Jessy George

  • Age Of Machines: Turf Harvesting To Become Fully Automatic

    In the not-so-distant future, our fields could be tilled, tended, and harvested by machines. The automation has not spared any sector with its disruptive technological advancements and farming is not new to the concept. The completely or co-operating machines for farming are the next big things in the market.

    The most attractive advantages of machines are a. they don’t get tired b. don’t ask for sick leaves. Thus, such machinery could easily offer a return on investment. Thus, the demand for automated turf harvesters has boosted over the last few years. According to Allied Market Research, the global automated turf harvester market is projected to reach $155.94 million by 2026, registering a CAGR of 12.6% from 2019 to 2026. The shift of consumer preference toward automated agriculture machinery, lack of skilled labor on farms, and the adoption of natural turfs on sports fields are the major factors for the market growth.

    What was the traditional approach?

    Traditionally, harvesting and stacking turf was performed by hand, causing an intensive job for workers and it created problems in finding workers for the job. However, with novel technologies, the process is simplified and harvesting is no longer a three-person operation but a one-person job.

    Although hand-stacked turf harvesting has been widely used, farm equipment companies have developed machinery to automate turf slab cutting and stacking to improve productivity. However, those machine’s performance was inconsistent and they increased productivity only slightly more than the conventional processes. Although these types of machinery were reliable for simpler systems, offering complete automation was a tricky part as the traditional systems had limited data processing power as well as a closed system architecture that limits advanced functionality.

    Automated turf harvesters

    Learning for these shortcomings, the automated turf harvesters have emerged in the market. FireFly Equipment, the provider of smart and efficient automated turf harvesting equipment, has made its special place in the market.

    The company has worked to developed smarter machines that could manage and synchronize several parallel processes at the same time to cut and stack turf grass. The company’s harvester, ProSlab 155, lifts the turf from the ground with the help of cutter and splits it into slabs that later conveyors transport to the rear of the machine. In addition, a stacker transfers the cut slabs from conveyors to the pallet and a set of pallet forks drops the pallet of turf closer to ground. Once the stack reaches a required level, the fully loaded pallet of turf slabs is placed on the ground and empty pallets are inserted, enabling previous procedures such as cutting and stacking process to continue. As per the company, the ProSlab 155 provides up to 20% increase in harvesting speeds and around 50% reduction in fuel consumption.

    By integrating the latest technologies and leveraging the power of several tools such as LabVIEW RIO architecture, smart and automated turf harvesters are bound to enter the market. However, the high price of such machinery and affordability would be a strong challenge to overcome and thus, market players are investing big bucks to develop both smart and affordable harvesters in the coming future.


  • Age Of Machines: Turf Harvesting To Become Fully Automatic

    In the not-so-distant future, our fields could be tilled, tended, and harvested by machines. The automation has not spared any sector with its disruptive technological advancements and farming is not new to the concept. The completely or co-operating machines for farming are the next big things in the market.

    The most attractive advantages of machines are a. they don’t get tired b. don’t ask for sick leaves. Thus, such machinery could easily offer a return on investment. Thus, the demand for automated turf harvesters has boosted over the last few years. According to Allied Market Research, the global automated turf harvester market is projected to reach $155.94 million by 2026, registering a CAGR of 12.6% from 2019 to 2026. The shift of consumer preference toward automated agriculture machinery, lack of skilled labor on farms, and the adoption of natural turfs on sports fields are the major factors for the market growth.

    What was the traditional approach?

    Traditionally, harvesting and stacking turf was performed by hand, causing an intensive job for workers and it created problems in finding workers for the job. However, with novel technologies, the process is simplified and harvesting is no longer a three-person operation but a one-person job.

    Although hand-stacked turf harvesting has been widely used, farm equipment companies have developed machinery to automate turf slab cutting and stacking to improve productivity. However, those machine’s performance was inconsistent and they increased productivity only slightly more than the conventional processes. Although these types of machinery were reliable for simpler systems, offering complete automation was a tricky part as the traditional systems had limited data processing power as well as a closed system architecture that limits advanced functionality.

    Automated turf harvesters

    Learning for these shortcomings, the automated turf harvesters have emerged in the market. FireFly Equipment, the provider of smart and efficient automated turf harvesting equipment, has made its special place in the market.

    The company has worked to developed smarter machines that could manage and synchronize several parallel processes at the same time to cut and stack turf grass. The company’s harvester, ProSlab 155, lifts the turf from the ground with the help of cutter and splits it into slabs that later conveyors transport to the rear of the machine. In addition, a stacker transfers the cut slabs from conveyors to the pallet and a set of pallet forks drops the pallet of turf closer to ground. Once the stack reaches a required level, the fully loaded pallet of turf slabs is placed on the ground and empty pallets are inserted, enabling previous procedures such as cutting and stacking process to continue. As per the company, the ProSlab 155 provides up to 20% increase in harvesting speeds and around 50% reduction in fuel consumption.

    By integrating the latest technologies and leveraging the power of several tools such as LabVIEW RIO architecture, smart and automated turf harvesters are bound to enter the market. However, the high price of such machinery and affordability would be a strong challenge to overcome and thus, market players are investing big bucks to develop both smart and affordable harvesters in the coming future.


  • Age Of Machines: Turf Harvesting To Become Fully Automatic

    In the not-so-distant future, our fields could be tilled, tended, and harvested by machines. The automation has not spared any sector with its disruptive technological advancements and farming is not new to the concept. The completely or co-operating machines for farming are the next big things in the market.

    The most attractive advantages of machines are a. they don’t get tired b. don’t ask for sick leaves. Thus, such machinery could easily offer a return on investment. Thus, the demand for automated turf harvesters has boosted over the last few years. According to Allied Market Research, the global automated turf harvester market is projected to reach $155.94 million by 2026, registering a CAGR of 12.6% from 2019 to 2026. The shift of consumer preference toward automated agriculture machinery, lack of skilled labor on farms, and the adoption of natural turfs on sports fields are the major factors for the market growth.

    What was the traditional approach?

    Traditionally, harvesting and stacking turf was performed by hand, causing an intensive job for workers and it created problems in finding workers for the job. However, with novel technologies, the process is simplified and harvesting is no longer a three-person operation but a one-person job.

    Although hand-stacked turf harvesting has been widely used, farm equipment companies have developed machinery to automate turf slab cutting and stacking to improve productivity. However, those machine’s performance was inconsistent and they increased productivity only slightly more than the conventional processes. Although these types of machinery were reliable for simpler systems, offering complete automation was a tricky part as the traditional systems had limited data processing power as well as a closed system architecture that limits advanced functionality.

    Automated turf harvesters

    Learning for these shortcomings, the automated turf harvesters have emerged in the market. FireFly Equipment, the provider of smart and efficient automated turf harvesting equipment, has made its special place in the market.

    The company has worked to developed smarter machines that could manage and synchronize several parallel processes at the same time to cut and stack turf grass. The company’s harvester, ProSlab 155, lifts the turf from the ground with the help of cutter and splits it into slabs that later conveyors transport to the rear of the machine. In addition, a stacker transfers the cut slabs from conveyors to the pallet and a set of pallet forks drops the pallet of turf closer to ground. Once the stack reaches a required level, the fully loaded pallet of turf slabs is placed on the ground and empty pallets are inserted, enabling previous procedures such as cutting and stacking process to continue. As per the company, the ProSlab 155 provides up to 20% increase in harvesting speeds and around 50% reduction in fuel consumption.

