Industrial Dual fuel gas/heavy oil fired Burners (Gas and furnace oil fired burners)

Smart and efficient combustion

KTP [kW 320 ÷ 33.500]

These industrial burner have been designed for all those application in which singleblock model’s are, for whatever reason, unsuitable. For example, when the requested output requires the use of a too large built-in fan motors, whenever hot combustion air is provided, or again, whenever the primary noise source must be moved to soundproofed areas. The range goes from 320 KW to 33.5 MW in different constructive version as required by the specific clients requirement.

Aluminium casting usually used for the lower power model (up to 19 MW), while steel construction is use for higher power models. This industrial burner design project was developed to obtain the greatest versatility in order to achieve customers targets, and compliance to the widest range of technical specifications.

For example, combustion heads with air inlet coming from above or below, axial or tangential air flow, registers for turbulence adjustment, and other features can be provided. This means that the machines can be highly customized in size and performance as desired.

All the combustion heads are available in the version for liquid, gaseous or mixed fuel. Customizations in such cases is almost always and entirely feasible within our range of work, as such these requests are carefully analysed-one by one.

- electronic or mechanical adjustment - FGR flue gas re-circulation - combustion oil handling unit - combustion oil heating unit

The burners can burn with different types of the gasses, Natural Gas, LPG, Biogas and Gas process, Options:

 oxygens trim control (at the stack) with continuous systems regulation: - VSD (inverter) trim control for the fan motors: - air combustion temperature up to 250°C: - modulation ratio of up to 1:8, with moveable combustion head is achievable: - continuous ventilation; - remote control via bus protocol; - gas pressure reducing station, with maximum inlet pressure up to 6 bar: - double gas train to operate with 2 type of gas: - 3 fuels operation; - ATEX electrical protection; - On-board / separate electrical panel

Industrial Burners Dual Fuel Natural Gas                   Gas Burner Low Nox                           

We deal in Industrial Gas Burners, High-Speed Diesel Oil fired Burners, Light Oil fired Burner, Furnace Oil fired Burners and Duel Fuel Burners, Make CIB UNIGAS, Italy. DE NOVO INDUSTRIAL GAS/OIL BURNERS and BURNER SPARE PARTS DISTRIBUTOR FOR EFFICIENT & ENVIRONMENTALLY FRIENDLY BURNER & Burner SPARES PARTS Call us: +91 - 011 - 45755000 / +91 - 9910499471/72 E-mail id: [email protected] / [email protected] Web address: www.denovoindia.com

Industrial Gas Burner Suppliers @De Novo

There are several manufacturers and brands that produce industrial heavy oil burners in India. Here are some of the top brands known for their high-quality heavy oil burners:

De novo India is a reputable burner manufacturer and provides a range of dual fuel burners suitable for heavy oil and gas applications. Their burners are known for their high combustion efficiency and low emissions.

It is important to consider factors such as specific requirements, budget, and after-sales service when selecting the best industrial heavy oil burner for your needs. It is recommended to contact these manufacturers directly or consult with local experts to determine the most suitable option for your specific industrial application.

De novo India is a renowned manufacturer of burners and offers a range of dual fuel burners designed for heavy oil and gas applications. They are known for their high-quality combustion systems and energy efficiency.

An industrial dual gas burner is a type of burner designed to operate on two different types of gaseous fuels. It offers the flexibility to switch between fuels based on availability, cost, or specific process requirements. The dual gas burner allows industrial facilities to optimize their fuel usage and adapt to changing fuel availability or pricing.

Installation and Maintenance: When considering a dual gas burner, it’s important to ensure that it can be properly installed and maintained by qualified professionals. Regular maintenance and servicing are crucial to ensure safe and efficient operation.

It’s recommended to consult with industrial burner manufacturers or industry experts to get detailed information about specific dual gas burner models, their features, performance, and suitability for your specific application.

When selecting a dual fuel burner supplier, consider factors such as the specific requirements of your application, the reputation and track record of the supplier, product quality and reliability, technical support, and after-sales service. It’s also recommended to reach out to multiple suppliers, discuss your needs, and compare their offerings before making a decision.

Electric Drying Oven, Electric Drying Ovens, Manufacturer, Mumbai, India

Manufacturer and Supplier of Electric Drying Oven, Electric Drying Ovens, Heating Unit, Pumping Unit, Pumping Oil In Reheating Furnaces, Heating / Pumping Unit, Mumbai, India.

