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To meet the evolving demands of the industry, we have continuously expanded our product portfolio of both thermal & acoustic insulation, wherein more generics have been regularly added, increasing the portfolio from Nitrile Rubber insulation – to EPDM insulation – to XLPE insulation for various ranges of applications including refrigeration, air conditioning, infrastructure, industrial projects and PEB structures. The acoustic insulation range has also been expanded from noise absorbers- to noise barriers- to acoustic underlay- to anti-vibration pads for noise reduction in a wide range of applications.

Today, all industrial projects like pharmaceutical plants, textile plants, food and beverage industries, automotive industry, chemical plants, and all infrastructure projects like airports, metros, and redevelopment of existing railway stations are centrally air-conditioned for either human comfort or process requirements that have chilled water pipelines, refrigerant lines and air conditioning ducting. All these pipelines and HVAC ducts must be thermally insulated with the right insulation choice to ensure condensation control and reduce energy losses. Our range of closed-cell elastomeric foam insulation ensures that the energy losses in pipes and ducts are minimised, thus contributing to the system’s Energy Efficiency.

Insulation materials are a very basic and important requirement in any industry dealing with various heat transfer unit operations (hot/cold applications). Insulation slows down the rate of heat exchange between two different temperatures. Primarily Insulation is used to minimize the heat gain or heat loss from/to the surrounding. It is very important to maintain the temperature of chilled water and steam supply, store the products at a low temperature either in cold storages or in tanks, store the steam at a high temperature either in the boiler or other systems and transportation of the products at a lower temperature.

The basic aim of insulation is to retard the rate of heat flow in order to prevent/minimize the change of temperature of the system or space. It involves several unit operations, either at higher temperature or lower temperature as compared to ambient conditions of the air, the use of insulation materials in any industry is inevitable for the conservation of energy. The selection of insulating material, deciding the thickness, correct method of performing the insulation of steam and chilled water pipelines, storage tanks, silos, cold storages, etc are some of the important considerations to achieve optimum results.

The primary reasons for the need for insulation are listed below:

To conserve energy To minimise heat loss or gain To prevent condensation To have personnel safety To have freeze protection To have better fire safety To get good acoustic comfort To maintain a temperature condition and to maintain the process control To maintain the effective operation of equipment or chemical reaction To assist in maintaining a product at a constant temperature To create a comfortable environmental condition Types of Insulation Material Generics Inorganic Insulation Materials made from sand, silica, stone and molten glass. They are divided as mineral wool (further sub divided as glass wool or fibre glass, stone wool, slag wool), ceramic wool, ceramic fibres, silicate wool, calcium silicate, expanded perlite, vermiculite, cellulose insulation, cellular glass or foam glass etc.

Organic Insulation Materials made from natural resources (natural insulation) and from manmade chemicals and petroleum products (manmade insulation). They are divided as natural and manmade insulation. Manmade insulation is further sub divided as elastomeric foams (further sub divided as Nitrile Butadiene Rubber (NBR) and Ethylene Propylene Diene Monomer (EPDM)), Melamine Foam, Phenolic Foam, Polyethylene or Polyolefin Foam (Further Sub Divided as Chemically Cross-Linked Foam and Physically Cross-Linked Foam), Polystyrene Foam (Further Sub Divided as Particle Foam (Expanded Polystyrene (EPS)) and Extruded Foam (Extruded Polystyrene)), Polyurethane Foam (Further Sub Divided as Rigid Foam and In Situ Foam), Polyisocyanurate Foam, Zote Foam etc.