    By integrating the latest technologies and leveraging the power of several tools such as LabVIEW RIO architecture, smart and automated turf harvesters are bound to enter the market. However, the high price of such machinery and affordability would be a strong challenge to overcome and thus, market players are investing big bucks to develop both smart and affordable harvesters in the coming future.


  • Age Of Machines: Turf Harvesting To Become Fully Automatic

    In the not-so-distant future, our fields could be tilled, tended, and harvested by machines. The automation has not spared any sector with its disruptive technological advancements and farming is not new to the concept. The completely or co-operating machines for farming are the next big things in the market.

    The most attractive advantages of machines are a. they don’t get tired b. don’t ask for sick leaves. Thus, such machinery could easily offer a return on investment. Thus, the demand for automated turf harvesters has boosted over the last few years. According to Allied Market Research, the global automated turf harvester market is projected to reach $155.94 million by 2026, registering a CAGR of 12.6% from 2019 to 2026. The shift of consumer preference toward automated agriculture machinery, lack of skilled labor on farms, and the adoption of natural turfs on sports fields are the major factors for the market growth.

    What was the traditional approach?

    Traditionally, harvesting and stacking turf was performed by hand, causing an intensive job for workers and it created problems in finding workers for the job. However, with novel technologies, the process is simplified and harvesting is no longer a three-person operation but a one-person job.

    Although hand-stacked turf harvesting has been widely used, farm equipment companies have developed machinery to automate turf slab cutting and stacking to improve productivity. However, those machine’s performance was inconsistent and they increased productivity only slightly more than the conventional processes. Although these types of machinery were reliable for simpler systems, offering complete automation was a tricky part as the traditional systems had limited data processing power as well as a closed system architecture that limits advanced functionality.

    Automated turf harvesters

    Learning for these shortcomings, the automated turf harvesters have emerged in the market. FireFly Equipment, the provider of smart and efficient automated turf harvesting equipment, has made its special place in the market.

    The company has worked to developed smarter machines that could manage and synchronize several parallel processes at the same time to cut and stack turf grass. The company’s harvester, ProSlab 155, lifts the turf from the ground with the help of cutter and splits it into slabs that later conveyors transport to the rear of the machine. In addition, a stacker transfers the cut slabs from conveyors to the pallet and a set of pallet forks drops the pallet of turf closer to ground. Once the stack reaches a required level, the fully loaded pallet of turf slabs is placed on the ground and empty pallets are inserted, enabling previous procedures such as cutting and stacking process to continue. As per the company, the ProSlab 155 provides up to 20% increase in harvesting speeds and around 50% reduction in fuel consumption.

    By integrating the latest technologies and leveraging the power of several tools such as LabVIEW RIO architecture, smart and automated turf harvesters are bound to enter the market. However, the high price of such machinery and affordability would be a strong challenge to overcome and thus, market players are investing big bucks to develop both smart and affordable harvesters in the coming future.


  • Age Of Machines: Turf Harvesting To Become Fully Automatic

    In the not-so-distant future, our fields could be tilled, tended, and harvested by machines. The automation has not spared any sector with its disruptive technological advancements and farming is not new to the concept. The completely or co-operating machines for farming are the next big things in the market.

    The most attractive advantages of machines are a. they don’t get tired b. don’t ask for sick leaves. Thus, such machinery could easily offer a return on investment. Thus, the demand for automated turf harvesters has boosted over the last few years. According to Allied Market Research, the global automated turf harvester market is projected to reach $155.94 million by 2026, registering a CAGR of 12.6% from 2019 to 2026. The shift of consumer preference toward automated agriculture machinery, lack of skilled labor on farms, and the adoption of natural turfs on sports fields are the major factors for the market growth.

    What was the traditional approach?

    Traditionally, harvesting and stacking turf was performed by hand, causing an intensive job for workers and it created problems in finding workers for the job. However, with novel technologies, the process is simplified and harvesting is no longer a three-person operation but a one-person job.

    Although hand-stacked turf harvesting has been widely used, farm equipment companies have developed machinery to automate turf slab cutting and stacking to improve productivity. However, those machine’s performance was inconsistent and they increased productivity only slightly more than the conventional processes. Although these types of machinery were reliable for simpler systems, offering complete automation was a tricky part as the traditional systems had limited data processing power as well as a closed system architecture that limits advanced functionality.

    Automated turf harvesters

    Learning for these shortcomings, the automated turf harvesters have emerged in the market. FireFly Equipment, the provider of smart and efficient automated turf harvesting equipment, has made its special place in the market.

    The company has worked to developed smarter machines that could manage and synchronize several parallel processes at the same time to cut and stack turf grass. The company’s harvester, ProSlab 155, lifts the turf from the ground with the help of cutter and splits it into slabs that later conveyors transport to the rear of the machine. In addition, a stacker transfers the cut slabs from conveyors to the pallet and a set of pallet forks drops the pallet of turf closer to ground. Once the stack reaches a required level, the fully loaded pallet of turf slabs is placed on the ground and empty pallets are inserted, enabling previous procedures such as cutting and stacking process to continue. As per the company, the ProSlab 155 provides up to 20% increase in harvesting speeds and around 50% reduction in fuel consumption.

    By integrating the latest technologies and leveraging the power of several tools such as LabVIEW RIO architecture, smart and automated turf harvesters are bound to enter the market. However, the high price of such machinery and affordability would be a strong challenge to overcome and thus, market players are investing big bucks to develop both smart and affordable harvesters in the coming future.


  • Hear The Sound of Silence: Novel Acoustic Insulators Set to Make Your Home More Peaceful

    After spending a day listening to blaring horns or listening to someone’s head rock playlist, you want to come back to your peaceful and quiet home. However, once in a while you found yourself restless as some neighbor starts to drill holes in the wall and feel you should have thought about making your home soundproof.

    Acoustic design is a complex aspect of architecture. This includes controlling the noise that enters the home from outside as well as spaces between rooms or noise caused by mechanical systems. For this purpose, there are several materials available in the market.

    What is acoustic insulation?

    Soundproofing and acoustic insulation materials are used for both noise reduction and noise absorption. Insulation helps prevent airborne and structural sound transmission in a building. The market for acoustic insulation has skyrocketed over the last few years.

    According to Allied Market Research, the global acoustic insulation market is projected to reach $14.63 billion by 2022, growing at a CAGR of 5.9% during the period from 2014 to 2022. Driven by stringent noise pollution standards, rise in the construction industry, energy efficiency advantages offered by insulation materials, and surge in R&D to introduce more advanced soundproofing materials, the industry is expected to manifest significant growth in the coming future.

    Advent of novel insulating materials

    Schöck, the global leader in the construction industry, recently launched a new acoustic insulation solution, Tronsole. The solution is for all structural subsections on both straight and winding staircases. In addition, the solution consists of perfectly integrated impact soundproofing elements that unite dependable sound insulation with straightforward installation.

    Moreover, the solution offers unparalleled thermal performance for both standard and passive house construction. The company declared that the solution is completely supported by a variety of downloadable software and al BIM developments.