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Silicon Carbide Burner Nozzle

Silicon Carbide Burner Nozzle

Silicon carbide burner nozzle is utilized in numerous industrial heating systems for various purposes, due to their high-temperature stability, resistance to chemical corrosion and durability.

Reaction bonded silicon carbide is produced using extrusion and cold isostatic pressing to create pasty mixtures which are sintered into plates or blocks before being machined using CNC machining to specific dimensions.

High-Temperature Resistance

Industrial furnaces aim to achieve an even temperature profile within their chamber. Unfortunately, the placement of burners within a kiln can result in localised overheating due to direct radiant heating from their flames causing localised overheating. Silicon carbide burner nozzles in industrial kilns and furnaces can help alleviate this issue as they shield flames away from products and furniture, thus reducing direct flame exposure, thus preventing overheating and improving product quality.

Silicon carbide burner nozzles boast one of the greatest advantages among industrial kiln nozzles: Their resistance to high temperatures. Silicon carbide is formed when reacting silicon and carbon, known as reaction bonding or sintering, creating dense yet highly durable material capable of withstanding temperatures up to 2000 degrees Celsius - this high heat resistance makes silicon carbide ideal for industrial kilns and furnaces.

Reaction bonded silicon carbide desulfurization nozzles are an integral component of thermal power plants and large boilers, offering exceptional erosion resistance and residual wear resistance under harsh conditions. Furthermore, their chemical resistance against sulfuric acid and hydrochloric acid makes them an excellent choice for power plant desulfurization systems and waste water treatment systems - in addition to other applications including gas, fuel oil, or natural gas firing.

Thermal Conductivity

Combustion is an integral component of many industrial manufacturing processes, and by optimizing this stage businesses can achieve greater fuel efficiency while simultaneously decreasing emissions, leading to reduced energy costs and environmental impacts. Thanks to advanced equipment like silicon carbide burner nozzles this goal can be realized more effectively.

Silicon carbide's excellent thermal conductivity enables more effective heat transfer, quicker reaction processes, and reduced energy usage - ultimately leading to reduced energy costs. Furthermore, this material's durability makes it an excellent choice for use in demanding industrial applications.

Silicon carbide burner nozzles are widely utilized in industrial kilns used for ceramics, daily porcelain, electric ceramics, magnetic materials, powder metallurgy and powder metallurgy production among many other uses. Their purpose is to help regulate temperature balance within each kiln to reduce energy usage while increasing productivity and decreasing costs.

Silicon carbide nozzles undergo an exhaustive quality control and inspection process in order to guarantee optimal performance. Made from Reaction Bonded Silicon Carbide (RB SiC), which offers outstanding wear resistance and chemical stability. Ideal for use in roller, tunnel and shuttle kilns that use natural gas, LPG, coal gas or diesel fuel as their energy source; their low thermal expansion rates prevent cracking or deformation during their long service lives.

Abrasion Resistance

Abrasion resistance is one of the primary considerations when selecting burner nozzles for industrial furnaces, enabling them to withstand repeated contact with hot materials and maintain structural integrity - essential elements of safe operation. Silicon carbide is particularly suitable as its hard surface makes it resistant to damage caused by heavy materials - an advantage that makes this material suitable for applications involving high levels of wear.

Silicon carbide's rigidity ensures it keeps its shape even at high temperatures, which makes it ideal for applications prone to abrasion such as high temperature environments. Furthermore, silicon carbide offers superior protection from thermal shock cracking due to its low thermal expansion rate.

Silicon carbide's combination of abrasion- and impact resistance, low weight, and temperature tolerance make it an excellent material choice for industrial furnaces. Reaction Bonded Silicon Carbide (RBSIC) is commonly found in beams, burner tubes, wear liners, kiln shelves, thermocouple sheaths and burner nozzles found across Australian mines and industries - these components reduce thermal mass in kiln cars to improve energy efficiency while simultaneously increasing production throughput.

This Reaction Sintered SiC Ceramic Sandblasting Nozzle finds many applications within fire kilns such as tunnel kilns, shuttle kilns and roller kilns as well as industrial furnaces with mixed combustion technology. Furthermore, this nozzle boasts good acid resistant properties such as sulfuric and hydrochloric acids resistance making it an excellent choice for power plants.