Technical Parameters that influence the selection of correct insulation material

Thermal Conductivity Water Vapour Diffusion Resistance Factor or Mu Value Water Absorption Fire Properties Temperature Range Anti Microbial Properties Acoustic Properties Outer Protective Covering Density Mechanical Properties Cell Structure Flexibility Application Area

Problems faced by the projects & industries due to poor insulation material

Reduced Energy Efficiency Reduction of the effectiveness of the cooling/heating Heat gain/heat loss over the systems Condensation Problems Corrosion on the pipes, vessels etc Ice formation Frosting effect Natural deterioration due to ageing Installed Thermal Conductivity value deterioration due to ageing Ingression of heat, moisture and presence of dirt Chemical deterioration Mechanical damages Exposure of direct sunlight Joint problems Thermal bridging A solution to the industry Nitrile Rubber Insulation is a very versatile and flexible insulation. It is widely used the Industrial insulation, air-conditioning, heating, plumbing and HVAC Industries. It is a closed cell elastomeric insulation and is resistant to water vapour, oil and most acids. Because of its flexibility it is ideal for insulating vessels, curved or irregular shapes. Nitrile Rubber -flexible closed cell elastomeric insulation is suitable for applications up to an approximate maximum continuous operating temperature of 105ºC.Nitrile rubber – elastomeric insulation has low and stable thermal conductivity – 0.033 W/m∙K, high water vapour diffusion resistance factor, low water absorption properties, good fire performance, good anti microbial properties, good mechanical properties, good acoustic properties, reduces the under insulation corrosion (UIC), prevents condensation, ensures controlled heat gain/heat loss, flexibility etc.

Nitrile Rubber – elastomeric insulation are used to prevent condensation on refrigeration copper piping, heating and ventilation pipe work and air-conditioning pipe work. Within its stated temperature range, there are few restrictions which would prohibit the use of this product with proper installation techniques. It can be used on hot and cold plumbing pipes and also as an insulation blanket on ductwork. It can be used for various applications like refrigeration pipe work, heating and ventilation pipe work, air conditioning pipe work, heating and ventilation ductwork systems and vessels and curved or irregular surfaces.

Aerogel insulationis a flexible, high-temperature insulation material that provides excellent thermal and acoustic insulation performance and helps to mitigate corrosion through its unique hydrophobic properties. Aerogel insulation is a synthetic porous ultra light solid material derived from a gel, in which the liquid component of the gel has been replaced with a gas (during a supercritical drying process). Aerogel insulation can be made from a variety of chemical compounds, but the base material for Aerogel is usually silicon. All Aerogel insulation blankets generate a certain level of dust during handling, fabrication and installation but it will not harm the humans and atmosphere. Aerogel Insulation is suitable for applications up to an approximate maximum continuous operating temperature of 650ºC.

Aerogel Insulationhas low and stable thermal conductivity –0.014 W/m∙K, good hydrophobic properties, low water absorption properties, good fire performance (Non Combustible Nature), good anti microbial properties, good mechanical properties, good acoustic properties, reduces the under insulation corrosion (UIC), ensures controlled heat gain/heat loss, does not have any itching problems unlike other fibrous materials, flexibility etc. Aerogel Insulation are used on hot and cold applications. It can be used for various applications likeheating applications, steam pipe work, cryogenic pipe work, dual temperature pipe work, LNG pipe work,heating ductwork systems and cryogenic or hot vessels and curved or irregular surfaces.

Metal roof of Pre Engineered Building (PEB) or conventional building is a unique part of low rise steel buildings manufactured and delivered to the site by a single supplier. The package comprises of rigid structural steel, cladding system and building accessories. Though the concept is simple, PEBs are extremely diversified in their usage and uniqueness in each design. The metal roof concept has gain widespread popularity in the last few years as a result of the speed and simplicity with which such buildings can be erected. In addition, many traditionally designed industrial buildings are also now opting for metal roofing.

A critical and necessary ingredient in the PEB System is thermal and acoustic insulation. This is necessary to minimise heat gain (or energy loss, for an air conditioned building) as well as to provide acoustic insulation from heavy rain and other outside noises. In a typical PEB structure, the roof accounts for approx. 40 per cent to 50 per cent of total heat gain, while walls account for approx. 15 per cent to 20 per cent of heat gain.

Almost 100 per cent of metal roof buildings world-wide are insulated for the following reasons, which are addressed in further detail below:

Minimise heat gain.

Maximise thermal comfort.