    In other news, Advanced Insulation also launched its Contraflex acoustic insulation jackets. The new product is said to be an adaptable solution that can protect personnel from high sound pressure levels. According to Advanced Insulation, this new solution could revolutionize the application process with its combination of mass-loaded barrier and absorbent material.

    With the new announcement, the Contraflex quickly become a trending topic in the oil and gas industry as those workers are frequently exposed to a variety of different mechanical noises such as pumps, turbines, and valves & pipes.

    There is no limit to innovative ideas. Scientists have discovered a particular shape that blocks all the sounds. A team at Boston University recently developed a 3D printing ring that makes the blasting sound from the speaker completely inaudible to the human ear. A few years ago, scientists proposed to use fibers from orange tree pruning as an acoustic insulator. A team of researchers at the Universitat Politècnica de València and the Universitat de Girona. The team has developed an insulator that proved to provide a 150% improvement in the acoustic insulation compared to conventional insulators.

    In today’s time, when noise pollution has become a pressing issue, incorporating soundproofing measures into design ensures the home’s peace and quiet. Instead of placing one earmuff on another, you can invest a few bucks and get yourself an acoustic insulation for your home.


  • Hear The Sound of Silence: Novel Acoustic Insulators Set to Make Your Home More Peaceful

    After spending a day listening to blaring horns or listening to someone’s head rock playlist, you want to come back to your peaceful and quiet home. However, once in a while you found yourself restless as some neighbor starts to drill holes in the wall and feel you should have thought about making your home soundproof.

    Acoustic design is a complex aspect of architecture. This includes controlling the noise that enters the home from outside as well as spaces between rooms or noise caused by mechanical systems. For this purpose, there are several materials available in the market.

    What is acoustic insulation?

    Soundproofing and acoustic insulation materials are used for both noise reduction and noise absorption. Insulation helps prevent airborne and structural sound transmission in a building. The market for acoustic insulation has skyrocketed over the last few years.

    According to Allied Market Research, the global acoustic insulation market is projected to reach $14.63 billion by 2022, growing at a CAGR of 5.9% during the period from 2014 to 2022. Driven by stringent noise pollution standards, rise in the construction industry, energy efficiency advantages offered by insulation materials, and surge in R&D to introduce more advanced soundproofing materials, the industry is expected to manifest significant growth in the coming future.

    Advent of novel insulating materials

    Schöck, the global leader in the construction industry, recently launched a new acoustic insulation solution, Tronsole. The solution is for all structural subsections on both straight and winding staircases. In addition, the solution consists of perfectly integrated impact soundproofing elements that unite dependable sound insulation with straightforward installation.

    Moreover, the solution offers unparalleled thermal performance for both standard and passive house construction. The company declared that the solution is completely supported by a variety of downloadable software and al BIM developments.

    In other news, Advanced Insulation also launched its Contraflex acoustic insulation jackets. The new product is said to be an adaptable solution that can protect personnel from high sound pressure levels. According to Advanced Insulation, this new solution could revolutionize the application process with its combination of mass-loaded barrier and absorbent material.

    With the new announcement, the Contraflex quickly become a trending topic in the oil and gas industry as those workers are frequently exposed to a variety of different mechanical noises such as pumps, turbines, and valves & pipes.

    There is no limit to innovative ideas. Scientists have discovered a particular shape that blocks all the sounds. A team at Boston University recently developed a 3D printing ring that makes the blasting sound from the speaker completely inaudible to the human ear. A few years ago, scientists proposed to use fibers from orange tree pruning as an acoustic insulator. A team of researchers at the Universitat Politècnica de València and the Universitat de Girona. The team has developed an insulator that proved to provide a 150% improvement in the acoustic insulation compared to conventional insulators.

    In today’s time, when noise pollution has become a pressing issue, incorporating soundproofing measures into design ensures the home’s peace and quiet. Instead of placing one earmuff on another, you can invest a few bucks and get yourself an acoustic insulation for your home.


  • Hear The Sound of Silence: Novel Acoustic Insulators Set to Make Your Home More Peaceful

    After spending a day listening to blaring horns or listening to someone’s head rock playlist, you want to come back to your peaceful and quiet home. However, once in a while you found yourself restless as some neighbor starts to drill holes in the wall and feel you should have thought about making your home soundproof.

    Acoustic design is a complex aspect of architecture. This includes controlling the noise that enters the home from outside as well as spaces between rooms or noise caused by mechanical systems. For this purpose, there are several materials available in the market.

    What is acoustic insulation?

    Soundproofing and acoustic insulation materials are used for both noise reduction and noise absorption. Insulation helps prevent airborne and structural sound transmission in a building. The market for acoustic insulation has skyrocketed over the last few years.

    According to Allied Market Research, the global acoustic insulation market is projected to reach $14.63 billion by 2022, growing at a CAGR of 5.9% during the period from 2014 to 2022. Driven by stringent noise pollution standards, rise in the construction industry, energy efficiency advantages offered by insulation materials, and surge in R&D to introduce more advanced soundproofing materials, the industry is expected to manifest significant growth in the coming future.

    Advent of novel insulating materials

    Schöck, the global leader in the construction industry, recently launched a new acoustic insulation solution, Tronsole. The solution is for all structural subsections on both straight and winding staircases. In addition, the solution consists of perfectly integrated impact soundproofing elements that unite dependable sound insulation with straightforward installation.

    Moreover, the solution offers unparalleled thermal performance for both standard and passive house construction. The company declared that the solution is completely supported by a variety of downloadable software and al BIM developments.

    In other news, Advanced Insulation also launched its Contraflex acoustic insulation jackets. The new product is said to be an adaptable solution that can protect personnel from high sound pressure levels. According to Advanced Insulation, this new solution could revolutionize the application process with its combination of mass-loaded barrier and absorbent material.

    With the new announcement, the Contraflex quickly become a trending topic in the oil and gas industry as those workers are frequently exposed to a variety of different mechanical noises such as pumps, turbines, and valves & pipes.

    There is no limit to innovative ideas. Scientists have discovered a particular shape that blocks all the sounds. A team at Boston University recently developed a 3D printing ring that makes the blasting sound from the speaker completely inaudible to the human ear. A few years ago, scientists proposed to use fibers from orange tree pruning as an acoustic insulator. A team of researchers at the Universitat Politècnica de València and the Universitat de Girona. The team has developed an insulator that proved to provide a 150% improvement in the acoustic insulation compared to conventional insulators.

    In today’s time, when noise pollution has become a pressing issue, incorporating soundproofing measures into design ensures the home’s peace and quiet. Instead of placing one earmuff on another, you can invest a few bucks and get yourself an acoustic insulation for your home.


  • Hear The Sound of Silence: Novel Acoustic Insulators Set to Make Your Home More Peaceful

    After spending a day listening to blaring horns or listening to someone’s head rock playlist, you want to come back to your peaceful and quiet home. However, once in a while you found yourself restless as some neighbor starts to drill holes in the wall and feel you should have thought about making your home soundproof.

    Acoustic design is a complex aspect of architecture. This includes controlling the noise that enters the home from outside as well as spaces between rooms or noise caused by mechanical systems. For this purpose, there are several materials available in the market.

    What is acoustic insulation?