Chemical Inertness

Silicon carbide burner nozzle is exceptionally strong and durable, capable of withstanding high temperatures without degradation or cracking for extended periods. Furthermore, their resistance to abrasion and corrosion makes them ideally suited for industrial applications such as metal extrusion systems or chemical blending processes. Their longevity reduces downtime and maintenance costs while their versatility enables longer use; in particular when working with materials with harsh environments like acids and salts that often waste material during production processes.

Silicon carbide's chemical inertness stems from its unique molecular structure: carbon is at its core while boron provides its outer shell, giving the material stability and protecting it from reacting with other compounds at normal temperatures and pressures. Because of this property, silicon carbide storage containers make an excellent option for acid waste or pharmaceutical storage needs.

Silicon carbide's chemical inertness also makes it ideal for use with gasses that would break down in air exposure, like nitrogen or argon. Industrial furnaces using natural gas, LPG, coal gas or diesel fuel benefit greatly from using silicon carbide burner nozzles - helping improve energy efficiency while decreasing emissions in these settings. While silicon carbide burner nozzles have many benefits over traditional options in many industrial settings, their initial cost may be higher; however long-term fuel savings and maintenance savings could offset this initial investment over time.

What Is an Oil Furnace for Aluminum Melting?

The oil furnace for aluminum melting is an instrument used for smelting, casting, and hot plating of non-ferrous metals such as aluminum, zinc, silver, lead, tin, and copper. It can use light oil, heavy oil, residual oil, natural gas, coke oven gas, mixed gas, and other fuels as heat sources to smelt metals.

Oil Furnace for Aluminum Melting Structure

The structure of a fuel-fired aluminum melting furnace usually consists of a furnace body, a burner, a heat exchanger, a flue gas treatment system, a control system, etc.

Furnace Body

The furnace body is usually made of refractory materials and can withstand high temperatures and chemical corrosion. Common refractory materials include high-aluminum, silicon, and carbon materials. The shapes of the furnace body are various, common ones include square, round oval, etc. to adapt to different production needs.

Burner

The combustion system of a fuel-fired aluminum melting furnace mainly consists of a burner and combustion auxiliary equipment. Burners usually use natural gas, heavy oil, coal gas, etc. as fuel, and the temperature in the furnace is controlled by adjusting the working state of the burner.

Heat Exchanger

The heat exchanger is an important part of the fuel-fired aluminum melting furnace. It can transfer the heat in the furnace to the cooling water in the heat exchanger, thereby converting the heat into steam or hot water.

Flue Gas Treatment System

The flue gas treatment system is another important component of the fuel-fired aluminum melting furnace. It includes chimneys, dust collectors, induced draft fans, and other equipment to discharge and process the waste gas in the furnace.

Control System

The control system is the nerve center of the fuel-fired aluminum melting furnace. It includes a temperature controller, pressure controller, liquid level controller, and other equipment, which can achieve precise control of temperature, pressure, liquid level, and other parameters in the furnace.

Advantages of Oil Furnace for Aluminum Melting

The fuel-fired aluminum melting furnace is an efficient, environmentally friendly, and adaptable non-ferrous metal smelting equipment that is widely used in various industrial production fields.

Good Sealing and High Efficiency

This kind of furnace uses advanced sealing technology to ensure that heat is not lost during the smelting process, thus improving smelting efficiency.

High Thermal Efficiency and Low Operating Costs

Compared with electric heating crucible furnaces, fuel-fired aluminum melting furnaces have large melting capacity, high efficiency, and low energy consumption, completely eliminating the cost of replacing electric heating elements.

Excellent Environmental Performance

The furnace uses an imported internationally famous brand burner to completely burn the diesel, and the exhaust gas emissions are completely pollution-free. The multiple hot flow channel design makes full use of the energy generated by the burner, greatly improves thermal efficiency, and has significant energy-saving effects.

Adaptable

Fuel-fired aluminum melting furnaces are especially suitable for use in areas with tight power and power shortages. The power consumption of a single furnace is 180 to 300 VA, eliminating the need for additional power capacity to expand production.

Easy To Operate and High Work Efficiency

The furnace adopts the country's first rotating downward pressure furnace cover, which can cause the high-temperature exhaust gas to form a high-temperature hot air curtain at the furnace mouth, which can play the role of melting, heat preservation, and preheating the molten material, significantly shortening the melting time and improving work efficiency.

Applications

Fuel-fired aluminum melting furnace is suitable for smelting, casting, and hot plating of aluminum, zinc, silver, lead, tin, copper, and other non-ferrous metals. It is versatile and can be used in industrial production as well as in the home or research laboratory.

