Showing posts with label market dynamics. Show all posts
Showing posts with label market dynamics. Show all posts

Vapor Deposition Market Will Touch USD 85.1 Billion in 2030

The vapor deposition market was USD 44.4 billion in 2023, which will increase to USD 85.1 billion, advancing at a 9.9% CAGR, by 2030.

This can be mainly because of the developments of the electronics & solar power sectors and the mounting need for semiconductors in vehicles. Furthermore, the rising requirement for medical devices, the growing LED device sector, and different environmental rules boost this industry.

Moreover, the growing semiconductor sector is also a key driver for the industry expansion. Semiconductors are essential in nearly every sector, including automotive, consumer electronics, and medical equipment, assisting realize the ideas of a smart city.

The chemical deposition category, based on process, led the industry in 2023, with a 70% share, and it will remain leading throughout this decade. This can be because of the swift advancement in the chemical vapor deposition technology, which boosts its acceptance across different applications. 

The equipment & film coating category, based on application, was the largest contributor to the vapor deposition market in 2023, with a 30% share. Moreover, the category will remain the largest throughout this decade. This can be primarily because of the surging need for finishing on semiconductor substrates. 

The electrical & electronics category, based on end user, accounted for the largest share of the industry in 2023, of 30%. Moreover, the category will further advance at a strong rate in the years to come. The largest share of the category is because of the increasing need for electronics and electrical components across different sectors. 

APAC was the largest contributor to the industry in 2023, with approximately 60% share. Moreover, the regional industry will further advance at a strong rate in the years to come. This can be because the region has a widespread manufacturing capacity for automotive as well as automotive parts, solar PV modules, and semiconductors. 

Furthermore, the rising pace of growth in the electrical & electronics sector in APAC particularly displays and microelectronics of TVs, computers, and smartphones, boosted the expansion.

North America will advance at the fastest rate in the years to come, primarily because of the constant industrialization in this region. In addition, governments in both Canada and the U.S. are taking initiatives to boost semiconductor production in this region.

With the rising requirement for semiconductors in automobiles, the vapor deposition industry will continue to grow in the years to come.


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Adaptive Cruise Control Will Reach USD 53.1 Billion By 2030

In 2023, the market for adaptive cruise control is estimated at USD 16.4 billion and will increase to USD 53.1 billion by 2030 with a growth rate of 18.5% over the period 2024 to 2030. This growth of the market can be credited to the rising requirement for autonomous cars due to safety concerns, continuous enhancements in sensor tech, and government rules motivating advanced driver assistance systems are the key market drivers.

Technical developments: The advances in lidar, camera, and radar tech open up the opportunity to grow high-end adaptive cruise control systems at a reasonable price. Such growth will additionally speed up the acceptance of adaptive cruise control in the coming few years.

Increasing government rules: Governments globally understand the vital role of ADAS features in public road safety and accept laws that need or indorse their use on new cars. Such rules are projected to surge the need for adaptive cruise control in the coming few years.

The addition of pioneering tech is a key trend in the sector targeting advancing safety, along with fuelling general system performance. Makers continued to add AI and ML algorithms to permit adaptive cruise control systems to adapt to numerous multifaceted driving patterns. Such growths were aimed at making adaptive cruise control more suitable in numerous road conditions and traffic conditions, contributing to a safer and smoother experience of driving.

On the basis of end-use, the OEMs category, generated the larger revenue share in the market. Probably, it is happening because of the fact that a number of adaptive cruise control systems that are integrated with regular automobile producers (OEMs) reached the market either as a standard or optional feature. 

The inclusion of adaptive cruise control under standard service calls shows its proliferation among car owners. Further, the obligation of the automotive sector to further safety and automation consequentially accords adaptive cruise control with its central place as a shaping force of automation nowadays. One element of progress, which is combined with the expansion of consumer interests, will create the system to accelerate the development of markets.

Based on application, the passenger cars category is the largest contributor to the market. This can be credited to the severe government guidelines to equip vehicles with driver assistance systems to advance vehicle security. Furthermore, the rising vehicle production throughout the globe is also a key factor for the largest share of this category.

North America is the largest contributor to the industry. This can be primarily because of the growing demand for commercials & luxury vehicles and strict government rules imposed to control motor accidents in the continent.