    Soundproofing and acoustic insulation materials are used for both noise reduction and noise absorption. Insulation helps prevent airborne and structural sound transmission in a building. The market for acoustic insulation has skyrocketed over the last few years.

    According to Allied Market Research, the global acoustic insulation market is projected to reach $14.63 billion by 2022, growing at a CAGR of 5.9% during the period from 2014 to 2022. Driven by stringent noise pollution standards, rise in the construction industry, energy efficiency advantages offered by insulation materials, and surge in R&D to introduce more advanced soundproofing materials, the industry is expected to manifest significant growth in the coming future.

    Advent of novel insulating materials

    Schöck, the global leader in the construction industry, recently launched a new acoustic insulation solution, Tronsole. The solution is for all structural subsections on both straight and winding staircases. In addition, the solution consists of perfectly integrated impact soundproofing elements that unite dependable sound insulation with straightforward installation.

    Moreover, the solution offers unparalleled thermal performance for both standard and passive house construction. The company declared that the solution is completely supported by a variety of downloadable software and al BIM developments.

    In other news, Advanced Insulation also launched its Contraflex acoustic insulation jackets. The new product is said to be an adaptable solution that can protect personnel from high sound pressure levels. According to Advanced Insulation, this new solution could revolutionize the application process with its combination of mass-loaded barrier and absorbent material.

    With the new announcement, the Contraflex quickly become a trending topic in the oil and gas industry as those workers are frequently exposed to a variety of different mechanical noises such as pumps, turbines, and valves & pipes.

    There is no limit to innovative ideas. Scientists have discovered a particular shape that blocks all the sounds. A team at Boston University recently developed a 3D printing ring that makes the blasting sound from the speaker completely inaudible to the human ear. A few years ago, scientists proposed to use fibers from orange tree pruning as an acoustic insulator. A team of researchers at the Universitat Politècnica de València and the Universitat de Girona. The team has developed an insulator that proved to provide a 150% improvement in the acoustic insulation compared to conventional insulators.

    In today’s time, when noise pollution has become a pressing issue, incorporating soundproofing measures into design ensures the home’s peace and quiet. Instead of placing one earmuff on another, you can invest a few bucks and get yourself an acoustic insulation for your home.


  • Hear The Sound of Silence: Novel Acoustic Insulators Set to Make Your Home More Peaceful

    After spending a day listening to blaring horns or listening to someone’s head rock playlist, you want to come back to your peaceful and quiet home. However, once in a while you found yourself restless as some neighbor starts to drill holes in the wall and feel you should have thought about making your home soundproof.

    Acoustic design is a complex aspect of architecture. This includes controlling the noise that enters the home from outside as well as spaces between rooms or noise caused by mechanical systems. For this purpose, there are several materials available in the market.

    What is acoustic insulation?

    Soundproofing and acoustic insulation materials are used for both noise reduction and noise absorption. Insulation helps prevent airborne and structural sound transmission in a building. The market for acoustic insulation has skyrocketed over the last few years.

    According to Allied Market Research, the global acoustic insulation market is projected to reach $14.63 billion by 2022, growing at a CAGR of 5.9% during the period from 2014 to 2022. Driven by stringent noise pollution standards, rise in the construction industry, energy efficiency advantages offered by insulation materials, and surge in R&D to introduce more advanced soundproofing materials, the industry is expected to manifest significant growth in the coming future.

    Advent of novel insulating materials

    Schöck, the global leader in the construction industry, recently launched a new acoustic insulation solution, Tronsole. The solution is for all structural subsections on both straight and winding staircases. In addition, the solution consists of perfectly integrated impact soundproofing elements that unite dependable sound insulation with straightforward installation.

    Moreover, the solution offers unparalleled thermal performance for both standard and passive house construction. The company declared that the solution is completely supported by a variety of downloadable software and al BIM developments.

    In other news, Advanced Insulation also launched its Contraflex acoustic insulation jackets. The new product is said to be an adaptable solution that can protect personnel from high sound pressure levels. According to Advanced Insulation, this new solution could revolutionize the application process with its combination of mass-loaded barrier and absorbent material.

    With the new announcement, the Contraflex quickly become a trending topic in the oil and gas industry as those workers are frequently exposed to a variety of different mechanical noises such as pumps, turbines, and valves & pipes.

    There is no limit to innovative ideas. Scientists have discovered a particular shape that blocks all the sounds. A team at Boston University recently developed a 3D printing ring that makes the blasting sound from the speaker completely inaudible to the human ear. A few years ago, scientists proposed to use fibers from orange tree pruning as an acoustic insulator. A team of researchers at the Universitat Politècnica de València and the Universitat de Girona. The team has developed an insulator that proved to provide a 150% improvement in the acoustic insulation compared to conventional insulators.

    In today’s time, when noise pollution has become a pressing issue, incorporating soundproofing measures into design ensures the home’s peace and quiet. Instead of placing one earmuff on another, you can invest a few bucks and get yourself an acoustic insulation for your home.


  • Hear The Sound of Silence: Novel Acoustic Insulators Set to Make Your Home More Peaceful

    After spending a day listening to blaring horns or listening to someone’s head rock playlist, you want to come back to your peaceful and quiet home. However, once in a while you found yourself restless as some neighbor starts to drill holes in the wall and feel you should have thought about making your home soundproof.

    Acoustic design is a complex aspect of architecture. This includes controlling the noise that enters the home from outside as well as spaces between rooms or noise caused by mechanical systems. For this purpose, there are several materials available in the market.

    What is acoustic insulation?

    Soundproofing and acoustic insulation materials are used for both noise reduction and noise absorption. Insulation helps prevent airborne and structural sound transmission in a building. The market for acoustic insulation has skyrocketed over the last few years.

    According to Allied Market Research, the global acoustic insulation market is projected to reach $14.63 billion by 2022, growing at a CAGR of 5.9% during the period from 2014 to 2022. Driven by stringent noise pollution standards, rise in the construction industry, energy efficiency advantages offered by insulation materials, and surge in R&D to introduce more advanced soundproofing materials, the industry is expected to manifest significant growth in the coming future.

    Advent of novel insulating materials

    Schöck, the global leader in the construction industry, recently launched a new acoustic insulation solution, Tronsole. The solution is for all structural subsections on both straight and winding staircases. In addition, the solution consists of perfectly integrated impact soundproofing elements that unite dependable sound insulation with straightforward installation.

    Moreover, the solution offers unparalleled thermal performance for both standard and passive house construction. The company declared that the solution is completely supported by a variety of downloadable software and al BIM developments.

    In other news, Advanced Insulation also launched its Contraflex acoustic insulation jackets. The new product is said to be an adaptable solution that can protect personnel from high sound pressure levels. According to Advanced Insulation, this new solution could revolutionize the application process with its combination of mass-loaded barrier and absorbent material.

    With the new announcement, the Contraflex quickly become a trending topic in the oil and gas industry as those workers are frequently exposed to a variety of different mechanical noises such as pumps, turbines, and valves & pipes.

    There is no limit to innovative ideas. Scientists have discovered a particular shape that blocks all the sounds. A team at Boston University recently developed a 3D printing ring that makes the blasting sound from the speaker completely inaudible to the human ear. A few years ago, scientists proposed to use fibers from orange tree pruning as an acoustic insulator. A team of researchers at the Universitat Politècnica de València and the Universitat de Girona. The team has developed an insulator that proved to provide a 150% improvement in the acoustic insulation compared to conventional insulators.