Summary

The structure of the oil furnace for aluminum melting is complex. It is efficient and can meet the smelting needs of various metals.

Heating Oil: The Eco-Friendly Choice for Home Heating

As we become more conscious of our impact on the environment, it is crucial to consider sustainable alternatives for everyday activities, including heating our homes. In this blog post, we will explore the benefits of heating oil Whitman, MA, as an environmentally friendly option, its efficiency and reliability, its environmental advantages, and its economic benefits. By the end of this article, you will have a comprehensive understanding of why heating oil is a wise choice for home heating that not only reduces your carbon footprint but also saves you money in the long run.

Understanding Heating Oil

Heating oil is a versatile and efficient fuel used for home heating. It is commonly used in oil-fired boilers, furnaces, and water heaters. Unlike natural gas, which requires a pipeline network, heating oil is stored in tanks on the property, providing homeowners flexibility and independence. Heating oil systems are highly efficient and reliable, ensuring a consistent and comfortable heat supply throughout your home. Over the years, advancements in technology have made heating oil even more efficient and clean-burning than ever before, reducing its environmental impact significantly.

Environmental Benefits of Heating Oil

One of the most significant advantages of using heating oil is its positive impact on the environment. Heating oil contributes to reducing greenhouse gas emissions, making it a cleaner alternative to other fossil fuels. Low-sulphur heating oil is now the standard, significantly reducing the amount of sulphur released into the atmosphere during combustion. This not only results in cleaner air quality but also prevents the formation of acid rain. Furthermore, heating oil Whitman, MA can be blended with renewable biofuels, such as biodiesel or renewable diesel, to create a more sustainable fuel option. Blending heating oil with these renewable fuels further reduces emissions and dependence on non-renewable resources. The use of advanced technology, such as high-efficiency burners and condensing boilers, also plays a crucial role in minimising the carbon footprint of heating oil systems.

Economic Advantages of Heating Oil

In addition to its environmental benefits, heating oil offers economic advantages for homeowners. Despite fluctuations in oil prices, heating oil remains a cost-efficient option for home heating. Modern heating oil systems are highly efficient in converting fuel into heat energy, resulting in lower energy consumption and reduced heating costs in the long term. The initial investment in a heating oil system may be higher than other heating options, but the long-term savings and efficiency make it a worthwhile choice.

Moreover, many governments and organisations offer incentives or tax credits for using eco-friendly fuels like heating oil. These incentives can help offset the initial costs and make the transition to heating oil even more financially attractive. It is worth exploring whether your local government or energy providers offer such incentives to maximise your savings.

Tips for Maximising Efficiency and Sustainability

To ensure optimal efficiency and sustainability when using heating oil, there are several practical tips you can follow. Regular maintenance and tune-ups of your heating oil system are essential to keep it running efficiently. This includes cleaning or replacing filters, checking fuel lines for leaks, and ensuring proper burner operation. Regular maintenance not only improves efficiency but also prolongs the lifespan of your system. Proper insulation and weatherisation techniques are also crucial in minimising heat loss and maximising the efficiency of your heating system. Ensure your home is well-insulated, with proper insulation in walls, attics, and floors. Seal any air leaks around doors, windows, and electrical outlets to prevent heat from escaping. These simple steps can greatly reduce your energy consumption and lower your heating costs. Additionally, consider utilising smart thermostats and programmable timers to regulate heat usage. Smart thermostats allow you to control your heating system remotely, optimising energy usage and ensuring comfort only when needed. Programmable timers allow you to schedule heating periods based on your daily routine, ensuring the system is not running unnecessarily when you are away from home. Conclusion In conclusion, heating oil Whitman, MA is an environmentally friendly and economically viable choice for home heating. Its efficiency, reliability, and reduced emissions make it a sustainable alternative to other fossil fuels. By choosing heating oil, you not only reduce your carbon footprint and contribute to cleaner air quality but also save money in the long run. With proper maintenance, insulation, and the use of smart technologies, you can maximise efficiency and sustainability while enjoying a cosy and comfortable home. Consider heating oil as your eco-friendly option for home heating and join the movement towards a greener future. Read the full article

Main uses of magnesia chrome bricks

 Magnesia chrome brick is a high-quality refractory material composed of magnesium oxide (MgO) and chromium trioxide (Cr2O3). It has excellent performance in high temperature environment and is widely used in many fields. The following are the main uses of magnesia chrome bricks:

1、Metallurgical industry: Magnesia-chrome bricks are widely used in high-temperature equipment in the metallurgical industry, such as steel converters, electric furnaces, and smelting furnaces. They can be used in areas such as linings, furnace floors, furnace walls and furnace roofs to provide refractory protection and withstand erosion and wear under high temperature conditions.

