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Tyre pressure—a seemingly simple yet critical aspect of vehicle performance, becomes an element of strategic importance in high-speed realms such as Formula 1 racing. Maintaining precise tyre pressure is essential to handling, stability, and overall performance on the racing circuit. In Formula 1, the choice of inflation gas isn’t just air—it’s nitrogen. Nitrogen’s stability and larger molecular structure than oxygen make it a favoured choice in crucial environments.

But the question remains: do these same benefits translate to domestic vehicles? As experts in bottle gases, we’ll delve into why nitrogen is used in Formula 1 tyres, dissect its benefits, and explore the impact, or potential lack thereof, on domestic cars.

Understanding the Role of Nitrogen in Inflating Tyres

When it comes to tyre inflation, two commonly used gases are air and nitrogen. Standard air-filled tyres consist of roughly 78% nitrogen, 20% oxygen, and 2% other gases, with tires usually filled at local petrol stations using a compressor that pulls in atmospheric air. Nitrogen inflation, on the other hand, primarily uses nitrogen, which delivers purity that exceeds 93%. In Formula 1, nitrogen is preferred over air for tire inflation. Nitrogen molecules are larger and less likely to seep through the tire’s rubber, resulting in more stable tire pressure over time and various conditions. Consistent tire pressure is critical in motor racing.

Nitrogen-filled tyres offer several benefits. They reduce the risk of tyre oxidation, resulting in less wear and tear and proper alignment. They also promote better fuel efficiency, longer tread life, and improved performance in endurance racing. For this reason, in Formula 1’s high-octane environment, nitrogen bottles are preferred over air for tire inflation due to their operational advantage.

Exploring the Impact of Temperature Variations

In the thrilling world of Formula 1, tyre temperature plays a significant role in vehicle performance. A tyre’s grip largely depends on its temperature, affecting how firmly a car can corner, accelerate, or brake. However, these temperatures can fluctuate due to various factors, such as road and weather conditions, speed, and, most critically, tire pressure.

When a tire undergoes high-speed stress, its internal temperature rises. In an air-filled tire, the moisture content increases the risk of temperature fluctuation, resulting in pressure changes. This can compromise vehicle control and tire integrity. Nitrogen, being a dry gas, eliminates this variable. It provides for a much more stable internal environment within the tire, helping to keep the temperature and, therefore, the tire pressure stable, delivering consistent performance throughout a race.

Air-filled and nitrogen-filled tires both follow the ideal gas law and expand with temperature changes. However, nitrogen-filled tires are more predictable due to the lack of moisture, allowing for better pressure management. This is especially beneficial in high-speed racing, where tire management is critical.

Effect of Nitrogen-filled Tyres on Racing Outcomes

The high-pressure, high-speed realm of motorsports demands peak performance at every level, and tyres are no exception. Nitrogen-filled tyres have been proven to deliver exceptional improvements in performance when compared to their air-inflated counterparts.

The consistent tyre pressure achieved with nitrogen significantly enhances handling and control, allowing drivers to manoeuvre their vehicles more precisely. A consistent contact patch (the tyre section in contact with the road) is maintained, improving both speed and stability. Reducing tyre wear and heat generation afforded by nitrogen inflation also results in lower pit-stop frequencies for tyre changes, a crucial factor in race strategy and eventual outcomes.

Nitrogen VS Air-filled Tyres: Probability and Precautions

A study by Consumer Reports found that tyres filled with nitrogen lost an average of 0.002896 bar per week, while air-filled tyres lost an average of 0.004619 bar per week. This means, theoretically, nitrogen-filled tyres lost the pressure equivalent to what air-filled tyres lost every 15 weeks in 24 weeks instead.

Although nitrogen-filled tyres might seem superior, they offer only a negligible benefit over regular air. They are not immune to pressure loss from everyday occurrences such as:

• Punctures
• Leaking valves
• Damage from the road

Also, believing that they don’t require frequent pressure checks is dangerous as it can lead to low tyre pressure, increasing the risk of accidents. Therefore, checking tyre pressure regularly is crucial, regardless of whether it’s filled with nitrogen or regular air.

Regular pressure checks and tyre maintenance provide safe and efficient driving. And for those who wish to use nitrogen, obtaining the correct kit and equipment, along with proper knowledge and practices, is essential. Remember, a tyre’s performance isn’t solely a matter of ‘what’ it’s filled with, but ‘how’ it’s also maintained.

Nitrogen at Adams Gas

At Adams Gas, we pride ourselves on supplying exceptional quality and reliable nitrogen gas cylinders. Our nitrogen is over 99.9% pure, providing the crucial consistency needed in motorsports. Whether it’s for Formula 1, endurance racing, or any discipline where optimal tyre performance is key, Adams Gas stands ready to meet your nitrogen needs, contributing to better race outcomes with our contractual gas cylinder filling.

We’re dedicated to guaranteeing your safety. Our bottled gas undergoes regular testing, and maintenance protocols exceed industry standards, ensuring that you receive products that are not only high-performing but also safe and reliable. With Adams Gas, you can trust in our commitment to quality, performance, and safety.

Why Are Formula 1 Tyres Filled With Nitrogen?

Tyre pressure—a seemingly simple yet critical aspect of vehicle performance, becomes an element of strategic importance in high-speed realms such as Formula 1 racing. Maintaining precise tyre pressure is essential to handling, stability, and overall performance on the racing circuit. In Formula 1, the choice of inflation gas isn’t just air—it’s nitrogen. Nitrogen’s stability and larger molecular structure than oxygen make it a favoured choice in crucial environments.

But the question remains: do these same benefits translate to domestic vehicles? As experts in bottle gases, we’ll delve into why nitrogen is used in Formula 1 tyres, dissect its benefits, and explore the impact, or potential lack thereof, on domestic cars.

Understanding the Role of Nitrogen in Inflating Tyres

When it comes to tyre inflation, two commonly used gases are air and nitrogen. Standard air-filled tyres consist of roughly 78% nitrogen, 20% oxygen, and 2% other gases, with tires usually filled at local petrol stations using a compressor that pulls in atmospheric air. Nitrogen inflation, on the other hand, primarily uses nitrogen, which delivers purity that exceeds 93%. In Formula 1, nitrogen is preferred over air for tire inflation. Nitrogen molecules are larger and less likely to seep through the tire’s rubber, resulting in more stable tire pressure over time and various conditions. Consistent tire pressure is critical in motor racing.

Nitrogen-filled tyres offer several benefits. They reduce the risk of tyre oxidation, resulting in less wear and tear and proper alignment. They also promote better fuel efficiency, longer tread life, and improved performance in endurance racing. For this reason, in Formula 1’s high-octane environment, nitrogen bottles are preferred over air for tire inflation due to their operational advantage.

Exploring the Impact of Temperature Variations

In the thrilling world of Formula 1, tyre temperature plays a significant role in vehicle performance. A tyre’s grip largely depends on its temperature, affecting how firmly a car can corner, accelerate, or brake. However, these temperatures can fluctuate due to various factors, such as road and weather conditions, speed, and, most critically, tire pressure.

When a tire undergoes high-speed stress, its internal temperature rises. In an air-filled tire, the moisture content increases the risk of temperature fluctuation, resulting in pressure changes. This can compromise vehicle control and tire integrity. Nitrogen, being a dry gas, eliminates this variable. It provides for a much more stable internal environment within the tire, helping to keep the temperature and, therefore, the tire pressure stable, delivering consistent performance throughout a race.

Air-filled and nitrogen-filled tires both follow the ideal gas law and expand with temperature changes. However, nitrogen-filled tires are more predictable due to the lack of moisture, allowing for better pressure management. This is especially beneficial in high-speed racing, where tire management is critical.

Effect of Nitrogen-filled Tyres on Racing Outcomes

The high-pressure, high-speed realm of motorsports demands peak performance at every level, and tyres are no exception. Nitrogen-filled tyres have been proven to deliver exceptional improvements in performance when compared to their air-inflated counterparts.

