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healthcare-market · 2 years ago

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Cell Culture Market : Technological Growth Map with an Impact-Analysis

Cell Culture Market: Introduction

According to the report, the global cell culture market was valued at US$ 10.5 Bn in 2020 and is projected to expand at a CAGR of 9% from 2021 to 2031. The global cell culture market is driven by development of new products, technological advancements, and increase in use of single-use bioprocessing systems during the forecast period. The cell culture market in Asia Pacific is anticipated to expand at the fastest CAGR during the forecast period due to high unmet clinical needs, improvements in the healthcare infrastructure, and increase in focus on research & development activities.

Rise in Demand and Approvals for Biosimilar Products & Other Biologic Therapeutics to Drive Market

Cell culture is one of the most important steps for the production of biosimilar antibodies, as cell culture helps increase efficiency & productivity and reduce the cost of manufacture. The increase in demand & approvals for biosimilars products and other biologic therapeutics for the treatment of chronic diseases in developed as well as developing countries has led to the demand for efficient and cost-effective products. This is expected to drive the global cell culture market during the forecast period.

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Moreover, rise in demand for cost-effective and highly efficient cell culture products such as bioreactors, media, reagents, and sera for the production of high-yield cell lines has led to a surge in the number of new product launches. This is likely to provide lucrative opportunities in the global cell culture market during the forecast period. Major manufactures strive to expand their product portfolio by launching new and advanced systems for large-scale production, which is cost-effective and has low risk of contamination.

For instance, in 2018, Merck launched capsule filters that are designed to decrease the risk of contamination in a bioreactor. These filters are used for the separation of mycoplasma and bacteria from cell culture media. However, ethical issues associated with the use of fetal bovine serum, stringent regulations, and high cost of infrastructure for cell culture are projected to hamper the growth of global cell culture market during the forecast period.

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Technological Advancements in Cell Culture Production Media & Instruments to Drive Demand for Protein-based Therapeutics

In terms of product, the global cell culture market has been classified into instruments, media, sera, and reagents. The instruments segment has been categorized into cell culture vessels (bioreactors), carbon dioxide incubators, biosafety cabinets, cryogenic tanks, and others. Technological advancements for improving the efficiency and reducing the risk of cross contamination are anticipated to propel the instruments segment during the forecast period.

The media segment has been split into chemically defined, classical media, protein free media, Lysogeny media, serum free media, and specialty media. The efficiency of different media used for cell culture production is expected to drive the media segment over the next few years.

The sera segment has been bifurcated into fetal bovine serum and others. Sera are used as cell culture supplements consisting of growth factors, nutrients, and other important trace elements. The reagents segment has been segregated into albumin, amino acid, attachment factors, growth factors & cytokines, protease inhibitor, thrombin, and others. Applications such as stem cell research have vast potential in future. Stem cell culture assists in standardization of drug production and enables production of a number of cell lines & related products.

Traditional pharmaceutical therapeutics help in treating only disease symptoms, whereas stem cell therapies assist in treating the cause of the disease. Hence, further research in the field of stem cell culture for development of drugs presents significant opportunities in the market in the near future.

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Increase in Usage of Cell Culture Products in Drug Development & Manufacturing to Propel Pharmaceutical Companies Segment

Based on end-user, the global cell culture market has been divided into biotechnology companies, pharmaceutical companies, academic institutes, and research institutes. The pharmaceutical companies segment dominated the global market in 2020, and the trend is anticipated to continue during the forecast period due to increase in usage of cell culture products in drug development and manufacturing. The biotechnology companies segment is expected to account for a significant market share by 2031. The growth of the segment can be attributed to increase in the number of biotechnology companies and rise in strategic collaborations among market players to expand global presence.

Asia Pacific to Dominate Global Market

In terms of region, the global cell culture market has been segmented into North America, Europe, Asia Pacific, Latin America, and Middle East & Africa. North America is anticipated to account for a major share of the global market during the forecast period, owing to the presence of key players, increase in research & development activities, and new drug approvals.

Shift in trend toward continuous processing is expected to drive the cell culture market in North America. The cell culture market in Asia Pacific is at a pivotal point. Increase in focus of key players on expansion in the region, large untapped population, and rise in awareness about healthcare augment the cell culture market in Asia Pacific. For instance, Thermo Fisher expanded its Fisher BioServices and cryogenic service capabilities in Japan.

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Thermo Fisher Scientific and Merck KGaA to Lead Global Market

Key players covered in this report are Sartorius AG, Thermo Fisher Scientific, Inc., Eppendorf AG, GE Healthcare, Corning Incorporated, Becton, Dickinson and Company, Merck KGaA, Lonza, VWR International, LLC, and PromoCell GmbH. Companies operating in the global cell culture market focus on strategic collaborations for developing new products in the emerging markets such as Asia Pacific and Latin America.

For instance, in May 2017, Merck announced the launch of EX-CELL Advanced HD perfusion medium, which helps increase the production yield and streamline the regulatory compliances.

