminants.

What Sets Dry Ice Blasting Apart?

The adoption of dry ice blasting in the automotive industry is driven by several key advantages:

Non-Arasive: Unlike traditional abrasive methods, dry ice blasting is non-abrasive and gentle on engine components. This non-destructive approach ensures that the engine parts remain undamaged.

Eco-Friendly: Dry ice is a byproduct of industrial processes, making it an environmentally friendly choice. It produces no secondary waste, chemical residue, or harm to the environment.

Efficient: Dry ice blasting is a highly efficient cleaning method, reducing labor hours and downtime for the vehicle, which can lead to cost savings.

Versatile: It can be applied to a wide range of engine components, from the engine block to exhaust systems, making it a versatile solution for engine cleaning.

Safety: Dry ice blasting eliminates the need for toxic chemicals, enhancing the safety of those involved in the cleaning process.

Long-Term Benefits: Regular use of dry ice blasting can help prevent future contamination, extending the life and efficiency of engine parts.

Current Innovations in Dry Ice Blasting

Dry ice blasting in the automotive industry is continually evolving, with several noteworthy innovations taking place:

Precision Cleaning: Advanced nozzle designs and control systems allow for more precise cleaning, ensuring that contaminants are removed without affecting the underlying surface.

Integration with Robotics: The use of robots for dry ice blasting is gaining traction. This automation allows for consistent and efficient cleaning processes in manufacturing plants and repair shops.

Ergonomic Design: Improved ergonomic designs of dry ice blasting equipment enhance the comfort and safety of operators during the cleaning process.

Smart Monitoring: Real-time monitoring and data analysis during the cleaning process are becoming more prevalent. This data can help optimize the cleaning process and predict maintenance needs.

Enhanced Portability: Smaller, more portable dry ice blasting units are being developed, making it easier to access and clean hard-to-reach areas in engines.

The Future of Auto Engine Cleaning

So, what does the future hold for dry ice blasting in the automotive industry?

Increased Adoption: As awareness of the benefits of dry ice blasting spreads, it is expected that more automobile manufacturers, repair shops, and enthusiasts will adopt this innovative cleaning method.

Wider Range of Applications: Dry ice blasting is likely to be used for various automotive applications, such as paint removal, decarbonization, and the removal of other contaminants beyond dirt and grime.

Collaboration with Automation: The integration of dry ice blasting with automation, including robotics, will become more commonplace in manufacturing plants and maintenance facilities.

Enhanced Efficiency: Continuous advancements in nozzle design and automation will make dry ice blasting even more efficient and reliable.

Environmental Responsibility: As environmental regulations become more stringent, the automotive industry's commitment to sustainability will drive the adoption of eco-friendly cleaning methods like dry ice blasting.

Case Studies: Success Stories

Let's explore a couple of success stories that highlight the transformational impact of Dry Ice Blasting in Automotive Industry:

Case Study 1: An automobile manufacturing plant introduced dry ice blasting in their engine cleaning process. The result was a significant reduction in emissions, thanks to the elimination of toxic chemicals. This not only aligned with their environmental goals but also improved worker safety.

Case Study 2: A classic car restoration workshop integrated dry ice blasting into their restoration projects. This approach allowed them to restore vintage engines to their original glory without compromising their authenticity. It attracted environmentally conscious customers seeking sustainable restoration methods.

The future of auto engine cleaning is poised for transformation, and dry ice blasting is at the forefront of this change. As the automotive industry continues to embrace environmentally responsible practices, innovations in dry ice blasting will play a pivotal role. This technology is not only an effective cleaning method but also a sustainable and eco-friendly solution that promises to shape the future of engine maintenance in the automotive world. The road ahead looks cleaner, more efficient, and in harmony with our environment, thanks to dry ice blasting.

1. Supreme Court destroys E.P.A. ability to regulate carbon emissions.

Today the Supreme Court destroyed the Environmental Protection Agency’s power to regulate greenhouse gas emissions. Essentially getting rid of any ability to fight climate change and severely limiting federal authority to do so. In a 6-3 vote, in West Virginia v. EPA the court sided with Republican states and fossil fuel companies that the U.S. Court of Appeals for the District of Columbia was wrong when it held the Clean Air Act gave the EPA significant power over carbon emissions. The decision deals a significant blow to any attempts to fight climate change and almost certainly spells significant hurdles for future efforts.