The consistent tyre pressure achieved with nitrogen significantly enhances handling and control, allowing drivers to manoeuvre their vehicles more precisely. A consistent contact patch (the tyre section in contact with the road) is maintained, improving both speed and stability. Reducing tyre wear and heat generation afforded by nitrogen inflation also results in lower pit-stop frequencies for tyre changes, a crucial factor in race strategy and eventual outcomes.

Nitrogen VS Air-filled Tyres: Probability and Precautions

A study by Consumer Reports found that tyres filled with nitrogen lost an average of 0.002896 bar per week, while air-filled tyres lost an average of 0.004619 bar per week. This means, theoretically, nitrogen-filled tyres lost the pressure equivalent to what air-filled tyres lost every 15 weeks in 24 weeks instead.

Although nitrogen-filled tyres might seem superior, they offer only a negligible benefit over regular air. They are not immune to pressure loss from everyday occurrences such as:

• Punctures
• Leaking valves
• Damage from the road

Also, believing that they don’t require frequent pressure checks is dangerous as it can lead to low tyre pressure, increasing the risk of accidents. Therefore, checking tyre pressure regularly is crucial, regardless of whether it’s filled with nitrogen or regular air.

Regular pressure checks and tyre maintenance provide safe and efficient driving. And for those who wish to use nitrogen, obtaining the correct kit and equipment, along with proper knowledge and practices, is essential. Remember, a tyre’s performance isn’t solely a matter of ‘what’ it’s filled with, but ‘how’ it’s also maintained.

Nitrogen at Adams Gas

At Adams Gas, we pride ourselves on supplying exceptional quality and reliable nitrogen gas cylinders. Our nitrogen is over 99.9% pure, providing the crucial consistency needed in motorsports. Whether it’s for Formula 1, endurance racing, or any discipline where optimal tyre performance is key, Adams Gas stands ready to meet your nitrogen needs, contributing to better race outcomes with our contractual gas cylinder filling.

We’re dedicated to guaranteeing your safety. Our bottled gas undergoes regular testing, and maintenance protocols exceed industry standards, ensuring that you receive products that are not only high-performing but also safe and reliable. With Adams Gas, you can trust in our commitment to quality, performance, and safety.

4 Handy Helium Balloon Hints

Helium balloons have gained immense popularity, adding a touch of whimsy and joy to any celebration. However, properly caring for your helium balloons is crucial to ensure the party isn’t ruined before the event begins. Let’s explore some essential tips for looking after your helium balloons, ensuring longevity, and maintaining the festive spirit.

1. Watch for Open Flames or Extreme Cold

When preserving the beauty and lifespan of your balloons, it’s important to consider potential hazards beyond the obvious peril of sharp objects. While sharp edges and rough surfaces are imminent threats, other subtle threats will threaten to release the gas violently.

One of the major culprits to be mindful of is the impact of semi-extreme temperatures. Both excessive heat and extreme cold will have adverse effects on the lifespan of your balloons. For example, high temperatures from birthday candles cause the helium gas inside the balloons to expand rapidly, resulting in the dreaded ‘pop.’ On the other hand, freezing temperatures from ice displays or ice creams will cause the helium gas to contract, causing the balloons to shrink and lose buoyancy.

Keep your helium-filled balloons at a reasonable and moderate temperature to avoid these issues. Avoid exposing them to direct sunlight, radiators, or heating vents, as these heat sources can cause the helium inside the balloons to expand rapidly.

Similarly, avoiding exposing the balloons to freezing temperatures or chilly drafts during cold weather is advisable. By keeping them away from extreme temperature fluctuations, you can safeguard your balloons from premature deflation and prolong their lifespan.

In addition to looking after the filled helium balloons, it is equally important to ensure the proper storage of helium canisters Extreme temperatures also adversely affect the performance and safety of both the filled balloons and the gas containers. Therefore, it is crucial to keep these containers away from similar extreme temperatures mentioned earlier.

2. Extending the Lifecycle of Your Helium Balloons

In addition to protecting your balloons from damage, there are several techniques you can employ to extend their lifecycle and keep them looking vibrant and beautiful throughout your celebration.

1. Optimal Inflation: When inflating your balloons, do not overinflate or underinflate them. Overinflating will strain the balloon material, increasing the risk of a sudden rupture. Underinflating, on the other hand, may result in reduced buoyancy and a lacklustre appearance. Find the right balance and ensure uniform inflation for the best results.
2. Gentle Handling: Treat your balloons with care to avoid accidental damage. Avoid squeezing or crushing them and be mindful of any sharp objects or rough surfaces that could cause punctures. Support the balloons from underneath rather than tugging or pulling on the string when transporting or moving them.
3. Avoid Exposure to Moisture: Moisture weakens the balloon material, making it more susceptible to damage and deflation. Keep your balloons away from water sources, humid environments, and rainy conditions to maintain their quality and longevity.
4. Balloon Weight: If you plan to use helium balloons outdoors, consider attaching a lightweight to the string to prevent them from drifting away or being damaged by windy conditions. This not only helps to keep your balloons grounded but also reduces the risk of tangling or entanglement.
5. Indoor vs. Outdoor Use: Helium-filled balloons are best suited for indoor use. Outdoor environments, especially in unpredictable weather conditions, can pose more challenges regarding temperature and wind. If you choose to have helium balloons outdoors, take precautions to protect them from extreme temperature fluctuations and windy conditions.

3. Collect Your Helium Balloons at the End of Shopping

When collecting your helium balloons from a supplier, timing is key to ensure a hassle-free experience; that’s why we recommend waiting until the end of your day to collect them.

By waiting until the end of your shopping expedition to pick up your balloons, you ensure they remain safely inflated and intact throughout your trip. This saves you from potential embarrassment and prevents the disappointment of accidentally popping your balloons along the way. This simple yet crucial tip ensures that your helium balloons remain a source of joy and wonder throughout your shopping adventure.

4. Tackling the Tangle Challenge When Transporting Balloon Bouquets

Balloon bouquets instantly transform any table into a vibrant centrepiece. However, transporting multiple bouquets through a venue such as a wedding or other party will quickly become a nightmare if not carefully considered.

While some individuals may attempt to save time by carrying more than one bouquet at a time, this convenience-seeking strategy often leads to one major inconvenience – tangled balloons!

By carrying one bouquet at a time after filling them, you minimise the risk of unintentional tangling, allowing you to preserve the aesthetic appeal and prevent any unnecessary stress upon reaching your desired location.

Helium Gas from Adams Gas

If you have a party coming up and are on the prowl for your helium provider, then look no further! At Adams Gas, we provide the highest-quality gas that ensure maximum longevity for your balloons.

With our pure and reliable gas, your balloons will stay afloat and vibrant, adding a touch of magic to any celebration. To explore our range of helium products and place an order, visit our online store, or you can get in touch with our friendly team of gas specialists on 0800 195 4445, where we are always eager to help your party pop! Hopefully, unlike your balloons

Helium: More Than Just A Party Gas

Helium, an incredibly versatile gas, powers numerous aspects of our daily lives. From the medical sector to science and space exploration, helium plays a significant role aside from filling up party balloons.

As your trusted bottle gas supplier, we will explore helium, why it is so important as a gas and how it plays a part in various industries. We will discuss the engineering marvels for which helium is used, including leak detection and maintaining stable environments in sensitive industrial processes. Recognising the importance of this gas is enlightening and something to spark curiosity the next time you begin inflating balloons.

What Is Helium?

Helium is the universe’s second lightest and most abundant element, identified by its atomic number, 2. It was first discovered in the sun’s spectrum. This factor gave the gas its name, derived from “Helios,” the Greek god of the sun. In its natural state, helium is a colourless, odourless, and tasteless gas, which can be pressurised into helium canisters. It has the lowest boiling point among all other elements, making it ideal for cooling applications.