2、Chlor-alkali industry: Equipment such as electrolyzers and evaporators in the production process of the chlor-alkali industry need materials that can withstand high temperatures and corrosion. Magnesia-chrome bricks are widely used in these equipment, providing excellent fire resistance and corrosion resistance, ensuring long-term stable operation of the equipment.

3、Oil refining and chemical industry: In the oil refining and chemical industry, magnesia-chrome bricks are often used in high-temperature equipment such as catalytic cracking units, hydrogenation units, reforming units and furnaces. They withstand high temperatures, corrosive gases and chemicals and provide reliable fire protection.

4、Glass industry: Glass furnaces are the core equipment in the glass industry, which are required to withstand extremely high temperatures and chemical erosion. Magnesia-chrome bricks are widely used in the inner lining, cooling zone and melting area of glass furnaces to maintain stable refractory performance and long service life.

5、Power industry: In the power industry, magnesia-chrome bricks are often used in high-temperature equipment such as boilers, burners, chimneys and hot blast stoves. They can withstand high temperature and flue gas erosion, and provide effective fire protection to ensure the normal operation and safety performance of equipment.

6、Other industries: In addition, magnesia-chrome bricks are also widely used in cement kilns, ceramic kilns, welding furnaces, carbonization furnaces, aluminum electrolytic cells and other fields. Its excellent fire resistance and corrosion resistance make it an important high temperature refractory material.

In conclusion, magnesia chrome bricks are widely used in several industries due to their high temperature resistance, erosion resistance and mechanical strength. Whether it is metallurgy, chlor-alkali, oil refining and chemical industry, glass or electric power and other fields, magnesia-chrome bricks can provide reliable fire-resistant protection to ensure long-term stable operation of equipment.

Choosing the Right Heating Oil for Your Needs: Factors to Consider

Heating oil is an important part of your home's heating system. It provides the energy that heats water for furnaces and boilers and also powers radiators and heat exchangers in your home's ductwork.

The type of heating oil Halifax, MA you use depends on many factors, including what type of equipment you're using (radiators, furnaces or boilers), how much energy is needed per hour to operate those pieces of equipment, and what temperature range they need to operate properly.

Let's go specific about how to get the ideal heating oil from us for your requirements - https://campellokeith.com/heating-oil-halifax-ma/

Types of Heating Oil

Flammable: This type of heating oil is volatile and flammable. It can burn with an intense flame, which can cause serious damage to your home or building if there is an explosion.

Non-Flammable: This type of heating oil does not catch fire easily and won't explode in a fire. However, some non-flammable oils do contain chemicals that may be harmful to humans or animals if they inhale them during cooking or cleaning operations.

Low Smoke Point: A low smoke point means that the product will produce less visible smoke when lit on fire; however, this may not always be ideal for cooking purposes as some foods require higher temperatures than others for optimal flavour development (for example meat). You'll want to check the label before purchasing any new products!

Efficiency and Performance

Efficiency is a measure of how much heat you get from your oil. It refers to the amount of energy required to create that heat, and it's measured in British Thermal Units (BTUs).

Performance is the amount of work done by an engine or machine. It's measured in pounds per hour or kilometres per hour—and it's often used interchangeably with efficiency because they're related concepts.

While these two metrics can be compared directly, there are some important differences between them:

Compatibility with Heating System

When choosing a heating oil Halifax, MA you have to consider your heating system. If your system has a built-in oil burner, then this is the most important factor in selecting the right type of fuel for your home. However, if it does not have one or if it needs repair or maintenance work done on it, then consulting with an expert is necessary before making any final decisions about which type of fuel will work best with your particular situation.

Environmental Considerations

The environmental impact of heating oil is an important consideration when selecting a heating oil. Heating oil does not biodegrade and can cause damage to soil, water, air and wildlife as well as human health when spilled or burned. It has a high carbon footprint relative to other fuels such as electricity or natural gas, which can be offset by using renewable energy sources such as wind or solar power.

Conclusion

The bottom line is that heating oil Halifax, MA is an important part of maintaining the comfort of your home. It’s important to do some research on what kind of heating oil will work best for your needs, as well as how much it will cost. You should also think about other factors like compatibility with your system and other environmental considerations.