Minimise energy loss, cooling load and operating cost for air conditioned building.

Provide acoustic insulation.

Prevent unwanted moisture condensation.

Minimise heat gain and maximise thermal comfort As MNCs have put up new facilities in India, they have insisted that the workplace meets internationally accepted norms. This is because of the increased awareness of harmful effects of thermal stress, the physiological effect of high temperature and humidity, and the harmful effect of noise on human health. As a result, architects and planners are paying more attention to this aspect in the last few years.

As per ISO 9241, a typical work place environment should have a temperature less than 23o and noise level less than 60 dB (A). Depending on process or product, human activities and the number of occupants, the work place temperature varies. It is impossible to achieve thermal or acoustic comfort inside a pre engineered metal building (which does not have centralised air conditioned system) without adequate insulation. Minimisation of heat gain is also very important from medical point of view as heat stress not only reduces productivity but also aggravates heart problems.

By using fiberglass wool as under-deck insulation, heat transmittance through the roof and wall is reduced substantially. Sufficient temperature drop occurs across the roof and wall system, resulting in lower temperature and a comfortable workplace environment.

Minimise energy loss If the PEB is centrally air conditioned, a project owner can reduce the capital as well as operating cost of chiller, motor and AHU by providing adequate thermal insulation. Thermal insulation having sufficiently high thermal resistance (R value) should be installed on roof and wall. Air conditioning load can be reduced substantially and hence one can save scarce fuel energy or electric energy. This is the reason why it is called the product for sustainable development.

Acoustic benefit A noisy workplace reduces working efficiency, concentration, and negatively impacts overall performance. Consider the noise inside a PEB shed without insulation which is bombarded with heavy drops of rain or hail which occurs during monsoon every year. Mumbai recorded highest rain fall 39 mm per hr for 24 hrs. With that sort of rain the sound level of a 10 m x 5 m metal roof can reach 78 dB (A) which is roughly equivalent to the noise in major traffic on a road at 10 m distance on a continuous basis. To maintain acoustic privacy or keep sound level under the specified level i.e. 55 dB (A), fibrous type insulation like Glass-wool is the best choice.

Control on condensation Condensation should be strictly controlled in PEBs as structural metal in contact with condensed water droplets can corrode. To prevent moisture, proper insulation thickness and thermal resistance of the insulation is of utmost importance so that the surface temperature of the same does not go below the dew point temperature. Please note, using aluminum foil on its own as a vapor-retarder does not control condensation.

When selecting insulation for a Pre Engineered Building, the following criteria should be considered:

High thermal resistance or R value, for effective thermal insulation

Ease of application

Lightweight material to avoid need for support from expensive metal skin or welded mesh

Variety of aesthetic options / finishes

Cost effective (total installed cost)

High NRC for effective acoustic insulation

Fire safe properties.

Non-corrosive to steel.

Discussing how Fiberglass Wool meets the above requirements.

High Thermal Resistance (R value)

Recommended thermal resistance is R > 1.25 sq.m. oC/W to get effective temperature drop across the wall and the roof.

The final roof or wall composite should have thermal conductance value, U as low as 0.35 to 0.7 W/sq.m.oC.

50mm Fiberglass wool technically and economically satisfies these requirements as evident from the tested values of fiberglass wool given below.

Note: Thermal Resistance = Insulation thickness/Thermal conductivity.

Fiberglass wool insulation with a minimum density 16 kg/cu.m and 50 mm thickness is recommended for PEB insulation. The most widely specified density for metal roof insulation is 20 kg/cu.m. and 24kg/cu.m. in 50 mm thickness.

Ease of application

Fiberglass wool being soft, resilient and non sticky, can be unrolled easily over the purlins.

Flanges are provided for easy stapling to make an uninterrupted layer of glass wool.

High variety of roll lengths can be provided (from 7.5 m to 30 m) to match building design and to minimise number of joins.

Can be easily cut and fold to accommodate openings through insulation.

Don’t have any shot content which can be awkward during installation.