Being the lightest noble gas, it is typically unreactive, which contributes to its widespread use in conditions where reactions are undesirable. In addition, helium’s lightness allows it to lift objects, which explains its famous use in balloons and airships. These unique characteristics—its lightness, inertness, and extreme coolness—make it an invaluable resource in various industries, from healthcare to space exploration.

The Role of Helium in Renewable Energy

Helium could play a role in renewable energy, particularly in hydrogen fuel cells:

Efficient Generation and Storage: Helium could be used in fuel cell production to help generate and store hydrogen more efficiently. By mixing helium with hydrogen gas, the relative density of gas decreases, minimising hydrogen embrittlement, a material degradation caused by hydrogen. Reduced embrittlement can result in longer-lasting and cost-efficient fuel cells.

Hydrogen Fuel Cell Vehicles: In hydrogen fuel cell vehicles, a blend of helium and hydrogen may potentially advance hydrogen gas storage and transportation. Exploiting helium’s properties, it could aid in improving the fuel cell’s performance and extend the range of vehicles.

Advanced Applications: Though not commercially implemented, helium-3, a lighter isotope of helium, has promising potential in nuclear fusion research. If successful, nuclear fusion could provide a near-limitless, clean energy source using helium.

Helium in Medicine and Healthcare

In healthcare, helium has an essential role in cooling MRI machines. These machines use powerful magnets that require superconductivity, achieved by cooling to around -269°C. Helium, with a low boiling point of -268.93°C, is an excellent coolant, absorbing and dissipating heat efficiently. Maintaining appropriate temperatures ensures high-quality imaging, assisting in accurate diagnosis and treatment monitoring. MRI machines wouldn’t efficiently provide critical, non-invasive body insights without helium’s cooling properties.

Medical Research: Helium’s Untapped Potential

In addition to its well-established role in MRI machines, helium holds undiscovered potential for further medical applications. One promising area of research is the use of helium gas mixtures to assist in lung treatments, specifically for COPD (Chronic Obstructive Pulmonary Disease) and asthma. Breathing in helium-containing gas mixtures may reduce airway resistance, provide temporary relief from the obstruction, and facilitate the administration of medications. While research is still ongoing and more studies are needed, helium-based mixtures could represent a new frontier in respiratory care.

Helium in Science and Technology

The likes of our helium gas refills play an important part in the scientific field. In astronomy, helium assists in tracing the life cycles of stars and the composition of galaxies, representing a key to deciphering our universe. The amount of helium surrounding a star, for example, determines the generational status of the star. For geologists, helium detectors serve as guides, pinpointing potential oil and gas reservoirs due to helium’s tendency to accumulate above these reserves, making underground exploration more efficient.

Technology’s Silent Partner

Helium is critical in fibre optics manufacture, which has two stages: preform manufacturing and fibre drawing. In preforming manufacturing, helium enhances the uniformity and stability of materials. Helium’s rapid heat absorption during fibre drawing efficiently cools new fibre, preventing damage. Quick cooling allows the immediate application of protective coatings. Also, helium recovery systems reduce consumption in manufacturing by over 95%. With high thermal conductivity and its ability to create a pure environment, helium underpins quality and efficiency in fibre optics production.

Helium in Engineering

Helium is utilised in numerous engineering applications due to its unique properties.

Leak Detection: Owing to helium’s small molecular size, it readily migrates through tiny leaks. Engineers use helium leak detection methods to ensure tight seals in pressurised systems like air conditioning units, vacuum devices, and automotive parts.

Maintaining Stable Environments: Helium’s high thermal conductivity, low boiling point, and chemically inert nature make it indispensable for stable, temperature-controlled conditions in sensitive processes. Applications include welding, semiconductor manufacturing, and telescopes requiring precise temperature maintenance.

Deep-Sea Diving: Commercial dive teams use helium-based breathing gas mixtures, such as trimix and heliox, which enable deep-sea diving with minimal narcotic effects and decreased risk of decompression sickness.

For All Your Helium Needs, Choose Adams Gas

It’s clear that helium is much more than the gas filling your fun party balloons. Its significance runs deep, driving numerous industries and being at the heart of various technologies. From healthcare and fibre optics to engineering applications and potential renewable energy sources, helium indeed showcases an impressive multifaceted nature.

While we appreciate helium for the joy it brings to our parties, the extensive applications for helium truly captivate and hold immense practical value. At Adams Gas, we’re proud to be part of the supply chain that brings this versatile gas to you. Whether you require helium canisters for 50 balloons or 100, or more industrial applications, we’ve got you covered. You can conveniently order your gas online with us, and we’ll ensure speedy delivery to your doorstep. If you have any questions, feel free to get in touch, and our staff will be sure to help.

The Benefits of Blending Gases for Welding

Welding is a specialised skill that can take decades to master. Ensuring you understand all the elements in the process is essential to developing your skills more promptly. As leading experts in bottle gas, today we’ll cover the role of blended gases, what they are and why they’re important for achieving the best outcome from your welding.

The Role of Gases in Welding

Gases are indispensable for welding, serving two core purposes: shielding and fuel supply. They protect the weld pool against atmospheric contamination, securing the integrity of the weld. Shielding gases, including argon, carbon dioxide, and helium, surround the weld pool during the welding process. However, fuel gases such as acetylene, propane, and butane gas provide essential thermal energy for welding and cutting. Oxygen is also utilised with fuel gases and occasionally in shielding mixtures.

Whilst some gasses are used alone within the welding process, such as our argon welding gas, others, such as our CO2 argon mix, combine two gases to get the optimum product for the right process and material.

What Are Compound Gases?

If pure gases aren’t right for your applications, you can mix them to help with splatter reduction or deeper penetrations to create compound gases. These are combinations of gases like argon and carbon dioxide or argon and oxygen. Mixed gases often make the welding process smoother, with fewer troublesome splatters. They can also be used with a wider variety of materials.

You can adjust the mix of the gases depending on what you are welding. However, there are some drawbacks to using mixed gases. They can be more expensive, and they may require more safety measures to handle properly because they are mixtures. So, choosing between pure or mixed gases for welding often depends on your specific needs, factoring in the nature of your job, your budget, and safety considerations.

The Most Common Gas Mixtures in Welding

Gas mixtures in welding are tailored to the specific process and materials involved. Arguably, the most frequently used gas blend is 75% Argon and 25% Carbon Dioxide (C25), typical in MIG welding for its superior arc stability, minimal spatter, and great bead appearance. Another common blend comprises 90-99% Argon and 1-10% Oxygen, favoured in MIG and TIG welding, principally for stainless steel, given its hard-to-match arc stability and smooth weld pool surface.

Pure Carbon Dioxide, while generating more spatter, is often employed in MIG and Flux Cored Arc Welding processes, particularly when working with carbon steel. It’s important to remember that the welding task, the metal in use, and the required properties of the weld determine the use of these gases. Gases like helium may also be introduced to enhance weld quality and penetration.

Limitations of Using Singular Gases versus Compound Gases in Welding

When welding, using one type of gas, like our argon gas cylinders or pure carbon dioxide, can be limiting. This is because these gases aren’t compatible with all materials or welding methods. Let’s take argon as an example. It’s most commonly used in the TIG welding method and works well with materials like stainless steel.

However, it can cause issues when used with other materials. When inappropriately used with certain materials, argon can create safety hazards, including asphyxiation risks and violent reactions to water. It can also result in poor-quality welds if materials fail to react to argon as required during welding procedures. The same issues may appear with pure carbon dioxide – while it’s a more affordable option, it can be problematic, causing a more unstable arc and more little splatters of molten material.

Considerations When Using a Gas Blend in Welding

When using a blend of gases in welding, there are quite a few factors that you need to consider.

1. Compatibility

Remember that the chosen gas blend should be compatible with the welding process and the type of metal to be welded. For instance, a mixture of Argon and Carbon Dioxide is commonly used in MIG welding, but this combination might not work well for other types of welding, resulting in poor welds if the argon fails to react well with the metal.