Differences Between Storage Tank VS. Tankless Water Heaters

Storage tank vs tankless water heaters. Water heaters come in two main types: storage tanks and tankless. Here we will discuss the critical differences between these two water heaters. Storage tank water heaters are the most common type and use a large insulated tank to store heated water. Tankless water heaters don’t have a storage tank and instead heat water on demand.

There are several key differences between these two types of water heaters.

What is A Storage Tank Heater?

Storage tank water heaters are the most common type of water heater. As the name suggests, they use a large tank to store heated water. The tank is typically insulated to help keep the water hot.

You can power storage-tank water heaters with propane, oil, electricity, or natural gas. Electric models are the most common and affordable but also have the highest operating costs. Natural gas and propane models are more expensive to purchase but are cheaper to operate. Oil-fired models are the least common but can be a good option if you do not have access to natural gas or propane.

How Does A Storage Tank Heater Work?

Storage tank water heaters work by heating water and then storing it in the tank. The hot water is then available whenever you need it.

The tank size will determine how much hot water you have available. A larger tank will mean more hot water, but it will also be more expensive to purchase and operate. Storage tank water heaters typically have a lifespan of about 10-15 years.

What Is A Tankless Water Heater?

Instead of keeping water in a tank, tankless water heaters, often called on-demand water heaters, use strong burners to heat water as it goes through a heat exchanger and send it straight to your taps or shower. Gas or electricity are often used to fuel tankless water heaters.

These heating systems were generally 22% more energy efficient than the gas-fueled storage-tank ones.

How Does A Tankless Water Heater Work?

Tankless water heaters work by heating water on demand. When you turn on the hot water, the unit will activate and begin heating water. The hot water is then sent to your taps or shower.

Tankless water heaters have a lifespan of about 20 years, making them more durable than storage tank water heaters.

Pros And Cons Of Storage Tank Water Heaters

There are both pros and cons to using a storage-tank water heater.

Pros:

They are less expensive to purchase than tankless water heaters.

They have a shorter recovery time so that you will have hot water faster.

They are available in various fuels, so you can choose the one that is best for you.

Cons:

They have higher operating costs than tankless water heaters.

They take up more space than tankless water heaters.

They have a shorter lifespan than tankless water heaters.

Pros And Cons Of Tankless Water Heaters

There are pros and cons to using a tankless water heater.

Pros:

They are more energy-efficient than storage tank water heaters.

They have a longer lifespan than storage tank water heaters.

They take up less space than storage tank water heaters.

They have a faster recovery time than electric storage tank water heaters.

Cons:

They are more expensive to purchase than storage tank water heaters.

They require a higher initial investment for installation.

Conclusion

The type of water heater that is right for you will depend on your needs and preferences. A storage-tank water heater may be the best choice if you are looking for the most affordable option. A tankless water heater may be the better option if you are concerned about energy efficiency or want a unit that will last for many years. You can check more of their differences here: https://www.canadianhomeinspection.com/home-reference-library/plumbing/tank-vs-tankless-water-heaters/.

If you want to install a tankless water heater, be sure to consult with a professional to ensure it is done correctly. Furnace Repair Winnipeg offers installation services for all types of water heaters. Visit our website or call us to learn more.

https://furnace-repair-winnipeg.ca/differences-between-storage-tank-vs-tankless-water-heaters/

Burner Management system/ ECR Burners

Smart and efficient combustion

CIB UNIGAS S.p.A. can provide small and medium size burners (up to 2.050 KW) with an electronic control system. They can be used both on single fuel burners (gas or light oil) and on dual fuel burners (gas/light oil).

WITH LMV 2… MICRO PROCESSOR

EA Medium-small burners complete with electronic cam

EB Medium & small burners complete with electronic (cam and inverter)

EC Medium & small dual fuel burners complete with electronic cam.

ED Medium & small dual fuel burner completer with electronics cam and inverter.

Types of controllers & Servo motor:

LME20, LMV26, LMV37, LMV51, LMV52,

SQN14, SQM33

This system offers many features:

Reduction of mechanical moving parts

Built-in flame detection box

Integrated gas proving system

Possibility to install different types of flame sensors, so

That the electronic cam system can be used on all applications

Variable speed drive VSD (only on certain versions)

Error-code display on screen in case of lock-out

Possibility to program or to exclude the post purge time

Display of hours run

Modbus communication, system, only upon request, through the software (to be quoted separately), except the basic version.