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Particle Counters Market Will Reach USD 1,069.6 Million by 2030

The projected value of the worldwide particle counters market will be approximately USD 549.1 million in 2023, with an anticipated growth to reach USD 1,069.6 million by 2030. This represents a compound annual growth rate (CAGR) of 10.2% over the period from 2024 to 2030.

The growth of end-use sectors, such as automotive, aerospace, energy, and oil & gas, has been eased by supportive funding conditions. Moreover, the growing acceptance of pioneering technologies in the industrial and healthcare industries is driving the industry. 

Additionally, the execution of severe governing strategies to guarantee the best quality of items, particularly food items, is a key reason for helping the particle counters industry expansion.

The particle counters market is expected to experience growth throughout the forecast period, driven by the enforcement of regulations aimed at enhancing air pollution monitoring and management by governmental bodies. Similarly, there is a rising trend of governments imposing stringent regulations to uphold water quality standards. This is a response to the noticeable deterioration in air and water quality, primarily attributed to the increasing levels of industrialization over the years.

In 2023, the airborne category held the larger share, of more than 70%, this can be credited to the substantial usage of airborne particle counters in an extensive variety of sectors, like electronics, pharmaceutical, and biotechnology. Additionally, within this category, portable counters are significantly utilized for air quality tracking. This is mainly because they offer reliable, user-friendly tech for real-time cleanroom particle counting. The confined display of the portable type permits workers to view the count without leaving the cleanroom, which gives an instant warning of the pollution risk. In-depth communication and info organization choices are also built into these systems.

Cleanroom panels are essential in industries where tiny particles can disrupt production processes, regulating factors like temperature, pressure, humidity, and contamination levels. Cleanrooms, which come in various sizes and complexities, are particularly critical in sectors 

like biotechnology and pharmaceuticals, where stringent controls are necessary. 

The quality of the final product is significantly influenced by the cleanroom environment. The widespread use of cleanrooms across industries underscores the importance of monitoring, leading to an increased demand for particle-counting devices to uphold sterility within these facilities.

Hence, the market for particle counters is growing with rapid industrialization and rising water and air pollution.

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Enactment of Strict Emission Regulations Driving Demand for Automotive Elastomers

The automotive elastomers market was USD 34.6 billion in 2023, and it will power at a compound annual growth rate of 5.7% by the end of this decade, to touch a value of USD 50.6 billion in 2030

The increasing consciousness of the numerous advantages of these materials, for example, noise and emission reduction, boost in performance, and safety enhancement will power the requirement for them.

Based on type, the thermoset elastomers category is the leader of the industry, and it will also continue like this in the years to come as well. 

The tire category has the largest share, and it will also continue like this in the years to come as well. This would be mostly because of the use of elastomers in tire making to advance the performance considerably. This is mostly because the adding of intermediates reimbursements the chemical structure of rubber by providing reliable seals, elasticity, and toughness.

The APAC automotive elastomers market is the leader of the pack and it will also continue like this in the future. The existence of key players, the availability of raw materials and labor at reduced costs, and the high acceptance of advanced technologies are driving the industry. South Korea, Japan, India, and China are not just the major automotive manufacturers in the region, but at a global level.

It is because of the growing per capita income all over the world, that the demand for automotive elastomers is on the rise. This trend will continue in the years to come as well.

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German Beauty and Personal Care Products Market Will Reach USD 22.7 Billion By 2030

In 2023, the German beauty and personal care products market was valued at around USD 20.6 billion. Projections suggest that by 2030, it is anticipated to grow to USD 22.7 billion, with a compound annual growth rate (CAGR) of 1.3% over the forecast period from 2024 to 2030.

This growth of the market can be credited to the increasing appearance realization, growing elderly populace, growing awareness about natural and chemical-free items, rising occurrence of skin illnesses, and rising personal care expenditure.



In 2023, based on type, the skincare category dominated the German beauty and personal care items industry with a share of 30%, and it is projected to endure being the largest during the projection period. This is primarily ascribed to the increasing millennial populace in the workforce, the growing need for such items from the fashion & entertainment sector, the increasing populace of appearance-conscious customers, and rising interest in self-care items and beauty routines.

Customers can also return and change the items if they do not like them; though, under precise terms & conditions. An extensive variety of items, special rebates on new launches, and cashback on online payment are some of the major services of online channels fuelling the development of this category in the nation.