    In today’s time, when noise pollution has become a pressing issue, incorporating soundproofing measures into design ensures the home’s peace and quiet. Instead of placing one earmuff on another, you can invest a few bucks and get yourself an acoustic insulation for your home.


  • What will be the future scenario of Fuel Cell Market?

    Global Fuel Cell market is expected to garner $8,643 Million by 2022, registering a CAGR of 17.36% during the period 2016 - 2022. In 2015, the proton exchange membrane fuel cells occupied two-fifths of the total share by volume.

    Strict governmental regulations, increase in distributed power systems, and high efficiency of fuel cells are the major driving forces that will escalate the demand for fuel cells with applications in automation and power generation setups. Unlike conventional power generation sources, fuel cells do not emit hazardous gases and pollution that is harmful to the environment. Also, depletion of natural resources, carbon emissions, and rising cost of fossil fuels is paving the way for alternate means of transportation and power generation. Therefore, both public and private sectors have taken continuous efforts to reduce carbon emissions and save fuel. Strict government regulations related to CO2 & SO2 emissions is driving the fuel cell market. In addition, the Go Green revolution is also driving the growth of the market. Stringent government regulations related to carbon emissions are expected to propel the growth of the fuel cell market during the forecast period. Furthermore, stationary fuel cells can be used as a means of distributed power generation, which offers various advantages. Power is generated near the consumer area and so the loss of energy in transmission is extremely small in comparison with the losses seen in large and centralized generation systems.

    Favorable regulations by the governing bodies in developed economies and eco-friendly objectives to eliminate emission rates propels the market demand for hydrogen power plants in the forecast period. Rising emphasis by governments in matured economies such as Europe and U.S and adoption to technological advancements to replace electric grids is more likely to foster the market growth in the estimated time span.

    Using fuel cells can minimize the dependency on non-renewable energy sources such as coal, natural gas and petrochemical derivatives. Fuel cells employ electrochemical process for generation of energy and result in less combustion of fuels. Hybrid systems using conventional engines and fuel cells are deployed in most of electric vehicles.

    The number of hydrogen refueling stations (HRS) open to the public or fleets, worldwide, is increasing. The number of planned HRS over the short term, and till 2030, is also rising. Therefore, the rapid growth in HRS is expected to drive the demand for fuel cell vehicles, which is likely to further supplement the market growth during the forecast period.

    Lack of fuel cell infrastructure coupled with high cost of the catalyst that is required for catalytic reactions in fuel cells are restraining the growth of the market. However, new technological advancement in the fuel cell technology leads to the development of new types of fuel cell such as Solid oxide fuel cell (SOFC), Polymer exchange membrane fuel cell (PEMFC), Molten carbonate fuel cell (MCFC), Phosphoric acid fuel cell (PAFC) and others, which help in reducing the cost of the fuel cell.


  • What will be the future scenario of Fuel Cell Market?

    Global Fuel Cell market is expected to garner $8,643 Million by 2022, registering a CAGR of 17.36% during the period 2016 - 2022. In 2015, the proton exchange membrane fuel cells occupied two-fifths of the total share by volume.

    Strict governmental regulations, increase in distributed power systems, and high efficiency of fuel cells are the major driving forces that will escalate the demand for fuel cells with applications in automation and power generation setups. Unlike conventional power generation sources, fuel cells do not emit hazardous gases and pollution that is harmful to the environment. Also, depletion of natural resources, carbon emissions, and rising cost of fossil fuels is paving the way for alternate means of transportation and power generation. Therefore, both public and private sectors have taken continuous efforts to reduce carbon emissions and save fuel. Strict government regulations related to CO2 & SO2 emissions is driving the fuel cell market. In addition, the Go Green revolution is also driving the growth of the market. Stringent government regulations related to carbon emissions are expected to propel the growth of the fuel cell market during the forecast period. Furthermore, stationary fuel cells can be used as a means of distributed power generation, which offers various advantages. Power is generated near the consumer area and so the loss of energy in transmission is extremely small in comparison with the losses seen in large and centralized generation systems.

    Favorable regulations by the governing bodies in developed economies and eco-friendly objectives to eliminate emission rates propels the market demand for hydrogen power plants in the forecast period. Rising emphasis by governments in matured economies such as Europe and U.S and adoption to technological advancements to replace electric grids is more likely to foster the market growth in the estimated time span.

    Using fuel cells can minimize the dependency on non-renewable energy sources such as coal, natural gas and petrochemical derivatives. Fuel cells employ electrochemical process for generation of energy and result in less combustion of fuels. Hybrid systems using conventional engines and fuel cells are deployed in most of electric vehicles.

    The number of hydrogen refueling stations (HRS) open to the public or fleets, worldwide, is increasing. The number of planned HRS over the short term, and till 2030, is also rising. Therefore, the rapid growth in HRS is expected to drive the demand for fuel cell vehicles, which is likely to further supplement the market growth during the forecast period.

    Lack of fuel cell infrastructure coupled with high cost of the catalyst that is required for catalytic reactions in fuel cells are restraining the growth of the market. However, new technological advancement in the fuel cell technology leads to the development of new types of fuel cell such as Solid oxide fuel cell (SOFC), Polymer exchange membrane fuel cell (PEMFC), Molten carbonate fuel cell (MCFC), Phosphoric acid fuel cell (PAFC) and others, which help in reducing the cost of the fuel cell.


  • How the Virtual Power Plant Market Next Generation Technological Advancements

    High growth in the global VPP market in the coming future is expected to be driven by rising awareness among governments of various countries about the need to mitigate power outages while also making attempts to preserve the environment. The growing awareness in the market concerning the opportunities in renewable energy and battery storage systems has stimulated large-scale investments in the sector over the last decade.

    A virtual power plant is a network of medium-scale, decentralized power generating units same as Combined Heat and Power (CHP) units, solar plants and wind farms as well as flexible power consumers and batteries. The unified units are dispatched through the principal control room of the virtual power plant but stays self-governing in their process and possession. The prime objective of the virtual power plant is to release the load on the grid by rapidly dispensing the power produced by the individual units during the peak load. Additionally, the combined power generation and power consumption of the interacted units in the virtual power plant is merchandised on the energy interchange platforms

    Global virtual power plant market size was valued at $762 million in 2016, and is expected to reach at $4,587 million by 2023, registering a CAGR of 25.9% from 2017 to 2023. North America is expected to dominate the market and is expected to maintain this trend throughout the forecast period.

    Download the Sample PDF @ https://www.alliedmarketresearch.com/request-sample/4154

    The power industry has emerged as the torchbearer of growth across local & national territories. Need for power distribution has led to the induction of improved systems across the industry. Henceforth, the total volume of revenues within the global virtual power plant market is slated to increase in the years to follow. The need for increased flexibility and efficiency across the power sector shall usher an era of growth within the global virtual power plant market. There is humongous demand for power across the residential, commercial, and industrial sectors. This factor has played a pivotal role in induction of virtual power plants across several regions.