Aesthetic look

Fiberglass wool is available with various factory laminated and fire rated facing options, like reinforced aluminum foil, high strength aluminium foil or white metallised polypropylene (WMP-VR and WMP-50).

All the facings used by Twiga have undergone extensive testing across many different criteria (fire safety, bursting strength, tensile and transverse strength, ageing analysis etc) prior to being approved for use.

High strength aluminum foil and WMP-50 can be installed without the need for wire mesh or weld mesh support, thereby saving money and improving the finished look. Please note that this is only recommended when distance between purlins is less than 1.5M.

Cost effectiveness Since Fiberglass wool is lightweight, it does not require a costly second metal roofing skin for support. It can simply be installed under the metal roof or inside the side cladding, with or without weld mesh support (depending on the type of facing used).

Fiber glass wool being compressed cost of inventory and transport are less.

Require less packaging – less scrap.

Cost of wire mesh can be eliminated by selecting right facing.

Acoustic performance Glasswool being fibrous and having an open air cell structure is always preferred for its good noise reduction property and is almost exclusively used for acoustic insulation of multiplexes and sound studios. Its average range of NRC is 0.75 to 1.24. Glasswool can be used in internal partitions in addition to roof or wall.

Fire safe properties Fiberglass wool has the following fire ratings which are critical for PEB application.

Not easily ignitable: conforms to Class P as per BS 476 part 5.

Non-combustible: as per BS 476 part 4.

Fire retardant – Class 1 as per BS 476 part 7/Class O as per BS 476 part 6 and 7.

Non corrosive to metal Fiber glass wool being chemically very stable does not react with metal or any other matter under normal condition. Its pH value is very near to seven, so it is neither acidic nor basic in nature. Moreover, it is free from shots, sulphur and chlorides. It is non hygroscopic, too. So the structural members are completely safe from corrosion.

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Glass wool, also known as fiberglass insulation, has a wide range of applications due to its excellent thermal insulation properties and versatility. Some of the common applications of glass wool include:

Building Insulation: Glass wool is extensively used for insulating walls, roofs, and floors in residential, commercial, and industrial buildings. It helps regulate indoor temperature, reduce energy consumption for heating and cooling, and enhance acoustic insulation by dampening sound transmission.

HVAC Systems: Glass wool is used to insulate heating, ventilation, and air conditioning (HVAC) ducts and pipes. This helps prevent heat loss or gain during the distribution of air, making HVAC systems more energy-efficient.

Industrial Equipment Insulation: Glass wool is used to insulate industrial equipment, boilers, ovens, and other high-temperature applications. It helps maintain consistent temperatures and improves energy efficiency.

Automotive Industry: Glass wool is used in the automotive sector to insulate engine compartments, exhaust systems, and other areas where temperature control is essential for performance and safety.

Appliances: Glass wool is used as insulation in household appliances like ovens, refrigerators, and water heaters, helping maintain the desired internal temperatures while minimizing energy consumption.

Agricultural and Horticultural Applications: Glass wool can be used in greenhouses and agricultural structures to create a controlled environment for plant growth by regulating temperature and humidity.

Soundproofing: Glass wool's fibrous structure makes it an effective sound-absorbing material. It is used in acoustic panels, soundproofing partitions, and recording studios to reduce noise levels.

Fire Protection: Glass wool has fire-resistant properties, making it suitable for use in fire-resistant barriers, fire doors, and other applications where fire protection is crucial.

Packaging: Glass wool is used as protective packaging material for fragile or sensitive items, providing cushioning and shock absorption during transportation.

Shipbuilding and Aerospace: Glass wool finds applications in shipbuilding and aerospace industries, where its insulation properties are valuable for maintaining temperature and minimizing energy consumption.

Personal Protective Equipment (PPE): In some instances, glass wool is used in protective clothing, gloves, and other safety gear to provide insulation and thermal protection.

MAFTEC Blanket(Max. service temp: 1600 deg.C) available in a range of densities and sizes for a wide variety of thermal applications upto 1600deg.C.