Moreover, in recent years, e-commerce channels have altered the beauty sector. As of 2022, Germany had 66 million active internet operators, including approximately 88% of the women and 95% of the men in the whole nation. As e-commerce channels offer enormous discounts and a variety of exclusive offers, customers desire to shop online for branded beauty items.

This industry is extremely competitive, with companies spending heavily on research and development to come up with groundbreaking items. Businesses claim numerous of them to be sustainable, organic, and natural, to surge their usage at both online platforms and brick-and mortar stores. The majority of such launches have been an outcome of the gaining of small and developing businesses by those having been in operation for centuries.

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Rising Number of Smart Cities Boosts APAC Solar Street Lighting Market

 The APAC solar street lighting market was USD 2,315.9 million in 2023, which will rise to USD 6,691.2 million, advancing at a 16.4% CAGR, by 2030.

The growth is mainly because of the reducing costs of such solutions, the growing count of smart cities, and the increasing urbanization in emerging economies.


The centralized category, on the basis of structure type, led the industry. This can be because of the increasing on-grid based solar streetlight disposition that gets a constant electric source from a grid to fuel lights at a great illumination.

The standalone category, on the other hand, will advance at the highest rate, of 16.6%, in the coming years. Companies in this sector have been working on heat-resistant, off-grid standalone lighting solutions, which have resulted in the enhancement of the function of these lighting types, making them more accessible.

The solar panel category, based on component, was the largest contributor to the APAC solar street lighting market in 2023, with a 35% share. This can be because it is essential for the operation of entire street lighting via renewable energy. 

The new category, based on installation, will advance at the fastest rate, of 16.8%, in the years to come. This will be because of the rising government initiatives for LED light installation in this region, particularly in China and India.

The highways & roadways category, on the basis of application, led the industry in 2023, with a 25% share. This can be mainly because of the rising government emphasis on developing high-class infrastructure and the increasing placement of outdoor lighting on roadways and highways.

China led the industry, and it is likely to advance at a 17.0% compound annual growth rate, in the coming years. This can be mainly because of the continuing building of several highways, streets, flyovers, and airports; and the increasing urbanization.


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Gravity Energy Storage Market is Booming Due to Rising Adoption of EVs

The gravity energy storage market will generate USD 217.8 million by the end of 2023, which will power at a considerable rate of 77.9% in the years to come, touching USD 12,231.5 million by 2030. This will be because of the robust emphasis on renewable energy resources, acceptance of EVs require grid stability, and surge in the electricity cost.

The pumped hydro storage category will grow at a rate of 77.7% by the end of this decade. This method is favored attributable to its competence to store and release a huge quantity of power efficiently. 



These systems are extremely effective at balancing the electricity grid by offering fast responses when there is an increase in the demand for power. It is a proven and well-recognized tech for significant energy stowage and electricity generation. Hence, its competence, dependability, and lengthy operational history have made it a prevalent choice for the generation.

North America is the leader of the gravity energy storage market, followed by Europe and APAC, because of the beginning of more than a few gravity energy storage projects, tech readiness, high requirement, and supportive policies. Moreover, the acceptance of these methods is increasing because of a surge in the count of EVs and rise in the consciousness of the paybacks of renewable sources of energy.

It is because of the rise in adoption of electric vehicles al over the world, the demand for gravity energy storage solutions is on the rise. This trend will continue in the years to come as well.

The research offers the size of the gravity energy storage market for the period 2017–2030.

Market Segmentation by Type

  • Hydroelectric Dams
  • Pumped Hydro Storage
  • Others

Market Segmentation by Application

  • Electricity Generation
  • Grid Stabilization
  • Others

Market Segmentation by End Use

  • Residential
  • Commercial
  • Industrial
  • Utilities

Market Segmentation by Region

  • North America Gravity Energy Storage Market
    • By type
    • By application
    • By end use
    • By country – U.S. and Canada
  • Europe Gravity Energy Storage Market
    • By type
    • By application
    • By end use
    • By country – Germany, U.K., France, Italy, Spain, and Rest of Europe
  • Asia-Pacific (APAC) Gravity Energy Storage Market
    • By type
    • By application
    • By end use
    • By country – Japan, China, India, South Korea, Australia, and Rest of APAC
  • Latin America (LATAM) Gravity Energy Storage Market
    • By type
    • By application
    • By end use
    • By country – Brazil, Mexico, and Rest of LATAM
  • Middle East and Africa (MEA) Gravity Energy Storage Market
    • By type
    • By application
    • By end use
    • By country – Saudi Arabia, South Africa, U.A.E., and Rest of MEA
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All You Need to Know About Polymethyl Methacrylate

Polymethyl methacrylate is common for manufacturing plastic all over the globe.  It has a lot to do with its high transparency. 