Optimal air/fuel ratio regulation, with high precision and repeatability of the regulations made.

Easy programming, Boths through the AZL programmers, the proper software.

WITH LMV 5… MICRO PROCESSOR

ES Medium-small burners complete with electronic cam, without O2 control, without inverter

EO Medium-small burners complete with electronic cam and O2 control, without inverter

El Medium-small burners complete with electronic cam and inverter, without O2 control

EK Medium-small burners complete with electronic cam, inverter and O2 control

Types of controllers & Servo motor:

LMV51, LMV52,

SQM45 , SQM 48

CIB UNIGAS S.p.A. has implementing, in its series of burners, an electronic system of command and control/ Burner Management System also know as ECR burners. This innovative system, divided into two types of devices, can be used both for civil and industrial installations (up to 2.050 kW) and for burners which use a single or mixed fuel and with continuous or intermittent operation. This system allows the control of the various elements which play an important role in the correct mixture of the fuel and combustion air.

This solution permits user to achieve the maximum precision in the combustion adjustment. The system can also be expanded through interface with an oxygen control probe and/or a fan speed adjustment inverter in order to improve the performance. In this way we can obtain high savings both in terms of fuel and electric power required.

The command-and-control system is composed of a microprocessor electronic unit, which integrates all the burner command, control functions, programming and adjustment the burner.

Flame control box integrated functions:

Burner control;

Electronic cam:

Power regulator;

Gas valve leakage control system;

Oxygen control;

Inverter control;

Dialogue with BMS systems or PLC (MOD Bus);

Burner commissioning and configuration via PC-tool;

Simple programming with AZL and PC-tool;

Complete self-diagnostic function (error memory, number operation time, clock etc.);

3 levels of parameter access: (manufacturer, servicing personnel, final user);

Remote diagnostics;

All components can be easily interchanged;

Parameter upgrading with PC-tool;

Dialogue with MOD Bus protocol.

More info : Dual Fuel Burners Natural Gas              Dual fuel burners

Best Industrial Heavy oil burner in India @De Novo

The oil heater consists of a tank with an electric element while a system of preset thermostats controls the regulation of the fuel temperature in order to ensure the optimum performance of the fuel used.

 We deal in gas burners, high speed diesel oil, industrial heavy oil burners, dual fuel burners, industrial natural gas burner, light oil industrial burners, make CIB UNIGAS, Italy.

DE NOVO

INDUSTRIAL GAS/OIL BURNERS SPARES & PARTS DISTRIBUTOR

Call us: +91 - 011 - 45755000 / +91 - 9910499471/72

E-mail id: [email protected] / [email protected]

Web address: www.denovoindia.com

Centrifugal Blowers Manufacturers in Ahmedabad,Gujarat,India

Discription:

Features:

Capacity: 150 CFM to 85,000 CFM (200 CMH to 1,40,000 CMH)

Pressure: 50 mm WC to 1500 mm WC (2” WC to 60” WC)

Motor HP: 1 HP to 200 HP

Type: Induced Draught, Forced Draught

MOC: MS, SS 304, 316, 316L, FRP

Application:

Industrial furnace and Boiler, Chemical Processing Plant, Textile Plant, Cement Plant, Dairy Refrigeration Plant, Gas and Oil Firing Burner, Dust Collecting System, Ceramic Industries, Petro – Chemical Plant, Power Plant, Air Conditioning Plant, Ventilation System (in Hotels, Hospitals, Restaurant, Residents, Cinema Hall, Tunnel etc.), Pneumatic Conveying System of Powder and Granules.

Unique Features :

The SHIVAM Engineers Centrifugal Blowers Manufacturers in Ahmedabad,Gujarat are backed by computer software or design selection and detailed performance characteristics. It can offer low pressure ventilation fans with very high air volume and also makes very high pressure fan. It can offer various types of shaft seals to avoid leakages of gases. The SHIVAM blowers have careful design against noise pollution.

Tempering Furnace, Tempering Furnaces, Manufacturer, Mumbai, India

Manufacturer and Supplier of Tempering Furnace, Heating Unit, Pumping Unit, Pumping Oil In Reheating Furnaces, Mumbai, India.