2. Operational Capability

Consider the operational aspects, including arc characteristics, penetration, and weld quality. Different gas combinations may affect the stability of the welding arc, the depth of penetration into the base material, and the overall appearance and quality of the weld.

3. Safety and Cost Aspects

Safety and cost must be taken into account. Some gas blends may require specific precautions to handle and store them safely. Also, while certain blends may provide a higher quality weld, they could also be more expensive, so making sure that you find a blend that suits your applications whilst being cost-effective in the long run is essential.

The Importance of Getting the Right Gas

Each gas blend is specifically tested for a particular welding process and material type. Certain procedures, like atomic hydrogen welding, also necessitate specialised gases, including hydrogen. Selecting the appropriate gas blend is paramount for welding excellence and meeting demands across various sectors.

If you’re beginning your welding journey as a hobby or are unsure of the exact type of gas you need, we can help. Whether you need a blended gas, a pure gas or something more specific, give us a call, and we will advise you on the correct MIG welding gas or TIG welding gases for your applications.

Why Pub Gas is Essential for Sparkling Beverages

Do you love having a fizzy drink or sparkling glass of wine after a long day at work? Have you ever wondered why there are so many bubbles in your drink? Well, there’s a secret ingredient; pub gas. Pub gas, including cellar or bottle gas, is crucial in creating and maintaining carbonation in drinks such as beer, cider, and champagne. In this blog, we will dive deeper into the benefits of pub gas, its applications in the beverage industry, and the importance of sourcing high-quality pub gas from reliable suppliers such as ourselves.

The Role of Pub Gas in Carbonation

The primary component in pub gas, or beer gas, is carbon dioxide (CO2). When the gas is properly used, it makes it possible to craft a nice, stable head of tiny bubbles on a glass of beer or champagne. This is achieved by injecting a precise amount of food-grade CO2 into the drink using either a pub CO2 bottle or direct injection.

Types of Drinks

Different types of drinks require different carbonation levels to achieve the desired taste and feel in the mouth. Here are some examples:

1. Carbonated water: Tonic or sparkling water is typically highly carbonated to provide a refreshing and bubbly experience.
2. Soft drinks: Many soft drinks, such as cola and lemon-lime soda, have a moderate to high level of carbonation. This adds a pleasant fizziness and tingling sensation, which can contribute directly to the enjoyment of the drink itself.
3. Beer: Different beers, such as lagers, ales, or stouts, have different carbonation characteristics. Lagers, for example, have a higher carbonation level than ales.
4. Sparkling wine: Champagne or prosecco are known for their elegant effervescence. To achieve those signature bubbles, the carbonation needs to be at a moderate to high level.

Temperature

Temperature plays a vital role in carbonation. It affects the amount of fizz and the overall taste of the drink. You might have noticed this when you’ve drank day-old pop or left a beer sitting too long. Keeping your drinks chilled allows the liquid to absorb the CO2 better and will enhance the overall taste.

Desired Level of Carbonation

Achieving the desired level of carbonation is a fine art. The higher the pressure, the higher the levels of carbonation. The amount of time it takes to carbonate is also a factor to consider, as the longer application time also results in a higher level of carbonation.

Carbonation can also affect the taste, as the flavours and ingredients present in the drink impact how the carbonation is perceived. For example, tarter or acidic drinks give the carbonation a more pronounced appearance in the beverage.

Benefits of Using Pub Gas

Pub gas is made from food-grade CO2 and brings many benefits for making drinks, such as:

• Carbonation: CO2 plays a significant role in creating carbonation in fizzy drinks. Carbonation enhances the drinking experience by improving the drink’s taste, texture, and aroma.
• Purity: Food-grade CO2 is high purity, meaning it is free of contaminants. It’s ideal for use in the production of drinks, ensuring that the end product is safe to consume.
• Preservative: CO2 acts as a preservative in beverages, helping to maintain the taste and preventing the growth of any microbes that could spoil the drink.
• Shelf-life: Beverages produced with CO2 have a longer shelf-life compared to non-carbonated drinks, reducing the chances of spoilage and ensuring they remain safe for consumption for longer.

Industry Applications of Pub Gas

The role of pub gas extends beyond the typical pub or bar setting. It’s essential in maintaining the perfect amount of fizz and ensures the optimal amount of carbonation in a beverage. Let’s take a look at some of the settings you would expect to find pub gas.

Restaurants and Cafes

The beverage experience is just as important as the food in the dining world. From refreshing fizzy drinks accompanying any meal to pleasantly carbonated champagne for celebrations, pub gas contributes to an exceptional dining experience.

Our pub gas is ideal for coffee shops aiming to provide nitro coffee. Nitro coffee uses nitrogen gas, which creates a creamy mouthfeel and a rich texture compared to traditional coffee.

Mobile Bars

If you run a mobile bar, you need your equipment to work flawlessly, especially when attending several events in a day. We supply a selection of beer gas cylinders that you can use for personal home bars and commercial bars. It doesn’t matter if you are a large-scale pub or a small mobile bar; we’ll be able to provide you with a cost-effective gas solution.

Home Brewing

Home brewing has been on the rise, with many people looking to create their own unique craft beers and ciders. However, there could still be issues with keeping carbonation levels consistent.

At Adams Gas, our pub gas makes achieving the perfect carbonation levels in your home-brewed beer and cider easy. Our home bar CO2 cylinders are available in various sizes, from carbon dioxide 1.5kg refills to carbon dioxide 6.35kg refills, all ready to meet your carbonation needs.

Working with Adams Gas ensures that you always have consistent carbonation, optimal taste, and exceptional freshness in your drinks. Our large stockist network is all across the UK, and we can provide local delivery to Kent, East Sussex, and South London.

Contact us today to learn more about Adams Gas’s pub gas benefits and explore how we can support your establishment’s gas supply requirements.

Environmentally Friendly Camping: How Camping Gas Reduces Your Carbon Footprint

Camping allows us to reconnect with nature and create precious memories, but it’s essential to do so responsibly to preserve our beautiful planet. It’s vital to embrace responsible practices to ensure the long-term sustainability of our environment.

So, in this blog, we’re exploring the environmental benefits of using camping gas and offering practical tips for environmentally friendly camping with our help.

Prevention of Air Pollution

Air pollution has an extremely negative effect on any ecosystem and the wildlife that inhabits them. For example, in extreme cases, pollutants such as CO2, nitrogen oxides, and sulphur dioxide could be released back into the atmosphere and cause acid rain. The effect of this can lead to the deterioration of ecosystems and the biodiversity of the local wildlife. But what can we do to stop these pollutants being released?

Well, when it comes to camping, using gas instead of traditional fuels like wood or disposable fuel canisters can significantly reduce air pollution. Conventional fuels can release harmful pollutants into the air, contributing to smog and adversely affecting wildlife and ecosystems. By opting for our camping gas canisters, you can help prevent air pollution and protect the environment.

Practical Tips for Environmentally Friendly Camping

At Adams Gas, we believe in providing the best camping gas solutions and guiding you towards responsible camping practices. So, here are some practical tips for environmentally friendly camping:

Choose camping gas: Opt for camping gas bottles instead of traditional fuels. Our camping gas bottles are designed to be efficient, safe, and easy to use, offering a reliable and eco-friendly alternative.

Efficient stoves and lanterns: Using camping gas stoves and lanterns rather than open fires provides a more controlled heat source and reduces the risk of accidental wildfires.

Mindful wood burning: If you prefer burning wood, you must ensure it’s untreated and harvested sustainably. One way that you can do this is by gathering fallen branches and twigs instead of taking cuttings from live trees.

Promoting Responsible Camping Practices

Responsible camping is about loving nature and leaving no trace, as The Countryside Code mentions: ‘Leave nothing but footprints, take nothing but memories and photographs,’. We understand the importance of protecting the environment for future generations. When you are camping, here are some things to remember:

Leave No Trace

Dispose of all waste in the correct manner; this includes any food waste and packaging. Before you leave, ensure that you have preserved the natural beauty of the campsite for the next campers to enjoy.