The characteristics of PMMA are notable for the people, it is an extremely translucent, material offering high impact and ecological resistance, making it an outstanding substitute for glass in uses where shatter resistance is a favored trait. This is majorly used in windscreens, architectural applications, aquarium windows, electronics, and even medical implants.

Because of more than a few uses for PMMA, it is significant for product teams to fully comprehend the main features of this material to leverage its benefits.

Defining Polymethyl Methacrylate Acrylic?

PMMA is formed with the help of polymerization, which includes placing the methyl methacrylate monomers into a mold with a catalyzing agent. This lets PMMA to be formed into  more than a few shapes, ranging from large sheets and blocks to small pellets and granules.

 What are the Various Advantages?

A key advantage of PMMA is the scratch resistance. It is suitable to optical lenses and devices, as the material will splinter, shatter, or cause harm to skin or eyes if the lens break. Parts which are made from PC, in contrast, are more prone to scratching the longer they are put to use.

PMMA is additionally brittle than PC, as it remains stiff and cracks when impacted. While PMMA does offer some shatter resistance, PC can offer much better impact strength, and in some applications, these 2 qualities can be used. Display windows, might be crafted from an outer layer of scratch- and shatter-resistant PMMA and an innermost layer of a highly impact-resistant material like PC.

What is Polymethyl Methacrylate Resin

PMMA also offers a profitable alternative to PC when a given use would benefit from superior tensile strength, light transmissibility, surface polishability, and UV resistance. PC is a more expensive to manufacture with and is better suitable for applications that entail high impact strength and heat and chemical resistance.

PMMA is an extremely versatile thermoplastic resin renowned for being robust, lightweight, and cost-effective substitute for more than a few applications where glass may or else be used. Though, this weather-resistant material also occurs to be biocompatible, which is leading to its usage in a lot of medical devices as well. There is a plethora of reasons one may want to consider with the use of PMMA for your product, but eventually, it is up to a person to regulate which materials are best suitable for your parts, preferably with the help of a reliable manufacturing partner.

Coming to a Concrete Conclusion

It is because of the growing automotive industry with rising use of electric vehicles all over the world, and the growing demand for injection-molded plastics in the health care sector, the demand for polymethyl methacrylate is on the rise. The total demand for this will reach a value of USD 8,946.1 million by the end of this decade.


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Exploring the Classification of Biorefinery Systems

A biorefinery can be defined as a facility that incorporates biomass conversion procedures and equipment to generate power, chemicals, and fuels from forest, waste, and agriculture feedstock. 

By different numerous products, a biorefinery can take benefit of the accessibility of various biomass streams as well as process intermediates and enhance the value produced from the feedstock.

Process and Uses of Biorefinery

Bioproducts are formed by altering organic resources into chemicals to make products that are generally produced from different fossil fuels like petroleum. The biorefinery utilizes hemicellulose, lignin, and cellulose from forestry, municipal, and agricultural waste sources and utilizes them as feedstocks to produce different bio-products. 

Products comprise hydrogen, ethanol, carbon char (employed as an ecologically sound fertilizer as well as to eliminate impurities from industrial smokestacks), industrial glues, bio-oils, flavorings, and various other industrial chemicals.

These products are utilized in agricultural, transportation, energy production, textiles, pharmaceuticals, building products, paper, and bioplastics sectors. 

Classification of Biorefinery Systems

Biorefineries can be classified on the basis of 4 key features: 


1.     Platforms: Platforms refer to important intermediates between raw materials and final products. Key intermediates include:

 

·         Syngas from gasification.

·         Biogas from anaerobic digestion.

·         Hydrogen from steam reforming, water-gas shift reaction, and water electrolysis.

·         C5 sugars, like xylose, and arabinose, from hydrolysis of hemicellulose and food & feed side streams.

·         C6 sugars from hydrolysis of starch, sucrose, hemicellulose, and cellulose.

·         Liquid from pyrolysis (pyrolysis oil)

·         Lignin from lignocellulosic biomass processing.