2. Supreme Court set to gut election protections, rig elections.

The Supreme Court agreed to take up a case next term that could give state governments almost total control of elections, even overriding state courts. The case Moore v. Harper centers the controversial “independent state legislature theory” which posits state legislatures have total control over federal elections. The case revolves around a dispute stemming from a Republican congressional map that was so gerrymandered state courts found it impermissible and told Republicans to correct it. The courts in North Carolina issued their own map and the state legislature of North Carolina sued claiming they had sole jurisdiction to make those decisions. If the court sides with the theory it would give Republican state governments significant control over federal elections just in time for 2024.

3. Stock market has worst half year since 1970.

To quote the Washington Post, “The stock market closed out its worst six-month stretch to start a year since 1970, as inflation-driven upheaval has spread across nearly every part of the economy.The S&P 500 index edged 0.9 percent lower Thursday to bring its 2022 losses to 20.6 percent. The tech-heavy Nasdaq, which fell 1.3 percent, has tumbled nearly 30 percent this year, while the Dow Jones industrial average’s 0.8 percent drop put its year-to-date decline near 15 percent.” While the stock market doesn’t measure the health of the economy for most working people, it is a good indicator what capital might do next. And with inflation concerns front of mind a fed engineered recession seems all but inevitable.

4. Florida judge blocks 15 week abortion ban.

The legal fight over reproductive rights continues as a Florida judge throws out Florida’s 15 week abortion ban. Joining judges in Texas and Kentucky who likewise threw out their state’s bans, Second Judicial Circuit Court Judge John Cooper issued a temporary injunction blocking the bill and leaving Florida’s law open to abortions up to 24 weeks. For now Florida remains one of the most open states in the South in terms of abortion regulation. This is just one small part in the on going legal battle over what terms with which a state can ban abortion. Even though Roe has been overturned many of the concepts, such as a right to privacy, are being invoked by judges overturning bans for the time being. How it all shakes out remains to be seen but without federal action from Democrats these court rulings are only a temporary solution.

5. Biden backs ending filibuster to codify abortion rights.

Joe Biden announced today that he backs ending the filibuster to codify abortion rights, specifically by making a carve out in the procedural hurdle for voting rights. While that is exactly what should be done it’s a rather hollow gesture that won’t mean much without significant political maneuvering to make it happen. Joe Manchin has long been skeptical of the Democrat’s position on abortion and has always been explicitly against ending the filibuster for anything, let alone abortion which he believes is unpopular. If Biden isn’t willing to play hardball, investigate Manchin’s daughter for pharmaceuticals fraud, something to put the pressure on, it’s a rather hollow gesture.

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What Are The Best Performance Upgrades For Dodge RAM 1500?

The Dodge RAM 1500 is the vehicle of choice for many when it comes to off-roading… From 3.0- liter EcoDiesel V-6 engine to 5.7- liter HEMI V-8 engine; Dodge RAM 1500 has a robust engine line up. And, guess what??? With a few simple performance upgrades, you can unlock its real potential that the manufacturer had left on the table.

Interested in learning more about these performance upgrades??? Well, read this blog post all the way through…

Improve Your Dodge RAM 1500 Performance with These Upgrades

Before we begin… let’s us clarify a few things. This article has a generalized explanation of Dodge RAM 1500 performance upgrades. No particular Dodge RAM engine type is being discussed here. Therefore, if you need specific information on 5.7L HEMI V-8 engine performance upgrades, or information about other engine types for that matter, contact a qualified expert.

It's time to move on to our main topic now that the disclaimer has been concluded.

Upgrade #1- Cold air intake

Installing a cold air intake system is one upgrade you can make to improve the performance of your Dodge RAM 1500. Cold air intake, as is evident from the name as well, is a system designed to feed the engine with cold dense air. More air promotes fuel burning inside the combustion chamber, which produces more power.

But, before you install a cold air intake system, you should understand about its benefits and drawbacks, such as how it will affect your vehicle's fuel consumption, torque output, etc…

Upgrade #2- Performance tuner chip

Plugging in a performance tuner chip to your Dodge RAM 1500 is another option to improve its performance. For those who don’t know, the performance tuner chip is a computer unit that can make a few tweaks to your RAM's engine control module, or ECM, to improve engine performance.