Respect Wildlife

Always keep a safe distance from wildlife and observe them afar. Please don’t feed or disturb them; you are visiting their home. Remember, respecting wildlife is essential not only for their well-being but also for yours.

Campfire Safety

If campfires are allowed on your campsite, it’s important to follow all of the safety guidelines. Choose a safe location away from flammable materials, clear the area and have water or sand nearby, and build and control the fire with small, dry wood.

Stay on Designated Trails

While you are out enjoying the scenery, make sure that you stick to the designated trails, stopping you from accidentally trampling on sensitive plants. Also, make sure that you pitch your tent in established campsites.

Safety and Storage Tips for Camping Gas

While camping gas is a safe and reliable fuel source, following proper safety guidelines is crucial. Not only to protect yourself but to protect those around you and the environment. Here are five essential safety and storage tips for camping gas:

Correct storage: Store camping gas cylinders in cool, dry, and well-ventilated areas away from direct sunlight, heat sources, and flammable materials. While camping, ensure your gas bottles are stored upright to avoid any gas leaks. If travelling, use metal or plastic containers to transport them.

Regular inspection: If you plan on using camping gas, inspect them regularly. Look for any cracks, dents or bulges in the cylinder. If you see any damage or smell gas, you can return the bottle to us at Adams Gas, and we’ll safely dispose of them. We are experts in recycling, repurposing, and gas cylinder filling, so you can trust us to give you reliable and honest advice.

Transportation safety: When transporting camping gas canisters, ensure they’re kept upright and secured in a well-ventilated area of your vehicle. Depending on the bottle’s size, this could be the passenger seat or the foot well.

Emergency Preparedness: Preparing for emergencies is crucial when camping. Before using the gas, familiarise yourself with all of the safety features of your propane gas cylinders and ensure you have a fire extinguisher in hand. If there’s a gas leak, immediately turn off all the gas appliances and move them away as far as possible from your campsite.

Why Choose Adams Gas?

By embracing environmentally friendly camping and choosing Adams Gas as your camping gas supplier, you are taking an important step towards minimising your impact on the environment. Whether you need camping gas canisters, bottles, or cylinders, we offer a range of different gases, from propane to butane, to suit your needs.

At Adams Gas, we are here to support you on your environmentally friendly camping journey. Contact us today to find out more. Let’s explore the great outdoors while preserving it for future adventures.

The Dos and Don’ts of Handling Gas Cylinders

As gas cylinders are commonly used in various businesses and industries for different purposes, following proper handling, storage, and maintenance procedures is essential to avoid potential hazards and risks. Mishandling gas cylinders can lead to gas leakage, explosions, and fire hazards, posing a threat to human life, property, and the environment.

Adams Gas provides practical guidelines for the correct usage, storage, and maintenance of gas cylinders in different industries to ensure the safety of your workplace and personnel.

Importance of Gas Cylinder Handling

Gas cylinders contain compressed gas at high pressure, making them potentially dangerous if not handled properly. Any damage to the cylinder or valve can cause gas leaks, leading to dangerous situations. To avoid mishaps, take gas cylinders carefully and follow the correct safety procedures.

Potential Dangers and Risks Associated with Mishandling

Here are some potential risks associated with mishandling gas cylinders:

• Fire hazards due to gas leaks or accidental ignition sources.
• Asphyxiation or suffocation due to the displacement of oxygen in the surrounding environment or hazardous gas exposure.
• Explosions due to the uncontrolled release of gas or gas mixture.
• Severe injuries due to the unexpected release or handling of cylinders during transportation or usage.

To avoid such risks, follow proper guidelines and procedures for handling, storing, and maintaining gas cylinders.

Dos and Don’ts

Follow these dos and don’ts when manually handling gas cylinders:

Dos

• Always follow the manufacturer’s guidelines before handling, transporting, or using the gas cylinder.
• Always wear Personal Protective Equipment (PPE) such as gloves, safety glasses, and protective clothing while handling gas cylinders.
• Ensure that the cylinder is secured and stable before transportation.
• Always keep the industrial gas cylinder valve and the outlet pointed away from people or flammables.
• Check for the cylinder’s pressure rating and ensure the pressure is not exceeded while using the gas.
• Use valves, regulators, and other equipment compatible with your trade gas cylinder.
• Ensure proper ventilation while using gas cylinders indoors.
• Keep the cylinder and storage areas clean and dry.

Don’ts

• Do not use the cylinder for any purpose other than what it was intended.
• Do not expose the cylinder or valve to heat or ignition sources.
• Do not use damaged or corroded cylinders.
• Do not store the cylinder in confined or unventilated spaces.
• Do not handle or transport gas cylinders using magnetic materials or cranes.
• Do not tamper with cylinder valves or adapters.

Storage Recommendations

Here are some best practices for storing gas cylinders:

• Store gas cylinders in well-ventilated areas, away from heat sources or flammable.
• If dealing with flammable gases, ensure your storage area has spark-proof fittings.
• Store cylinders upright, preferably on a pallet and not directly on the floor, to avoid corrosion or rust.
• Keep incompatible gases separated, as they can spontaneously react if mixed.
• Always store empty and full cylinders separately.

 

Maintenance Tips

Follow these maintenance tips to help keep gas cylinders safe and in good condition:

• Always ensure the Cylinder Maintenance and Inspection (CMI) tag is current and legible.
• If the cylinder or valve is damaged, rusted, or dented, discontinue use and promptly contact your gas supplier for replacement.
• Inspect the cylinder for leaks, cracks, or signs of wear before using it.
• Do not paint the cylinder or valve, as it camouflages the visual signs of its condition.
• Never modify or repair gas cylinders yourself.

Ventilation Requirements

Proper ventilation is a crucial aspect of gas cylinder handling to ensure workplace safety and prevent the accumulation of hazardous gases. Ventilation requirements vary depending on the type of gas and its properties.

In enclosed areas, such as storage rooms or indoor workspaces, it is essential to have adequate ventilation to disperse any gases that may leak or be released from the cylinders. Insufficient ventilation can lead to flammable or toxic gases buildup, creating an environment conducive to fires, explosions, or health hazards.

When storing or using gases that are flammable or have low or displaced oxygen levels, such as propane or nitrogen, a well-ventilated area is crucial to prevent the risk of fire or asphyxiation. Ventilation systems should be designed to expel gases and maintain fresh airflow, effectively removing potential hazards.

Proper ventilation helps maintain a safe working environment and minimises the risk of gas accumulation and subsequent ignition or health issues. Regular inspection and maintenance of ventilation systems are necessary to ensure their effectiveness in removing gases and preventing their concentration in the work area.

Always consult with industry experts, follow local regulations, and refer to the gas manufacturer’s guidelines to determine the specific ventilation requirements for the type of gas cylinders used in your workplace. Adhering to proper ventilation requirements can significantly reduce the risk of accidents and create a safer environment for everyone involved.

Stay Safe With Gas With Adams Gas

Adams Gas is a leading gas cylinder supplier with a large stockist network across the UK. We also offer a local delivery service in Kent, East Sussex, and South London, so you can get your gas safely delivered to your door no matter where you are. We provide gas canister refilling services on a contractual basis, collecting, filling, and re-delivering customer-owned cylinders.

If you’d like to learn more about our products and services, contact our friendly team by calling 0184 322 0596 or emailing sales@adamsgas.co.uk, and we’ll be happy to help you find the right product for you.

Fuelling Your Pizza Oven: Propane vs. Natural Gas

A typical garden or backyard might have a BBQ or a fire pit. While these have become staples for dining al fresco, the pizza oven is quickly taking over. A pizza oven allows you to create bespoke pizzas for half the price of a takeaway. However, selecting the best fuel source for your pizza oven is a crucial choice that can impact your pizza’s flavour and overall experience using your oven.