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Industrial Furnace Transformer manufacturers — Elmag Transformers

Industrial furnaces transform heat energy into electricity and hot water. They use flame to boil liquid fuels and convert them into gas, steam, or heat. Industrial furnaces are used in industries such as steel manufacturing, pharmaceuticals, food processing, and power generation. Commercial furnaces can be large and complex. They include a boiler and a series of burners that heat the fuel to high temperatures. These are often fueled by natural gas or oil. Smaller furnaces have simpler designs. They use electric heating coils to produce direct heat for industrial uses. Industrial furnaces can be automated for increased efficiency. This can help them achieve higher output levels while reducing costs. One major consumer of energy at industrial sites is the furnace itself. The furnace’s primary function is to convert the energy from a source (such as a fire or electric heating coil) into usable heat energy for the application being served (such as melting metal or producing steam).

Industrial Furnace Transformer Manufacturers is a device used to convert AC voltage to lower AC voltage. It is also called power transformer or power rectifier. Industrial furnace transformer converts the AC voltage into DC current. The output of an industrial furnace transformer can be used directly with the heating element of an electric furnace, or it can be connected to an inverter to produce 120-volt AC power for other appliances. An industrial furnace transformer is an essential part of a furnace system because it allows the furnace to work without the normal limits on power input imposed by other systems, such as lights and air conditioners. For example, if there is any problem with the AC input to your home’s electrical system, you will be able to use your industrial furnace transformer as a backup source of power.

What Is the Efficiency of the Aluminium Melting Furnace?

The efficiency of an aluminum melting furnace can vary depending on several factors, including the type of furnace, its design, and the specific operating conditions. However, modern aluminum melting furnaces can achieve high energy efficiency levels.

One commonly used metric to measure the efficiency of a furnace is the fuel-to-aluminum ratio, which represents the amount of fuel required to melt a given amount of aluminum. High-efficiency furnaces typically have low fuel-to-aluminum ratios, indicating that they can melt more aluminum using less fuel.

Advanced technologies, such as regenerative burners and improved insulation materials, have significantly improved the energy efficiency of aluminum melting furnaces. These technologies allow for better heat recovery and reduced heat losses, leading to higher overall efficiency.

Efficiency levels can also be influenced by factors such as the melting process, furnace design (e.g., crucible, reverberatory, or rotary furnace), the type of fuel used (natural gas, electricity, or oil), and the specific operational practices in place.

It's important to note that the efficiency of a furnace is not solely determined by its design or technology but also by the practices and maintenance employed by the operator. Proper furnace maintenance, regular cleaning, and adherence to recommended operating procedures are essential for achieving and maintaining high-efficiency levels.

To determine the exact efficiency of a specific aluminum melting furnace, it would be necessary to consult the manufacturer's specifications or conduct performance tests under standard operating conditions.

The efficiency of a furnace depends on various factors, including the specific application, fuel type, and operating conditions. Different furnaces are commonly used for multiple purposes, each with advantages and efficiency characteristics. Here are a few examples:

Induction Furnaces: Induction furnaces are known for their high energy efficiency. They use electromagnetic induction to generate heat directly within the melted metal, resulting in efficient and rapid heating. Induction furnaces are commonly used for melting and heating metals like aluminum, copper, and steel.

Electric Arc Furnaces (EAF): Electric arc furnaces utilize electric arcs between electrodes to generate heat for melting metals. They can achieve high efficiency due to the direct heat transfer to the metal and the ability to control the energy input precisely. Electric arc furnaces are commonly used in steelmaking and can offer good energy efficiency when powered by electricity from renewable or low-carbon sources.

Crucible Furnaces: Crucible furnaces are small, and typically used for melting smaller quantities of metal. They have a refractory-lined container (crucible) where the metal is melted. The efficiency of crucible furnaces can vary depending on factors such as insulation, burner design (for fuel-fired furnaces), and heat losses. While they may not offer the same efficiency as larger industrial furnaces, they can be suitable for specific applications or smaller-scale operations.

Regenerative Furnaces: Regenerative furnaces, also known as regenerative thermal oxidizers (RTOs), are commonly used in industries where high-temperature processes generate waste heat. They recover and reuse the waste heat to preheat combustion air or other process streams, resulting in improved energy efficiency. Regenerative furnaces can be found in applications such as glass manufacturing, steel reheat furnaces, and some types of ceramic kilns.

It's important to note that the efficiency of a furnace is influenced by various factors beyond just the furnace type, including insulation, heat recovery systems, fuel type, and operational practices. When selecting a furnace for a specific application, it's crucial to consider the overall system design and operational requirements to maximize efficiency and performance. Consulting with furnace manufacturers or industry experts can provide more specific guidance based on the intended application.