Plus, it has been found that the use of performance tuner chip can significantly improve a vehicle’s gas mileage. But, but, but… using such technologies to boost engine performance has several downsides that you should be aware of.

Upgrade #3- Throttle body spacer

Adding a throttle body spacer to your Dodge RAM 1500 engine is one more change you can make to bring out its full potential. The RAM's throttle body and upper intake manifold is where you must put them. The part will significantly enhance your RAM’s air intake capacity. It will funnel more air into the combustion chamber of the engine.

And, as we just explained in the above paragraph, more air would result in effective fuel combustion and increased torque production. But, again… do some research before installing it.

Upgrade #4- Exhaust modification

The exhaust system can also be upgraded for greater engine performance. The combustion gases are essentially vented to the outside air by the exhaust system. The exhaust system installed on your Dodge Ram has limits on how fast it can discharge engine emissions. You may improve the exhaust fume flow rate of your Dodge RAM by upgrading the exhaust pipes.

Increased exhaust flow can dramatically improve your vehicle's torque production. But… you should only have qualified technicians modify the exhaust system on your Dodge RAM.

Upgrade #5- Cooling system upgradation

The torque output of your Dodge RAM will not be directly affected by cooling system upgrades, but the durability of its engine most certainly will be. The cooling system essentially keeps the engine temperature within the permissible range; thereby preventing it from overheating.

Off-road vehicles' engines, like the one in the Dodge RAM 1500, occasionally have to work harder and produce a lot of excess heat. You'll need a performance water pump, a multi-core radiator, and a heavy-duty electric fan in these circumstances to dissipate extra engine heat.

Key Takeaways

These performance upgrades can help your Dodge RAM 1500 unlock its full potential and transform it into a real off-roader. There are numerous other things that you can also do to get the most out of your Dodge RAM 1500.

In any case, before you start upgrading your vehicle, you must do some research on the pros and cons of using those technologies to unleash the power that you are not supposed to. That’s all for today’s blog post. We hope this had added value to your knowledge.

DID YOU KNOW ABOUT DIESEL?

Will this be the straw that broke the camels back?

Do you know what DEF fluid is? It's Diesel Exhaust Fluid. Every Diesel truck that has been made since 2010 is required to use it. It's a product made of 67% Urea fertilizer and 33% distilled water. Every diesel truck you see driving down the road today has to have this product to drive. The engines won't start without it. There are regulators inside the engine that mix DEF with the Diesel to reduce Diesel emissions. That's the purpose of DEF. 

 Right now, Russia is the largest exporter of Urea by a wide margin. Qatar is second. Egypt and China are Tied for 3rd. Both Russia and China have decided to no longer export Urea. On top of that, India is the largest manufacturer of Urea in the world even though they consume most of what they make. What little they would export they no longer do. They are now stopping the exportation of any and all Urea minus a deal they just cut with Sri Lanka. 

What does this mean for you and me? Well, first, the United States imports most of it's Urea fertilizer. We are the third largest importer in the entire world. We depend on other countries to eat, drive and ship our products.

Secondly, Flying J is the largest Service provider for Truckers around the Unites States. I'm sure you've seen their massive gas stations when traveling around the country. 

 Flying J gets 70% of their DEF fluid from shipments via Union Pacific railroad. UP has single user access to the Fertilizer plants that Urea/DEF fluid comes from. No other rail provider has access to these distribution points. 

 This means Flying J can't just go around Union Pacific. Union Pacific is in charge....for a reason I'm gonna mention in a few paragraphs.

 Flying J provides 30% of all DEF consumed in the United States. UP has told Flying J to reduce their shipments by a whopping 50%. And if they do not comply then they will be completely embargoed. That would in effect bankrupt FJ. This means that 15% of all DEF consumed by truckers in the US is no longer available at the largest travel service center for the entire trucking industry.

 Rome rotted from the inside out. It was easily invaded because it was occupied with internal problems. It appears we have discovered the Trigger. DEF fluid. 

 If this holds up, DEF shortages will be the catalyst that causes massive food shortages in the coming months. Not only is there a shortage of fertilizer to grow crops in drought-stricken states (See Kansas' drop in wheat production for 2022) but now it looks like, unless the Federal Government intervenes via the Defense Production Act, which I am no longer confident they will....there is gonna be an absolute massive shortage of truck shipments in the coming months.

 There simply isn't going to be DEF fluid sufficient to keep the engines running and moving. Home Depot is now limiting the amount of DEF you can buy in their stores.