 

2.    Products: Biorefineries can be assembled in 2 major categories as per the alteration of biomass in a non-energetic or energetic product. Products are further categorized into 2 types:

 

·         Material-driven biorefinery systems: In this, the key product is a bio-based product.

 

·         Energy-driven biorefinery systems: Whereas, in energy-driven biorefinery systems, the key product is a second energy carrier as power, heat, and biofuels.

 

3.    Feedstock: Dedicated feedstocks (Starch crops, marine biomass, sugar crops, lignocellulosic crops, grasses, oil-based crops); and residues (lignocellulosic residues, organic residues, oil-based residues, and more)

 

4.   Processes: Alteration procedure to make biomass into a final product:

 

·         Physical or Mechanical: The biomass components' chemical structure is preserved. This process comprises milling, pressing, distillation, and separation.

 

·         Biochemical: Processes under low pressure and temperature, using enzymes or microorganisms.

 

·         Chemical processes: The substrate suffers alteration due to an external chemical like hydrolysis, hydrogenation, transesterification, pulping, and oxidation.

 

·         Thermochemical: Severe conditions are applied to the feedstock (high temperature and high pressure, without or with catalyst).

What are the Benefits of Biorefineries?

 

·         Offers economic progression opportunities to both the forestry and agricultural sectors.

·         Helps to national energy requirements by delivering various fuels.

·         Creates its energy, cleanly. 

·         Employs municipal and local agricultural wastes, leading to fewer disposal issues.

·         Creates chemical commodities, bioproducts, and fuels in an ecologically sustainable means, for instance, decreasing greenhouse gas releases.  

·         Generates an economically competitive production procedure.

To Wrap it All Up

With the requirement for geopolitical energy security, rising energy independence, and pressure for environmental sustainability, the biorefinery industry will reach a value of USD 268.3 billion by the end of this decade.

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Isostearic Acid, A Lot More than the Raw Material for Cosmetics

A beautiful skin is loved by one and all. People do all the things to keep the skin glowing at all times. For this, various skin care products are used. Isostearic acid is a main ingredient in skin care formulations. Though it is synthetically derived, this mimics the configuration of natural skin lipids. With its 18-carbon and branched structure, this acid offers excellent binding and emulsifying abilities.

How it is Used in Skincare Cosmetics?

As an emulsifier, this acid lets the blending of water and oil phases to advance application and texture. It produces stable emulsions resisting separation, while providing a non-greasy feel. The subsequent formulations spread easily onto skin.

The binding properties of this acid also come good to thicken formulas for improved adherence. Upon application, lotions and creams resist running while providing a silky feel to the skin. The acid’s viscosity improving effects gives the desired consistency from rich butters to runny serums.

Furthermore, the acid bonds active ingredients to the surface of the skin. This improved delivery system makes the most of the infiltration and availability of key nutrients such as antioxidants, vitamins, and moisturizers. Locked-in hydration and anti-aging active agent treat skin more efficiently.

With humectant abilities, this acid entices and holds moisture in the skin. This brings about instant smoothing, decreasing fine lines. Long-standing hydration also averts dryness-induced changes that can aggravate visible signs of aging.

This acid also protects the skin from the rashness of the weather and environment. It also limits loss of water driving aging alterations. With multi-faceted protection and care, this acid endorses a healthy and youthful glow. 

This acid is mainly used as a raw material for cosmetics, but it is also used in, plastic processing, lubricating oil, lubricant and numerous lipids. The melting point of this acid is lower than that of stearic acid, and it performs well at a lower temperature. Its numerous lipids are resistant to alkali, and they can perform well when used in alkaline emulsification systems. 

Isostearic Acid Coming Good as an Industrial Lubricant

Its features also make it one of the striking additives in automotive lubricants. The lubricating properties of the acid also comes good for metalworking fluids and greases used for lubrication. It is also used as a softener for synthetic rubbers and plastics. The acid can help adjust the viscosity index of greasing oils. It acts as a lime soap dispersant detergents and soaps.

With its higher solubility, customizable formulability, and emollience, isostearic acid has more than a few applications in cosmetics, industrial lubricants and more. Its structure unlocks improved functional performance. As a plant-based specialty chemical, this allows the growth of maintainable and highly effective products.

The Final Few Words

It is because of the growing demand of cosmetic and personal care products, the demand for isostearic acid is on the rise. The total value of the industry will reach USD 463.2 million by the end of this decade.


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