Two common fuels for pizza ovens are propane and natural gas, which we’ll discuss and compare in this blog post. We’ll discuss each fuel source’s benefits and downsides and advise on using it safely and efficiently.

Propane as a Fuel Source

While the traditional way to fuel a pizza oven is to use wood, we have an easier way to achieve the same effect. Using propane gas as a fuel source for cooking has a long-standing reputation for its efficiency, reliability, and cost-effectiveness.

Propane is stored as a liquid and vaporises into a gas when released from the cylinder. Adam’s Gas has many propane gas cylinders and propane bottles available. From 5kg propane patio gas to 13kg propane gas cylinders, we have a large selection to choose from. Take a look around our website for more information.

Benefits of Using Propane for Pizza Ovens

Propane has many benefits as a fuel source. We’ve listed out some of the main advantages of using propane:

• Cost-effective: Propane is a more affordable fuel source than electricity, oil, or natural gas.
• Clean burning: It produces fewer emissions than traditional fuel sources, resulting in cleaner air and a healthier environment.
• Efficient: Propane appliances have a higher efficiency rating than their electric counterparts, leading to lower long-term operating costs.
• Portable: Propane gas cylinders can be easily transported and stored, making them ideal for outdoor activities or areas with limited infrastructure.
• Reliable: This gas is considered a more reliable energy source during power outages or emergencies.

Installation and Maintenance of Propane for Pizza Ovens

Installing a gas tank for pizza ovens is easy. First, check to see if the pizza oven works. Then, consult a skilled installer to assess the amount of propane necessary for your oven. When you have the appropriate size tank, the installer will connect it to the pizza oven.

Maintaining the best propane usage practises and safety precautions is also essential. This involves regularly checking the propane tank for leaks, keeping the area surrounding your tank clean, and using a propane regulator to control fuel flow into the oven.

Natural Gas as a Fuel Source

Natural gas is an odourless and colourless gas consisting primarily of methane (CH4) and small amounts of ethane, propane gas, and other hydrocarbons. Natural gas is often used for heating, cooking, and generating electricity.

Benefits of Using Natural Gas for Your Pizza Oven

Using natural gas in a pizza oven has several advantages over other fuel sources. Here are three benefits associated with using natural gas to power pizza ovens:

Constant Fuel Supply and Uninterrupted Operation

Natural gas’s consistent fuel supply for a pizza oven is one of its most important benefits. Unlike other fuel sources, such as propane or firewood, natural gas may provide continuous operation, which need refuelling or reloading at predetermined intervals. A pizza oven can run efficiently for longer periods since natural gas is transported through pipelines, eliminating the need for human fuel transportation or tank refilling.

Cost-Effectiveness in the Long Run

Although there might be some initial installation costs, using natural gas as a fuel source can save costs in the long run. Natural gas is typically less expensive than propane and other fuels. Additionally, since natural gas pipelines run underground, they are not affected as much by adverse weather conditions, such as natural disasters, as above-ground tanks and other fuel storage methods.

Environmentally Friendly With Lower Emissions

Natural gas has a relatively low carbon footprint compared to other fossil fuels. With the increasing concern about environmental sustainability, natural gas is an excellent option for powering a pizza oven as it produces lower emissions. Additionally, natural gas combustion produces less residue and ash than wood combustion, reducing cleaning and maintenance costs.

Factors to Consider when Choosing a Fuel Source

The first step in choosing a fuel source is understanding the types available and how they fit your needs and circumstances. Numerous factors impact the decision-making process when selecting a fuel source. Here are some key factors to consider:

Cost

Fuel prices can vary depending on location and availability. It is vital to assess the cost of installation, maintenance, and fuel prices to determine the most cost-effective fuel source.

Convenience

Fuel sources are different in terms of convenience. For example, consider ease of use, availability, and any limitations impacting the decision-making process.

Availability

Fuel sources may not be available in certain regions. It is vital to examine the availability of fuel sources and how they may impact the decision-making process.

Environmental Impact

Examining the environmental impact of each fuel source is essential, especially with the increasing demand for renewable and eco-friendly energy alternatives.

Find the Right Gas For Your Pizza With Adam’s Gas

Adams Gas is committed to providing high-quality propane fuel for all your industrial, commercial, and residential needs. Our propane gas cylinders are regularly tested and maintained to exceed industry standards, ensuring they are safe, reliable, and of the highest quality. We also offer a gas cylinder filling service. So, if you are close to running out or need a top-up, don’t worry; we can help.

We also provide various other services via our large stockist network, including local delivery in Kent, East Sussex, and South London. Our experienced team is always available to advise and support any gas-related inquiries you may have. Contact us today to learn how propane can benefit your business and the environment.

Setting Up a Successful Paintball Business

Owning a paintball business can be very lucrative if done right. However, anyone wanting to start out in this business will undoubtedly encounter many challenges.

There are dozens of things that someone must consider before starting a business in this sector, and like with any industry, the idea is to keep your costs low and increase your revenue simultaneously. A paintball business can fail without the correct planning, but many factors contribute to success, and we’re here to help explain how.

At Adams Gas, we work closely with paintball company owners, supplying them with our paintball CO2 tanks, so we understand what it takes to make this type of business a success. So, we’ve created a step-by-step guide on setting up a successful paintball business; read on to learn more.

Where to Begin?

Setting up a paintball business is a lot of fun and can be quite lucrative if done right. However, there are many factors to consider before you can think about getting set up; here are a few starting questions to contemplate:

1. What type of land do you have access to?
2. How much money are you willing to spend on supplies?
3. Do you want to make this a full-time job or just something on the side?
4. Do you have any experience in the field? If not, it may be worth taking some lessons from an experienced professional before setting out on your own.
5. Are there any potential hazards that could affect players during playtime? These could include things like trees or rocks that might get in the way of shots hitting their targets.

 

Conduct Thorough Market Research

Before starting any business, conducting thorough market research to understand your target market and competition is essential; paintball businesses are no exception.

You must identify your ideal customer and understand their needs, preferences, and pain points. This information will help you create a business plan that addresses these needs and sets you apart from the competitors.

Develop a Business Plan

Once you have completed your market research, it is time to develop a solid business plan. This should include your mission statement, marketing strategy, financial projections, and operations plan.

Your business plan should also outline your unique selling point and how you plan to differentiate yourself from your competitors.

Looking for a supplier? At Adams Gas, we supply a large range of CO2 Gas refills for paintball cylinders. These cylinders come in various different sizes, from 6.35kg refills to 34kg refills. Take a look around our website for more information.

Finding the Best Location

A good location for your paintballing business can be any area that you have access to; renting a space or piece of land would be a great place to start. A good rule of thumb is to find an area with plenty of trees and brushes so you can hide from opponents. If you have a large space, such as an old barn or warehouse, this would also be ideal because it will allow for multiple games at once without having customers bump into different games. A way to prevent this is to run an indoor game and an outdoor game.

Next, you must ensure that the land is safe for play. You want it to be level so players don’t trip or fall while running around trying to shoot each other with paintballs. There must also be a drainage system in place so the ground doesn’t become flooded.

Finding the Right Equipment

Paintball is a gear-intensive sport, and investing in high-quality equipment is essential to the success of your business.

You should buy durable and reliable markers, hoppers, tanks, and other accessories to ensure your customers have a wonderful experience and are safe while playing. Items like helmets, goggles, overalls, and gloves, should be provided or rented if customers haven’t brought their own.

Safety is a top priority in the paintball industry, and it is important to take necessary precautions to ensure your customers are safe. This includes supplying protective gear, ensuring that your equipment is regularly maintained and inspected, and enforcing rules and regulations during the gameplay.

We offer a range of CO2 tanks for paintball guns, so you are in the right place when it comes to finding a reliable supplier.