I would think long and hard about the decisions you are making right now. Where you live. What you spend money on. How you prepare. This is so real that the CEO of Flying J, Shameek Konar was summoned to a Surface Transportation Board hearing to give them all this info. 

 Blackrock is the majority shareholder of Union Pacific railroad. How is that important? Americas biggest fertilizer producer is CF Industries. Their largest shareholder is Blackrock. Blackrock controls the fertilizer industry in the U.S.

 Union Pacific has exclusive rights to distribution points of fertilizer. Urea is fertilizer. Flying J needs Urea/DEF. Blackrock is controlling everything. The Chairman of the BlackRock Investment Institute is Tom Donilon, President Obama's former National Security Advisor. 

 Tom Donilon's brother, Mike Donilon is a Senior Advisor to Joe Biden. Tom Donilon's wife, Catherine Russell, is the White House Personnel Director. Tom Donilon's daughter, Sarah Donilon, who graduated college in 2019, now works on the White House National Security Council. 

 It appears Blackrock is spearheading the dismantling of the US system on behalf of the Globalists. And the first domino they are pushing over is the energy sector. They are using DEF to get the party started.  This is one sector of the biggest downfalls in political repercussions this country has ever faced...

  IF you didn't think this could get worse with high gasoline prices and food prices what you have just read is the playbook that is going on right under 90% of American citizens' noses. Time  to stock up on canned goods and whatever else will last for 1 ½ -2

Continental Controls Corporation: the best source for Gas Engine Carburetor

When it comes to Gas Engine Carburetor, no one knows them better than Continental Controls Corporation. For over so many years, we’ve been providing our customers with the best in quality and service. Our team of experts is always ready to help find the perfect carburetor to fit your needs, no matter what make or model you drive.

A gas engine carburetor is a device that is used to mix fuel and air together in the proper proportions for an internal combustion engine. The carburetor is an important part of the engine and has a direct impact on its performance. There are a number of different types of carburetors available on the market, but the gas engine carburetor is the best choice for engine productivity.

The gas engine carburetor features a number of different jets that are used to meter the amount of fuel that is mixed with the air. The carburetor also has a float bowl that helps to regulate the level of fuel in the carburetor. The gas engine carburetor also features a choke that is used to restrict the air flow to the carburetor.

The gas engine carburetor is the best choice for engine productivity because it is able to provide the correct mixture of fuel and air to the engine. The Electronic Carbueretor is also able to regulate the level of fuel in the carburetor, which helps to prevent engine flooding. The choke on the carburetor is also able to restrict the air flow to the carburetor, which helps to improve engine efficiency.

There are a number of features that make the gas engine carburetor the best choice for engine productivity. Firstly, the carburetor is designed to provide a precise mixture of air and fuel to the engine, which is essential for optimum performance. Secondly, the carburetor is made from high-quality materials that are resistant to wear and tear, and it is designed to last for a long time. Thirdly, the carburetor is easy to maintain and service and it is designed to be easy to use. For more information contact us at; (858) 453-9880 or visit our site; http://continentalcontrols.com/

Why are electric skateboards perfect for commuting?

When choosing an electric skateboard for your commute, there are a few things you need to keep in mind. First, consider the extent of the board. If you're only using it for short commutes, you won't need a board for long distances. However, if you plan to use an electric skateboard for a longer commute, then you want to make sure you choose a skateboard with a longer range.

Another thing to consider is the weight of the board. If you're going to be taking your skateboard with you on your commute, you'll want to make sure it's not too heavy. Otherwise, you may find it difficult to operate.

Finally, consider the top speed of the board. If you need to get somewhere fast, you need a board with a higher top speed. But if you're just using the electric skateboard for leisurely rides, you can probably get away with the lower top speed.

Are Electric Skateboards Worth Buying? This is a question a lot of people ask when considering buying an electric skateboard. While there are some clear advantages to owning an electric skateboard, there are also some disadvantages you should be aware of before buying one.

Environmentally Friendly - Electric skateboards do not emit any carbon emissions, so they are more environmentally friendly than gasoline powered skateboards.

They're quiet - Because electric skateboards don't have an engine, they're much quieter than gasoline-powered skateboards. This can be a great advantage if you live in an apartment complex or other area where noise levels are strictly regulated.