    Virtual power plant is an aggregation of decentralized generators with the outline to integrate different distributed energy sources such as biomass plants, biogas block heating plants, wind turbines, and hydroelectric plants.

    Rise in demand for renewable energy in power generation sector, changes in dynamic of power grids from centralized to distributed, and moderating costs and easy accessibility of energy storage drive the growth of the virtual power plant market. However, health concerns over high frequency human exposure of electromagnetic and radio waves hamper the potential of the market for different end users.

    The industrial segment accounted for around half the share of global market in 2016 and is expected to maintain its dominance during the forecast period, owing to energy efficiency of VPPs. However, residential end users are also expected to grow with a high CAGR due to rise in demand for renewable energy.

    Key Findings of The Study 

    • The industrial segment is expected to grow at a CAGR of 26.0% during the forecast period.
    • In Europe, Germany is estimated to grow at the highest CAGR of 26.0%, in terms of value.
    • Demand response technology segment occupied more than three-fifths of the global virtual power plant market share in 2016.
    • The U.S. accounted for over half of the global market in 2016, and is expected to continue its dominance till 2022.

    For Purchase Enquiry@ https://www.alliedmarketresearch.com/purchase-enquiry/4154

    In 2016, North America and Europe collectively accounted for more than four-fifths share of the global market, while Asia-Pacific is expected to grow at a higher rate during the forecast period. Furthermore, high demand from the emerging countries, such as China, Australia, and South Korea, is estimated to drive the market growth.

    The major companies profiled in the report include, ABB Ltd., AGL Energy, AutoGrid Systems, Inc., Comverge, Inc., Enbala Power Networks, EnerNOC, Inc., General Electric Company, Siemens AG, Schneider Electric SE, Limejump Ltd., and others.

     


  • How the Virtual Power Plant Market Next Generation Technological Advancements

    High growth in the global VPP market in the coming future is expected to be driven by rising awareness among governments of various countries about the need to mitigate power outages while also making attempts to preserve the environment. The growing awareness in the market concerning the opportunities in renewable energy and battery storage systems has stimulated large-scale investments in the sector over the last decade.

    A virtual power plant is a network of medium-scale, decentralized power generating units same as Combined Heat and Power (CHP) units, solar plants and wind farms as well as flexible power consumers and batteries. The unified units are dispatched through the principal control room of the virtual power plant but stays self-governing in their process and possession. The prime objective of the virtual power plant is to release the load on the grid by rapidly dispensing the power produced by the individual units during the peak load. Additionally, the combined power generation and power consumption of the interacted units in the virtual power plant is merchandised on the energy interchange platforms

    Global virtual power plant market size was valued at $762 million in 2016, and is expected to reach at $4,587 million by 2023, registering a CAGR of 25.9% from 2017 to 2023. North America is expected to dominate the market and is expected to maintain this trend throughout the forecast period.

    Download the Sample PDF @ https://www.alliedmarketresearch.com/request-sample/4154

    The power industry has emerged as the torchbearer of growth across local & national territories. Need for power distribution has led to the induction of improved systems across the industry. Henceforth, the total volume of revenues within the global virtual power plant market is slated to increase in the years to follow. The need for increased flexibility and efficiency across the power sector shall usher an era of growth within the global virtual power plant market. There is humongous demand for power across the residential, commercial, and industrial sectors. This factor has played a pivotal role in induction of virtual power plants across several regions.

    Virtual power plant is an aggregation of decentralized generators with the outline to integrate different distributed energy sources such as biomass plants, biogas block heating plants, wind turbines, and hydroelectric plants.

    Rise in demand for renewable energy in power generation sector, changes in dynamic of power grids from centralized to distributed, and moderating costs and easy accessibility of energy storage drive the growth of the virtual power plant market. However, health concerns over high frequency human exposure of electromagnetic and radio waves hamper the potential of the market for different end users.

    The industrial segment accounted for around half the share of global market in 2016 and is expected to maintain its dominance during the forecast period, owing to energy efficiency of VPPs. However, residential end users are also expected to grow with a high CAGR due to rise in demand for renewable energy.

    Key Findings of The Study 

    • The industrial segment is expected to grow at a CAGR of 26.0% during the forecast period.
    • In Europe, Germany is estimated to grow at the highest CAGR of 26.0%, in terms of value.
    • Demand response technology segment occupied more than three-fifths of the global virtual power plant market share in 2016.
    • The U.S. accounted for over half of the global market in 2016, and is expected to continue its dominance till 2022.

    For Purchase Enquiry@ https://www.alliedmarketresearch.com/purchase-enquiry/4154

    In 2016, North America and Europe collectively accounted for more than four-fifths share of the global market, while Asia-Pacific is expected to grow at a higher rate during the forecast period. Furthermore, high demand from the emerging countries, such as China, Australia, and South Korea, is estimated to drive the market growth.

    The major companies profiled in the report include, ABB Ltd., AGL Energy, AutoGrid Systems, Inc., Comverge, Inc., Enbala Power Networks, EnerNOC, Inc., General Electric Company, Siemens AG, Schneider Electric SE, Limejump Ltd., and others.

     


  • How the Virtual Power Plant Market Next Generation Technological Advancements

    High growth in the global VPP market in the coming future is expected to be driven by rising awareness among governments of various countries about the need to mitigate power outages while also making attempts to preserve the environment. The growing awareness in the market concerning the opportunities in renewable energy and battery storage systems has stimulated large-scale investments in the sector over the last decade.

    A virtual power plant is a network of medium-scale, decentralized power generating units same as Combined Heat and Power (CHP) units, solar plants and wind farms as well as flexible power consumers and batteries. The unified units are dispatched through the principal control room of the virtual power plant but stays self-governing in their process and possession. The prime objective of the virtual power plant is to release the load on the grid by rapidly dispensing the power produced by the individual units during the peak load. Additionally, the combined power generation and power consumption of the interacted units in the virtual power plant is merchandised on the energy interchange platforms

    Global virtual power plant market size was valued at $762 million in 2016, and is expected to reach at $4,587 million by 2023, registering a CAGR of 25.9% from 2017 to 2023. North America is expected to dominate the market and is expected to maintain this trend throughout the forecast period.

    Download the Sample PDF @ https://www.alliedmarketresearch.com/request-sample/4154

    The power industry has emerged as the torchbearer of growth across local & national territories. Need for power distribution has led to the induction of improved systems across the industry. Henceforth, the total volume of revenues within the global virtual power plant market is slated to increase in the years to follow. The need for increased flexibility and efficiency across the power sector shall usher an era of growth within the global virtual power plant market. There is humongous demand for power across the residential, commercial, and industrial sectors. This factor has played a pivotal role in induction of virtual power plants across several regions.

    Virtual power plant is an aggregation of decentralized generators with the outline to integrate different distributed energy sources such as biomass plants, biogas block heating plants, wind turbines, and hydroelectric plants.

    Rise in demand for renewable energy in power generation sector, changes in dynamic of power grids from centralized to distributed, and moderating costs and easy accessibility of energy storage drive the growth of the virtual power plant market. However, health concerns over high frequency human exposure of electromagnetic and radio waves hamper the potential of the market for different end users.

    The industrial segment accounted for around half the share of global market in 2016 and is expected to maintain its dominance during the forecast period, owing to energy efficiency of VPPs. However, residential end users are also expected to grow with a high CAGR due to rise in demand for renewable energy.