Permits and Licenses

In the UK, you must obtain the necessary permits and licenses to run a paintball business. This includes a business license, local license, liability insurance, and a seller’s permit if you plan to sell paintball equipment.

Market your Business Effectively

Effective marketing is crucial to attracting customers and growing your business. You should utilise social media, email marketing, and local advertising to promote your business. You can also offer special promotions and discounts to encourage repeat business.

Marketing and promotions are crucial to the success of any business, and paintball is no exception. You must create a strong brand identity, develop a marketing strategy, and utilise various promotional tactics to attract customers.

Provide Exceptional Customer Service

Businesses should always provide excellent customer service. It is a critical aspect of running a successful business. In order to achieve this, there are several things you’ll need to have. Any staff that you hire needs to be friendly, knowledgeable, and attentive. Addressing any needs that your customers might have.

Events like birthday parties, corporate team-building events, and group events can be popular with customers. Consider promoting these events regularly through social media accounts and a customised website. This is all included in providing excellent customer service.

Running a successful paintball business can be both rewarding and challenging. It requires careful planning, attention to detail, and a commitment to providing your customers with a safe and enjoyable experience.

At Adams Gas, we can supply you with a range of CO2 cylinders for use with paintball guns. Our cylinders range from 6.35 kg gas refill to the larger 34kg cylinder. As experienced gas suppliers, we are confident that we have the perfect size for your paintball business.

If you’re unsure about your requirements, please get in touch online or call us on 01843 220 596, and one of our expert team members will be happy to advise you.

Effortless Beer Dispensing: The Benefits of Bottled Gas for Home Bars

Is there anything better than entertaining at home? A home bar gives you the space to experiment with making beers and cocktails whenever you feel like it. You can even show off your mixology skills to your friends and family.

Make your home bar the talk of the town, no matter the weather or season. Whether it’s a beautiful summer’s day or the run-up to Christmas, you can dazzle your guests with themed drinks and refreshing beers. At Adams Gas, we are experts in home bar gas and offer a range of bar gas cylinders to make your home bar dreams a reality. But why is bottled gas better for home bars?

We’ll answer this by exploring how bottled gas aids in beer dispensing, looking into its advantages, offering tips for choosing the right gas and providing essential advice for using bottled gas in this blog.

How Does Gas Help Dispense Beer?

Think of how the beer comes out of a bar tap; there is a precise way the pour is done to achieve the right amount of head – the white foam on top of the beer – if anything in the process goes wrong, then you’ll have a pint full of foam. This is beer dispensing; it uses CO2 bottles and nitrogen bottles to help you get the right amount of fizz in your pint.

The gas is connected to the beer keg and exerts pressure, allowing the beer to flow smoothly. It also helps maintain freshness and prevents oxidation, ensuring each pour is as crisp and flavourful as the first.

Want more information on why gas is used in pubs? Read our blog ‘Beer and Cellar Gas Efficiency for Pubs’.

Advantages of Using Bottled Gas for Beer Dispensing

You might wonder about the advantages of bottled gas over a pre-gassed keg. While a keg may seem the easiest option, bottled gas for beer dispensing can offer a range of benefits that make it the superior choice. Let’s look at what benefits there are:

Enhance Quality

One of the biggest advantages of bottled gas for home bar dispensing is the improved taste of the beer. For example, you can adjust the levels of fizz that beer has, ensuring a consistent and amazing beer-drinking experience.

Extended Shelf Life

Oxygen is considered ‘the enemy of beer’, as it can cause it to spoil and lose its flavour. A pre-gassed keg could end up wasting beer due to oxidation or spoilage. Choosing bottled gas, such as CO2 and nitrogen, creates a protective barrier around the beer. How is this done? It is achieved by displacing oxygen from the keg, extending the shelf life of the beer and preserving its taste and aroma.

Convenience and Portability

Bottled gas is readily available and easily transported, especially when compared to pre-gassed kegs, making it ideal for home bars or portable draft systems. It cuts the need for bulky and complex setups, allowing you to enjoy freshly dispensed beer anywhere, indoors or outdoors.

Adams Gas delivers bottled gases throughout Kent, South and Central London, and East Sussex. If you order from outside these areas, don’t worry, we’ll send your order to your local stockist. Check out our how-to-order page for more information.

Versatility

Different gases, such as carbon dioxide and nitrogen, offer versatility in beer dispensing. Carbon dioxide is commonly used to maintain carbonation levels, while nitrogen is often used to serve nitrogenated beers like stouts and nitro cold brew coffee. You can cater to a wide range of beer styles and preferences with the right gas choice.

How to Choose the Right Gas for Your Needs

Home bars provide a space that you can use for socialising, relaxing, and having fun cooking up new recipes for cocktails or pouring pints, ready to embrace those glorious summer days.

To make your cocktails or pour pints, you’ll need to right the gas for the job. There are many types to choose from, so getting overwhelmed with choice is easy. To help, we’ve outlined some of the most common gases used in beer dispensing.

Carbon Dioxide (CO2)

CO2 is the most used gas for home bars as it supplies the necessary pressure to push beer from the keg and maintain carbonation levels. We stock a range of CO2 bottles, cylinders, and canisters at Adams Gas, so you’re sure to find the right gas for your home bar.

Nitrogen (N)

Nitrogen is utilised for serving nitrogenated beers that require a creamy mouthfeel and a cascading effect when poured. It comes in various forms, from nitrogen bottles to nitrogen cylinders, and can be combined with CO2 for specific beer styles or as a standalone gas.

Gas Mixtures

Some systems utilise gas mixtures that combine CO2 and nitrogen to achieve specific pour characteristics. These mixtures are commonly used for serving beers that require a balance between carbonation and a smooth, creamy texture. Here are some examples of the types of gas mixtures you can choose from:

• 25% CO2/75% Nitro – used for nitrogenated beers.
• 30% Nitro/ 70% CO2 – blended gas used for ales and lagers.
• 60% CO2/ 40% Nitro – used for stouts and carb beers.

Choosing the right gas cylinder size and pressure rating for your setup is also important. A larger cylinder may require less frequent refilling but may be more difficult to store and transport.

We have a large range of gas cylinders, from the 6.35kg CO2 gas refill to the 2L Cellar Beer Gas 60/40 mix. You can shop the collection on our website.

Tips for Using Bottled Gas for Beer Dispensing

To use bottled gas safely and effectively for beer dispensing, follow these tips:

Regulator and Pressure Adjustment

You can use a reliable regulator to control the gas pressure. We have a range of clip on regulators available for all types of gas, from butane to CO2.

As we’ve mentioned, different beers require varying levels of carbonation. So, it’s important to adjust the pressure accordingly. You can always refer to the beer style guidelines or consult with experts to decide the right pressure for best results.

Regular Maintenance

Ensure proper maintenance of your gas systems by cleaning the lines and faucets regularly. This prevents the build-up of bacteria, yeast, or other contaminants, which can affect the flavour and quality of the dispensed beer.

Safety Precautions

Following safety guidelines is vital when handling bottled gas; we have a series of safety guidelines for you to familiarise yourself with.

Make use that you store it in a well-ventilated area away from open flames or heat sources. Always check for leaks before connecting the gas supply and familiarise yourself with emergency procedures.

Gas Supply Backup

It’s advisable to keep a spare CO2 or nitrogen cylinder on hand, especially for larger gatherings or extended periods of beer dispensing. This ensures uninterrupted service and avoids disappointment when hosting events.

Gas is an essential part of any home bar. It can improve the taste and quality of your beer, make dispensing easier and more efficient, and save you money in the long run. At Adams Gas, we supply cellar and beer gas commercially and domestically and can help you achieve your home bar dreams. For more information, get in touch with us today.

Top Tips for Using Gas Safely Whilst Camping

Summer is quickly approaching, and we are all eager to enjoy the warmer weather and longer days. Camping trips are at their peak this time of year, with many people stepping back into nature. However, camping also requires preparation and attention to safety. One important aspect to consider whilst camping is the safe use of gas for cooking and heating.