Easy to Ride - Electric skateboards are very easy to ride, even for beginners. Air skateboards can be difficult to control, but electric skateboards have a much lower learning curve.

Portable - the electric skateboard is very small and light, easy to carry. You can easily take the electric skateboard on public transport or put it in the trunk of your car.

Affordable – Electric skateboards are much less expensive than gas-powered skateboards, especially when you consider the long-term cost of ownership.

AMG G63 4x4² „Nuthin but a G thang“.

The AMG G63 4x4² brings driving performance to the segment of unadulterated off-road vehicles in unexpected form.

The AMG 4.0-litre V8 biturbo engine generates 430KW (585HP) in this model, and delivers a maximum torque of 850Nm. This is available across a wide rev range between 2.500 and 3.500 rpm, and provides a sense of effortless superiority. It absolves a sprint from zero to 100 km/h in 5 seconds.

The two turbochargers are not positioned on the outside of the cylinder banks, but inside the cylinder „V“. Advantages: a compact engine design, spontaneous response of the turbochargers and low exhaust emissions thanks to optimal airflow to the near-engine catalysts. The eight-cylinder delivers its power with muscular torque in all engine speed ranges, combined with maximum efficiency for low fuel consumption and emission figures.

Two twin scroll turbochargers are used for optimal response.

The housing is divided into two parallel flow channels. Combined with two separate exhaust ducts in the exhaust manifold, this makes it possible to control the exhaust gases on the turbine wheel separately. The exhaust gas from the first and fourth cylinders of the cylinder bank is fed into one duct, that from the second and third cylinders to the other duct.

The aim is to prevent the individual cylinders from having mutually adverse effects on the gas cycle. This reduces the exhaust gas back pressure and improves gas exchange. The results are increased output, more torque at low revs and very fast response times.

Mercedes-AMG One man, one engine Handcrafted by Michael Kübler @f1mike28 in Germany Affalterbach. Driving Performance is our Passion! Mercedes-AMG the Performance and Sports Car Brand from Mercedes-Benz. Mercedes-AMG Handcrafted by Racers.

So gas has jumped up a whopping 90 cents in the past week in my state. Local newspaper wouldn’t tell us why, only reporting people’s reactions to it. Any idea if this is national or just a state thing?

3 days ago, Mendocino CA

______________________

And it's going up nationally not just you, summer driving season starts on Memorial Day weekend which also gets you the "summer formula" gas which is more expensive from the get go.

The main difference between summer and winter gas is that winter gas has a high Reid Vapor Pressure, or RVP. Gas with a higher RVP evaporates more quickly at a given temperature. This works out fine during cold weather, because higher-RVP gas doesn’t need higher temperatures to evaporate, so you should generally have no problem starting the engine and having it run smoothly in the winter.

In the summer, however, this gasoline blend can evaporate too rapidly, resulting in increased unhealthy emissions, which are bad for the environment. On the plus side, the summer blend, while more expensive to produce, does result in slightly better gas mileage.

Controlling the Quality of Your Gasoline in Summer and Winter

You cannot choose whether to get winter or summer blend gasoline. Which type of gasoline is available and when is a matter of state and federal guidelines. You may notice that for a brief period during the spring and fall, gas prices seem to skyrocket. This is due to reduced supply as gasoline distributors switch from one blend to the other. _________________________

Add on to that the increased demand on a already kinda tight supply, thanks creepy uncle joe, and we're at where we're at.

If we do the price increase as a % of the PPG of gas instead of a flat amount 90 cents is a 10% increase per gallon in Mendocino CA, significantly higher % in places with sane prices, well more sane than CA.

Gavin really needs to start the oil wells in down town Los Angeles back up, could do some good for the people of the state he claims to care about.

And yes I do mean downtown LA, other areas in SoCal too, La Brea being one of the bigger ones.

Ain't just tar pits down there.

That's an oil field in that building

That's an oil well

They're all over the greater LA area.

Not gonna do it though reading between the lines on some statements made by joey and gavin they're enjoying these prices not just because of the tax revenue but they think it's going to force more people to go electric.

Hope this answered your question and then some.

Insulation 101: Benefits and Types of Insulation

Commercial building owners invest in quality insulation materials because of their numerous benefits. Insulation helps enhance the overall performance of any commercial building, decreases harmful greenhouse gas emissions, and helps keep your energy bills from increasing.  