    Key Findings of The Study 

    • The industrial segment is expected to grow at a CAGR of 26.0% during the forecast period.
    • In Europe, Germany is estimated to grow at the highest CAGR of 26.0%, in terms of value.
    • Demand response technology segment occupied more than three-fifths of the global virtual power plant market share in 2016.
    • The U.S. accounted for over half of the global market in 2016, and is expected to continue its dominance till 2022.

    For Purchase Enquiry@ https://www.alliedmarketresearch.com/purchase-enquiry/4154

    In 2016, North America and Europe collectively accounted for more than four-fifths share of the global market, while Asia-Pacific is expected to grow at a higher rate during the forecast period. Furthermore, high demand from the emerging countries, such as China, Australia, and South Korea, is estimated to drive the market growth.

    The major companies profiled in the report include, ABB Ltd., AGL Energy, AutoGrid Systems, Inc., Comverge, Inc., Enbala Power Networks, EnerNOC, Inc., General Electric Company, Siemens AG, Schneider Electric SE, Limejump Ltd., and others.

     


  • How the Virtual Power Plant Market Next Generation Technological Advancements

    High growth in the global VPP market in the coming future is expected to be driven by rising awareness among governments of various countries about the need to mitigate power outages while also making attempts to preserve the environment. The growing awareness in the market concerning the opportunities in renewable energy and battery storage systems has stimulated large-scale investments in the sector over the last decade.

    A virtual power plant is a network of medium-scale, decentralized power generating units same as Combined Heat and Power (CHP) units, solar plants and wind farms as well as flexible power consumers and batteries. The unified units are dispatched through the principal control room of the virtual power plant but stays self-governing in their process and possession. The prime objective of the virtual power plant is to release the load on the grid by rapidly dispensing the power produced by the individual units during the peak load. Additionally, the combined power generation and power consumption of the interacted units in the virtual power plant is merchandised on the energy interchange platforms

    Global virtual power plant market size was valued at $762 million in 2016, and is expected to reach at $4,587 million by 2023, registering a CAGR of 25.9% from 2017 to 2023. North America is expected to dominate the market and is expected to maintain this trend throughout the forecast period.

    Download the Sample PDF @ https://www.alliedmarketresearch.com/request-sample/4154

    The power industry has emerged as the torchbearer of growth across local & national territories. Need for power distribution has led to the induction of improved systems across the industry. Henceforth, the total volume of revenues within the global virtual power plant market is slated to increase in the years to follow. The need for increased flexibility and efficiency across the power sector shall usher an era of growth within the global virtual power plant market. There is humongous demand for power across the residential, commercial, and industrial sectors. This factor has played a pivotal role in induction of virtual power plants across several regions.

    Virtual power plant is an aggregation of decentralized generators with the outline to integrate different distributed energy sources such as biomass plants, biogas block heating plants, wind turbines, and hydroelectric plants.

    Rise in demand for renewable energy in power generation sector, changes in dynamic of power grids from centralized to distributed, and moderating costs and easy accessibility of energy storage drive the growth of the virtual power plant market. However, health concerns over high frequency human exposure of electromagnetic and radio waves hamper the potential of the market for different end users.

    The industrial segment accounted for around half the share of global market in 2016 and is expected to maintain its dominance during the forecast period, owing to energy efficiency of VPPs. However, residential end users are also expected to grow with a high CAGR due to rise in demand for renewable energy.

    Key Findings of The Study 

    • The industrial segment is expected to grow at a CAGR of 26.0% during the forecast period.
    • In Europe, Germany is estimated to grow at the highest CAGR of 26.0%, in terms of value.
    • Demand response technology segment occupied more than three-fifths of the global virtual power plant market share in 2016.
    • The U.S. accounted for over half of the global market in 2016, and is expected to continue its dominance till 2022.

    For Purchase Enquiry@ https://www.alliedmarketresearch.com/purchase-enquiry/4154

    In 2016, North America and Europe collectively accounted for more than four-fifths share of the global market, while Asia-Pacific is expected to grow at a higher rate during the forecast period. Furthermore, high demand from the emerging countries, such as China, Australia, and South Korea, is estimated to drive the market growth.

    The major companies profiled in the report include, ABB Ltd., AGL Energy, AutoGrid Systems, Inc., Comverge, Inc., Enbala Power Networks, EnerNOC, Inc., General Electric Company, Siemens AG, Schneider Electric SE, Limejump Ltd., and others.

     


  • How the Virtual Power Plant Market Next Generation Technological Advancements

    High growth in the global VPP market in the coming future is expected to be driven by rising awareness among governments of various countries about the need to mitigate power outages while also making attempts to preserve the environment. The growing awareness in the market concerning the opportunities in renewable energy and battery storage systems has stimulated large-scale investments in the sector over the last decade.

    A virtual power plant is a network of medium-scale, decentralized power generating units same as Combined Heat and Power (CHP) units, solar plants and wind farms as well as flexible power consumers and batteries. The unified units are dispatched through the principal control room of the virtual power plant but stays self-governing in their process and possession. The prime objective of the virtual power plant is to release the load on the grid by rapidly dispensing the power produced by the individual units during the peak load. Additionally, the combined power generation and power consumption of the interacted units in the virtual power plant is merchandised on the energy interchange platforms

    Global virtual power plant market size was valued at $762 million in 2016, and is expected to reach at $4,587 million by 2023, registering a CAGR of 25.9% from 2017 to 2023. North America is expected to dominate the market and is expected to maintain this trend throughout the forecast period.

    Download the Sample PDF @ https://www.alliedmarketresearch.com/request-sample/4154

    The power industry has emerged as the torchbearer of growth across local & national territories. Need for power distribution has led to the induction of improved systems across the industry. Henceforth, the total volume of revenues within the global virtual power plant market is slated to increase in the years to follow. The need for increased flexibility and efficiency across the power sector shall usher an era of growth within the global virtual power plant market. There is humongous demand for power across the residential, commercial, and industrial sectors. This factor has played a pivotal role in induction of virtual power plants across several regions.

    Virtual power plant is an aggregation of decentralized generators with the outline to integrate different distributed energy sources such as biomass plants, biogas block heating plants, wind turbines, and hydroelectric plants.

    Rise in demand for renewable energy in power generation sector, changes in dynamic of power grids from centralized to distributed, and moderating costs and easy accessibility of energy storage drive the growth of the virtual power plant market. However, health concerns over high frequency human exposure of electromagnetic and radio waves hamper the potential of the market for different end users.

    The industrial segment accounted for around half the share of global market in 2016 and is expected to maintain its dominance during the forecast period, owing to energy efficiency of VPPs. However, residential end users are also expected to grow with a high CAGR due to rise in demand for renewable energy.

    Key Findings of The Study 

    • The industrial segment is expected to grow at a CAGR of 26.0% during the forecast period.
    • In Europe, Germany is estimated to grow at the highest CAGR of 26.0%, in terms of value.
    • Demand response technology segment occupied more than three-fifths of the global virtual power plant market share in 2016.
    • The U.S. accounted for over half of the global market in 2016, and is expected to continue its dominance till 2022.