Camping gas is an essential item to take on your camping trip, providing a gas supply for everything from lanterns to stoves. When handling gas, however, there are safety tips which you cannot ignore. At Adams Gas, we have listed the most important gas safety tips to keep in mind on your next camping trip.

1.     Read the Instructions

Using a gas BBQ on your camping trip can be a fun and enjoyable experience for all the family, but it is vital to remember that safety always comes first. All cooking equipment should come with a set of instructions on safe usage. These instructions should include information on how to light the stove, adjust the flame, and turn it off safely.

You must be prepared if an accident happens, such as the BBQ gas canister falling over or the stove flame catching a flammable item. Prevention is the name of the game here; ensure that you have a first aid kit or a fire extinguisher stored nearby.

 

2.     Check for Leaks

Several types of gases are used while people go camping, such as butane gas or propane gas. You need to check which type of fuel your cooking equipment requires. Here are some extra tips to help you find the correct fuel:

• Always check the fuel-to-boil speed. It will tell you how efficiently the cooker will use the fuel you buy and save you money overall.
• It is essential to know the size of the cooker or camping BBQ. A small cooker will work just as efficiently as a larger one.

Before using any gas or any of the related equipment, you must check for any leaks. No matter how small. It can prevent an emergency from happening on your camping trip. A quick and effortless way to check, apply a mixture of soap and water to the connections and turn on the gas. If you see any bubbles, even small ones, this indicates that there was a leak. If you discover your bottled gas is leaking, turn the gas off immediately and have a professional inspect and repair the bottle or BBQ.

 

3.     Keep Children and Pets Away

Camping BBQs and all other gas products can cause harm to those who are unaware of how to use them correctly and safely. These products must be kept away from infants and children to prevent harm. Do not let them touch or poke the BBQ or throw any food or stones into it.

It would be great for you to teach your children how to use the BBQ securely. Allowing them to help you cook, with supervision, can build a better sense of trust. You can start by giving them a talk about the potential dangers of using camping gas bottles.

Keep the product safely stored away when you are not using it. Whilst in use, ensure that both children and pets are kept at a safe distance.

4.     Use Proper Ventilation

Gas appliances should always be used in a well-ventilated area to prevent the build-up of carbon monoxide.

If you are in a well-ventilated area, you must not leave any gas equipment unattended. Including heaters, lanterns, and stoves. If you must leave for any period, make sure that you turn off the gas and give the equipment time to cool down before you move away.

 

5.     Store the Gas Safely

Gas should be stored in a cool, dry, and well-ventilated area when not in use. The BBQ gas bottles need to be stored in an upright position and away from any heat sources.

A camping BBQ should always be set up in a designated place or on a level patch of ground. It is recommended that any flammable materials should always be at least 3 meters away from the BBQ.

6.     Enjoy Your Time and Keep It Simple

Camping should be a fun experience. But you must leave the site as you found it, with minimal damage to the surrounding area. You should take all the food, equipment, and rubbish from the site.

 

Here at Adam Gas, we offer a wide range of camping gas canisters to suit your needs. We stock everything from helium gas canisters to Co2 cylinders, whatever you need we’ve got. As a responsible bottled gas supplier, we ensure that all our bottles are checked before sale to ensure that they are of the highest quality and provides excellent performance to our customers.

If you would like to learn more about our products and services, contact our friendly team by calling 0184 322 0596 or emailing sales@adamsgas.co.uk, and we will be happy to help.

How Nitrogen Can Revolutionise Your Business

Nitrogen is a versatile gas employed in a variety of industries, including food and beverage processing and electronics manufacturing. In recent years, businesses have increasingly resorted to nitrogen as a cost-effective and environmentally friendly solution for various applications. In this blog post, we will look at how nitrogen can transform your business, from boosting product quality to lowering waste and increasing efficiency.

What is Nitrogen?

Nitrogen is colourless, odourless, and considered inert. It is essential for life on Earth and is found in all living things, from organic materials to foods and fertilisers. However, it can harm the environment if used in excess.

What are the Properties of Nitrogen?

• Atomic number: 7
• Atomic symbol: N
• State at room temperature: Gas
• Melting point: 210°C
• Boiling point: -195.79°C

What can Nitrogen be Used for?

There are an enormous number of industries that use nitrogen in a variety of ways, including but not limited to:

• Agriculture
• Textiles
• Food
• Electronics
• Manufacturing
• Automotive

Food and Beverage

Companies will purchase trade gas cylinders in bulk to manually alter the atmosphere in which their food and beverage products are stored – from walk-in fridges to warehouses – whether in raw or packaged form. This is to stop food products from expiring and becoming unfit for sale. Read our blog to learn more about how nitrogen is used in the food and beverage industry.

But why is Nitrogen used? Well, it extends the product’s shelf life by preventing oxidation in the packaging.

What Is the Process?

The gas serves the same job as it does in normal air but to a greater amount.

In the case of food and beverage preservation, a merchant would like a storage environment that does not allow any oxidation to occur. This implies they would need a higher concentration of nitrogen to eliminate moisture and keep their goods from spoiling, especially animal products like meat and dairy.

Electronics Manufacturing

Electronics manufacturing is a sophisticated process with no margin for error. It necessitates a highly controlled and accurate environment regarding temperatures, scheduling, packaging, and assembly. Nitrogen is a critical component in obtaining these stringent conditions.

Here are some of the benefits of using nitrogen gas in the manufacture of electronics:

• Maintains a Consistent Atmosphere: Nitrogen contributes to the maintenance of a clean, dry, and inert atmosphere, allowing factories to operate safely and reliably throughout the day.
• Sharper Finishes: Nitrogen gas canisters are great for producing exceptionally clean and crisp finishes required to produce electronic equipment.
• Reduced Dross: Dross, or solid impurities in molten metal, can be a serious concern during the soldering process. Nitrogen reduces the quantity of dross created during soldering while also strengthening the solder.
• Reduces/Prevents Oxidation: Nitrogen reduces the presence of oxygen in the molecules, enhancing the strength of the solder and reducing oxidation.

As the demand for electronic devices continues to grow, the demand for nitrogen in electronics manufacturing will also increase.

Oil and Gas Exploration

Nitrogen bottles are extremely valuable in the upstream oil and gas business for increasing production in brownfields or low-permeability reservoirs. Unlike CO2 bottles and methane gas, it does not produce downhole combustion due to its inert characteristics.

Nitrogen industrial uses cut across onshore and offshore applications, including:

• Nitrogen injection – This is the process of nitrogen gas being injected into an oil reservoir to increase oil recovery.
• Pipeline drying – Pipeline drying is a nitrogen gas application used to remove pollutants such as undesired aerosols or to dry pipelines following a hydrotest.
• Nitrogen purging – Nitrogen purging is the process of removing hazardous gases and mists from process systems to avoid unintended chemical reactions with volatile hydrocarbons and lower the oxygen level in explosion-prone situations.
• Pressure testing – During pneumatic pressure testing of safety equipment such as blowout preventers (BOPs) and pressure vessels, oilfield operators employ nitrogen.
• Nitrogen blanketing – Nitrogen blanketing is the use of nitrogen in storage tanks to inhibit volatile chemical interactions between chemicals or volatile hydrocarbons by displacing the oxygen present.

Reputable Nitrogen Gas Supplier

Nitrogen supply and use has become widespread across a vast range of manufacturing and processing industries such as food, beverages, chemicals, pharmaceuticals, metal fabrication, electronics and semiconductors, aerospace and automotive.

We at Adam Gas take considerable pride in being the original rent-free bottle supplier for several gases, including nitrogen gas bottles. We provide a range of trade nitrogen gas cylinder sizes, from 2L to 50L, to cater for storage and refrigeration needs. Many of our customers use us for a guaranteed cost-effective solution without continual rent charges, meaning you can control what you spend.

If you would like to further discuss our nitrogen gas products, please contact us today for further information on our products.