In addition, adding insulation to your establishment can also reduce the number of noises coming in and out. This is beneficial mainly for establishments that require better acoustics or sound barriers. Let's learn more about the different types of insulation material available now.

Batt Insulation

Professionals use batt insulation efficiently, one of the most affordable options available today. It comes with two options; with or without facing. Professionals must place this per specifications to resist water vapor transfer. Most insulation today contains recycled materials such as sand. Fiberglass also includes sand which is an environmentally friendly content source.

Batt insulation can either be fiberglass, cotton, or stone wool blankets. Fiberglass is the most common type out of the rest. It is the perfect insulation for attics, walls, ceilings, crawl spaces, and basements.

Blown-in Insulation

When it comes to blown-in insulation, proper installation is a must. Professionals should utilize special equipment and safety measures to ensure long-term function. In addition to being primarily recycled, cellulose blown-in insulation also contains fire-retardant properties. It also resists insects, rodents, and mold and impressively creates a good sound barrier. Once the professionals finish the application, there are also available products with insulation that you can incorporate to enhance your commercial building, such as an insulated roof hatch.

Spray Foam Insulation

If you prefer an insulation material that forms an air barrier, then spray foam insulation should be the option on your list. This material can effectively cover your walls, floors, and ceiling cavities against air movement. This includes spaces around electrical outlets, light fixtures, and walls that meet windows and doors.

Professionals use spray foams in open cavities, like in new construction, crawl spaces, rim joists, and attics. You can also use this on remodeled homes. You can apply the spray foam if the cavities are unrestricted and accessible. Here are the two varieties of spray-foam insulation;

Closed-cell SPF- is a type of spray foam insulation that adds structural strength and is a rigid, vapor-resistant foam that doesn't require replacement in case of a flood.

Open-cell SPF- spray foam insulation that offers identical insulation advantages but does not act as a water barrier or vapor retarder.

Air Sealing

Controlling the air leakage of an establishment is critical to effective insulation. You can do a great job protecting an establishment, but if air can seep through gaps or cracks in the building envelope, you lose your valuable heated or conditioned air.

Concrete Block Insulation

A concrete block's center contains insulating materials such as polystyrene, polyisocyanurate or polyiso, and polyurethane. The hollow centers of concrete blocks can be filled by pouring and injecting loose foam beads or liquid foam. Some professionals create concrete blocks that support rigid foam inserts.  

Reflective System

Unlike most typical insulation, which resists convective and conductive heat flow, reflective insulation works by reflecting radiant heat away from your commercial building. These insulation types are best for hot and humid climates, primarily if you have cooling air ducts in the attic. According to research, radiant barriers can lower cooling costs by up to 5% to 10% when utilized in a warm, sunny temperature.  

There are still other insulation options available. Ensure to collaborate well with your architect, engineer, or contractor to choose the best insulation option based on your commercial building's needs and your project budget.  

Did you find our blogs interesting? You can find more exciting blogs at Best Access Doors! We also offer various top-quality access doors and panels for any commercial building application. You can dial (800) 483-0823 to learn more about our products.

Illustration Photo: Sugarcane is one of the most efficient producers of biomass of all plant species and can be used as a renewable fuel. The new variety  Ho 06-9002 has a high fiber content, excellent regrowth ability over 4 to 5 years, is cold-tolerant, has a high stalk population, and produces excellent biomass yields. (credits: USDA Media by Lance Cheung / Public domain)

Repsol Entrepreneurs Fund for Startups in the Energy Transition

At the Repsol Foundation, we have been supporting entrepreneurship and entrepreneurs for more than 10 years through Fondo de Emprendedores, our accelerator for start-ups that provide technological solutions to meet the challenges of the Energy Transition. This is a perfect program for start-ups in the testing phase with real customers, or that will reach this phase in 1–2 years.