    For Purchase Enquiry@ https://www.alliedmarketresearch.com/purchase-enquiry/4154

    In 2016, North America and Europe collectively accounted for more than four-fifths share of the global market, while Asia-Pacific is expected to grow at a higher rate during the forecast period. Furthermore, high demand from the emerging countries, such as China, Australia, and South Korea, is estimated to drive the market growth.

    The major companies profiled in the report include, ABB Ltd., AGL Energy, AutoGrid Systems, Inc., Comverge, Inc., Enbala Power Networks, EnerNOC, Inc., General Electric Company, Siemens AG, Schneider Electric SE, Limejump Ltd., and others.

     


  • How the Virtual Power Plant Market Next Generation Technological Advancements

    High growth in the global VPP market in the coming future is expected to be driven by rising awareness among governments of various countries about the need to mitigate power outages while also making attempts to preserve the environment. The growing awareness in the market concerning the opportunities in renewable energy and battery storage systems has stimulated large-scale investments in the sector over the last decade.

    A virtual power plant is a network of medium-scale, decentralized power generating units same as Combined Heat and Power (CHP) units, solar plants and wind farms as well as flexible power consumers and batteries. The unified units are dispatched through the principal control room of the virtual power plant but stays self-governing in their process and possession. The prime objective of the virtual power plant is to release the load on the grid by rapidly dispensing the power produced by the individual units during the peak load. Additionally, the combined power generation and power consumption of the interacted units in the virtual power plant is merchandised on the energy interchange platforms

    Global virtual power plant market size was valued at $762 million in 2016, and is expected to reach at $4,587 million by 2023, registering a CAGR of 25.9% from 2017 to 2023. North America is expected to dominate the market and is expected to maintain this trend throughout the forecast period.

    Download the Sample PDF @ https://www.alliedmarketresearch.com/request-sample/4154

    The power industry has emerged as the torchbearer of growth across local & national territories. Need for power distribution has led to the induction of improved systems across the industry. Henceforth, the total volume of revenues within the global virtual power plant market is slated to increase in the years to follow. The need for increased flexibility and efficiency across the power sector shall usher an era of growth within the global virtual power plant market. There is humongous demand for power across the residential, commercial, and industrial sectors. This factor has played a pivotal role in induction of virtual power plants across several regions.

    Virtual power plant is an aggregation of decentralized generators with the outline to integrate different distributed energy sources such as biomass plants, biogas block heating plants, wind turbines, and hydroelectric plants.

    Rise in demand for renewable energy in power generation sector, changes in dynamic of power grids from centralized to distributed, and moderating costs and easy accessibility of energy storage drive the growth of the virtual power plant market. However, health concerns over high frequency human exposure of electromagnetic and radio waves hamper the potential of the market for different end users.

    The industrial segment accounted for around half the share of global market in 2016 and is expected to maintain its dominance during the forecast period, owing to energy efficiency of VPPs. However, residential end users are also expected to grow with a high CAGR due to rise in demand for renewable energy.

    Key Findings of The Study 

    • The industrial segment is expected to grow at a CAGR of 26.0% during the forecast period.
    • In Europe, Germany is estimated to grow at the highest CAGR of 26.0%, in terms of value.
    • Demand response technology segment occupied more than three-fifths of the global virtual power plant market share in 2016.
    • The U.S. accounted for over half of the global market in 2016, and is expected to continue its dominance till 2022.

    For Purchase Enquiry@ https://www.alliedmarketresearch.com/purchase-enquiry/4154

    In 2016, North America and Europe collectively accounted for more than four-fifths share of the global market, while Asia-Pacific is expected to grow at a higher rate during the forecast period. Furthermore, high demand from the emerging countries, such as China, Australia, and South Korea, is estimated to drive the market growth.

    The major companies profiled in the report include, ABB Ltd., AGL Energy, AutoGrid Systems, Inc., Comverge, Inc., Enbala Power Networks, EnerNOC, Inc., General Electric Company, Siemens AG, Schneider Electric SE, Limejump Ltd., and others.

     


  • How the Virtual Power Plant Market Next Generation Technological Advancements

    High growth in the global VPP market in the coming future is expected to be driven by rising awareness among governments of various countries about the need to mitigate power outages while also making attempts to preserve the environment. The growing awareness in the market concerning the opportunities in renewable energy and battery storage systems has stimulated large-scale investments in the sector over the last decade.

    A virtual power plant is a network of medium-scale, decentralized power generating units same as Combined Heat and Power (CHP) units, solar plants and wind farms as well as flexible power consumers and batteries. The unified units are dispatched through the principal control room of the virtual power plant but stays self-governing in their process and possession. The prime objective of the virtual power plant is to release the load on the grid by rapidly dispensing the power produced by the individual units during the peak load. Additionally, the combined power generation and power consumption of the interacted units in the virtual power plant is merchandised on the energy interchange platforms

    Global virtual power plant market size was valued at $762 million in 2016, and is expected to reach at $4,587 million by 2023, registering a CAGR of 25.9% from 2017 to 2023. North America is expected to dominate the market and is expected to maintain this trend throughout the forecast period.

    Download the Sample PDF @ https://www.alliedmarketresearch.com/request-sample/4154

    The power industry has emerged as the torchbearer of growth across local & national territories. Need for power distribution has led to the induction of improved systems across the industry. Henceforth, the total volume of revenues within the global virtual power plant market is slated to increase in the years to follow. The need for increased flexibility and efficiency across the power sector shall usher an era of growth within the global virtual power plant market. There is humongous demand for power across the residential, commercial, and industrial sectors. This factor has played a pivotal role in induction of virtual power plants across several regions.

    Virtual power plant is an aggregation of decentralized generators with the outline to integrate different distributed energy sources such as biomass plants, biogas block heating plants, wind turbines, and hydroelectric plants.

    Rise in demand for renewable energy in power generation sector, changes in dynamic of power grids from centralized to distributed, and moderating costs and easy accessibility of energy storage drive the growth of the virtual power plant market. However, health concerns over high frequency human exposure of electromagnetic and radio waves hamper the potential of the market for different end users.

    The industrial segment accounted for around half the share of global market in 2016 and is expected to maintain its dominance during the forecast period, owing to energy efficiency of VPPs. However, residential end users are also expected to grow with a high CAGR due to rise in demand for renewable energy.

    Key Findings of The Study 

    • The industrial segment is expected to grow at a CAGR of 26.0% during the forecast period.
    • In Europe, Germany is estimated to grow at the highest CAGR of 26.0%, in terms of value.
    • Demand response technology segment occupied more than three-fifths of the global virtual power plant market share in 2016.
    • The U.S. accounted for over half of the global market in 2016, and is expected to continue its dominance till 2022.

    For Purchase Enquiry@ https://www.alliedmarketresearch.com/purchase-enquiry/4154

    In 2016, North America and Europe collectively accounted for more than four-fifths share of the global market, while Asia-Pacific is expected to grow at a higher rate during the forecast period. Furthermore, high demand from the emerging countries, such as China, Australia, and South Korea, is estimated to drive the market growth.

    The major companies profiled in the report include, ABB Ltd., AGL Energy, AutoGrid Systems, Inc., Comverge, Inc., Enbala Power Networks, EnerNOC, Inc., General Electric Company, Siemens AG, Schneider Electric SE, Limejump Ltd., and others.

     


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