This program aims to accelerate startups working in any of the following:

SCOPE 1: LOW-CARBON ENERGY TECHNOLOGIES AND CIRCULAR ECONOMY 1. Recycling and treatment technologies: conversion of biomass, new processes for converting waste into chemical products 2. Biogas production, upgrading, transport and end use technologies 3. Low environmental impact H2 renewable solutions for production, blending, transport and storage 4. Advanced biofuel production and conversion technologies (liquefaction or de novo, gasification) and synthetic fuels for road, maritime and aviation transport 5. Processing of chemicals and other organic materials for circular economy 6. Low-carbon lubricants for industrial and automotive applications 7. CO2 Capture, Use and/or Storage Technologies. CO2 Direct Air Capture: new absorbent materials and efficient process design 8. COX, H2 conversion processes to Hydrocarbons 9. Low carbon technologies for Oil & Gas operations, including energy efficiency, GHG direct emissions (scopes 1 and 2), Methane emissions, CCS or Geothermal. 10. Other technologies related to this scope’s heading

SCOPE 2: BIOTECHNOLOGY AND NANOTECHNOLOGY FOR SUSTAINABLE SOLUTIONS 1. Bio conversion of organic material to chemicals. Biorefinery, biofactory 2. Protein engineering, development of biocatalysts and enzymes 3. Gene editing technologies and applications in energy and materials 4. Plastic biodegradation technologies 5. Biosensors design, production and end use. 6. Anti-corrosive, anti-bacterial, thermal nanocoating for pipelines and infrastructures 7. Organic and inorganic membrane technologies, including new materials 8. Improvement of the properties of fuels, lubricants and chemicals 9. Other technologies related to this scope’s heading

SCOPE 3: PRODUCTS AND SERVICES BASED ON ENERGY MANAGEMENT AND RENEWABLES 1. Intelligent energy management systems 2. New batteries and fuel cells technologies 3. Distributed energy solutions 4. Energy conversion and storage systems 5. Advanced mobility solutions 6. Renewable energy generation, maintenance and control and commercialization. 7. Other technologies related to this scope’s heading

SCOPE 4: DIGITAL TECHNOLOGIES FOR THE ENERGY SECTOR 1. Artificial intelligence applied to process optimization and energy efficiency. 2. Digital twins and intelligent interfaces for process control 3. Digital technologies for predictive and prescriptive maintenance 4. Smart trading for the energy marketplace 5. Computational chemistry tools for energy applications 6. Remote sensing, IoT and robotic solutions for industrial assets and environment 7. Quantum computing applications in energy sector 8. Other technologies related to this scope’s heading SCOPE 5: NATURAL SOLUTIONS FOR CARBON FOOTPRINT REDUCTION 1. Reforestation and afforestation technologies for resilient CO2 absorption sinks 2. Advanced monitoring, reporting and verification technologies in CO2 absorption 3. Digital technologies applied to carbon markets value chain 4. Technologies for ESG (Environmental, Social and Governance) project certification 5. Other technologies related to this scope’s heading

Startups admitted to the Program will receive during the acceleration period a contribution of FIVE THOUSAND EUROS (€ 5,000) per month as ordinary funds. Additionally, admitted Startups may request up to a maximum of FORTY THOUSAND EUROS (€ 40,000) per year as extraordinary funds for strategic expenses to achieve the milestones of the Work Plan (as defined in section 4.4), mainly to complete the pilot test. The disbursement of this additional contribution will be subject to the exclusive decision of Fundación Repsol.

Application Deadline: March 10, 2023

Check more https://adalidda.com/posts/c4qmPwNwToZAAbf2L/repsol-entrepreneurs-fund-for-startups-in-the-energy/call

The Seriousness of Global Warming

Total annual global temperature rise during the Industrial Revolution has been little over 1 degree Celsius, or over 2 degrees Fahrenheit. It increased on average by 0.07 degrees Celsius (0.13 degrees Fahrenheit) per 10 years between 1880—the year that accurate recordkeeping started—and 1980. The rate of growth, however, has more than doubled since 1981: Over the past 40 years, the yearly global temperature has increased by 0.18 degrees Celsius, or 0.32 degrees Fahrenheit, every decade.The outcome? a world with unprecedented heat. Since 2005, nine of the ten warmest years on record since 1880 have happened, and the last five warmest years have all happened since 2015.Now, climate scientists have concluded that if we want to prevent a future in which daily life throughout the world is marked by its worst, most devastating effects: the extreme droughts, wildfires, floods, tropical storms, and other disasters that we refer to collectively as climate change, we must limit global warming to 1.5 degrees Celsius by 2040. The greenhouse effect is the result of these heat-trapping pollutants, notably carbon dioxide, methane, nitrous oxide, water vapour, and synthetic fluorinated gases, which are referred to as greenhouse gases.Although the earth's climate has changed several times over the past 800,000 years due to natural cycles and fluctuations, our current era of global warming is solely attributable to human activity, specifically the burning of fossil fuels like coal, oil, gasoline, and natural gas, which creates the greenhouse effect. Scientists concur that longer and hotter heat waves, more frequent droughts, heavier rains, and stronger hurricanes are all being fueled by the earth's warming climate. For instance, scientists determined in 2015 that global warming had increased the severity of a protracted drought in California—the state's greatest water scarcity in 1,200 years—by 15 to 20%. They added that over the previous century, the likelihood of future droughts of a similar magnitude had almost doubled. We can now confidently link some extreme weather events, such as heat waves, droughts, and heavy precipitation, to climate change, according to a 2016 National Academies of Science, Engineering, and Medicine report. Additionally, the oceans' temperatures are rising, which allows tropical storms to intensify. In other words, global warming has the power to upgrade a category 3 hurricane to a category 4 storm, which is more hazardous. In fact, researchers have discovered that both the number of storms that reach categories 4 and 5 as well as the frequency of North Atlantic hurricanes have increased since the early 1980s. A record-breaking 30 tropical storms, 6 major hurricanes, and 13 hurricanes were all recorded during the 2020 Atlantic hurricane season. Increased intensity causes more harm and death. Everywhere, the effects of global warming are being felt. In recent years, extreme heat waves have been responsible for tens of thousands of fatalities worldwide. Additionally, Antarctica has lost nearly four trillion metric tonnes of ice since the 1990s, which is a worrying portent of future events. Every year, scientists discover more information about the effects of global warming, and every year, we amass more proof of the catastrophic harm it causes to both people and the environment. Communities suffer, and the number of fatalities rises, as the heat waves, droughts, and floods brought on by climate change grow more regular and severe. Scientists predict that if we don't cut back on our emissions, climate change could kill more than 250,000 people annually and push 100 million people into poverty by 2030. The United States is already feeling the effects of global warming. Here are just a few of the potential consequences if we are unable to control our emissions.

Cities, farms, and forests will see more bothersome bugs, heat waves, torrential downpours, and flooding. Agriculture and fisheries may be harmed or destroyed by all of these.

Many plant and animal species may go extinct if environments like coral reefs and alpine meadows are damaged. Increased pollen-producing ragweed growth, increased levels of air pollution, and the spread of conditions that are conducive to pathogens and mosquitoes will all lead to an increase in the frequency of allergic reactions, asthma attacks, and infectious disease outbreaks.

Despite the fact that everyone is impacted by climate change, not everyone is equally impacted. Typically, those who are indigenous, persons of colour, or economically marginalised are severely harmed. Even though these same communities have made the least effort to contribute to climate change, they are more vulnerable to its worst effects due to inequities built into our housing, healthcare, and labour systems.

Many plant and animal species may go extinct if habitats like coral reefs and alpine meadows are damaged. Increased pollen-producing ragweed growth, increased levels of air pollution, and the spread of conditions that are conducive to pathogens and mosquitoes will all lead to an increase in the frequency of allergic reactions, asthma attacks, and infectious disease outbreaks.

And while new federal and state standards are a step in the right direction, much more needs to be done. Voice your support of climate-friendly and climate change preparedness policies, and tell your representatives that equitably transitioning from dirty fossil fuels to clean power should be a top priority—because it’s vital to building healthy, more secure communities

Milesbooster X

Many fuel-saving products on the market make the claim to help consumers save money on petrol, but in reality they only reduce car performance and eventually ruin the engine. The world has been ready for a device like MilesBooster X for a while. Anyone looking to control their gas consumption and enhance their mileage should utilize MilesBooster X. The device can reduce your fuel costs without changing your driving style if it is put in the digital control unit (ECU) of your car.

Continue reading if you're perplexed by the MilesBooster X and want to know how it functions without harming your car. What is MilesBooster X exactly? MilesBooster X makes use of a clever technology that many drivers all over the world use to reduce exhaust emissions, increase the efficiency of their engines or mills, and save money on gases like diesel, gasoline, and gasoline. Automobiles, SUVs, vans, motorhomes, and residential technology programs all make use of the MilesBooster X gasoline-saving systems. If stronger magnetic fields are employed, it is environmentally friendly to reduce exhaust ranges when gasoline becomes much more explosive and unpredictable. Gasoline savings are increased when NOx, HC, and carbon monoxide outputs are reduced.