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globalmarketsresearchreports · 2 years ago

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Global Cell Culture Consumables And Equipment Market Competitive Strategies and Forecasts to 2031

The Cell Culture Consumables And Equipment Global Market Report 2021-31 by The Business Research Company describes and explains the global cell culture consumables and equipment market and covers 2016 to 2021, termed the historic period, and 2022 to 2026, termed the forecast period, along with further forecasts for the period 2026-2031. The report evaluates the market across each region and for the major economies within each region.

The Cell Culture Consumables And Equipment Global Market Report 2022 covers cell culture consumables and equipment market drivers, cell culture consumables and equipment market trends, cell culture consumables and equipment market segments, cell culture consumables and equipment market growth rate, cell culture consumables and equipment market major players, and cell culture consumables and equipment market size.

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The cell culture consumables and equipment market report provides in-depth analysis of the impact of COVID-19 on the global cell culture consumables and equipment industry along with revised market numbers due to the effects of the coronavirus and the expected cell culture consumables and equipment market growth numbers for 2022-2031.

The global cell culture consumables and equipment market size is expected to grow from $9.86 billion in 2021 to $10.99 billion in 2022 at a compound annual growth rate (CAGR) of 11.5%. The global cell culture equipment market share is expected to grow to $16.05 billion in 2026 at a CAGR of 9.9%.

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Cell Culture Consumables And Equipment Global Market Report 2022 is the most comprehensive report available on this market and will help gain a truly global perspective as it covers 60 geographies. The chapter on the impact of COVID-19 gives valuable insights on supply chain disruptions, logistical challenges, and other economic implications of the virus on the market. The chapter also covers markets which have been positively affected by the pandemic.

TBRC’s report covers the cell culture consumables and equipment market segments- 1) By Product: Consumables, Instruments

2) By End-User: Industrial, Biotechnology, Agriculture, Others

3) By Application: Vaccination, Toxicity Testing, Cancer Research, Drug Screening and Development, Recombinant Products, Stem Cell Technology, Regenerative Medicine, Others

4) By Consumables: Media, Sera, Reagents

5) By Instruments: Cell Culture Vessels, Bioreactors, Biosafety Cabinets, Carbon Dioxide Incubators, Centrifuges

Table Of Contents

1. Executive Summary

2. Cell Culture Consumables And Equipment Market Characteristics

3. Cell Culture Consumables And Equipment Market Trends And Strategies

4. Impact Of COVID-19 On Cell Culture Consumables And Equipment

5. Cell Culture Consumables And Equipment Market Size And Growth

26. Africa Cell Culture Consumables And Equipment Market

27. Cell Culture Consumables And Equipment Market Competitive Landscape And Company Profiles

28. Key Mergers And Acquisitions In The Cell Culture Consumables And Equipment Market

29. Cell Culture Consumables And Equipment Market Future Outlook and Potential Analysis

30. Appendix

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healthcare-domain · 3 years ago

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#Live #Cell #Imaging Market : $2.8 Billion , Globally, By 2025 at 8.8% CAGR

Growing adoption of high-content screening techniques in drug discovery and rising incidence of cancer primarily drives the market for live cell imaging. The growth in research funding and rising government funding and investment in regenerative medicine research will also support the market growth in the coming years.

Currently, no effective treatment for COVID-19 is available in the form of vaccines or antiviral drugs, and patients are currently treated symptomatically. According to the WHO, there are 70 vaccine candidates under development, and three candidates are already being tested in human trials. At the forefront of the COVID-19 outbreak, many researchers worldwide are engaged in the viral research of SARS-CoV-2, the virus that causes COVID-19.

Live cell imaging systems, including advanced microscopy systems, help researchers investigate cellular behavior during viral research. Biomedical research requires the analysis of enormous amounts of data to develop vaccines. Therefore, major live cell imaging system providers, such as Leica Microsystems (Germany) and CytoSMART Technologies (Netherlands), have donated live cell imaging systems to assist COVID-19 researchers.

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Running live cell imaging experiments successfully can be a major challenge. The conditions under which cells are maintained under microscopes decide the success or failure of the experiment. Therefore, maintaining living cells on slides is the most crucial part of the experiment.

Additionally, maintaining a constant cellular environment is very important during the experiment; the cells should be grown in culture media in a carbon dioxide incubator. Temperature also plays a crucial role in maintaining cell viability in a culture. Hence, as the cell viability and cellular environment are dependent on several specific requirements, the chances of a live cell imaging experiment being unsuccessful are high.

Geographically, the global live cell imaging market is segmented into North America, Europe, the Asia Pacific, Latin America, and the Middle East & Africa. Asia Pacific is expected to show the highest growth rate during the forecast period.

#LIve #Cell #Imaging #Health

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elisamuel412-blog · 3 years ago

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fostermarketarch · 3 years ago

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Carbon Dioxide Incubators Market Set For Rapid Growth And Trend By 2025

The carbon dioxide incubators market was valued at US$ xx million in the year 2019. This market is estimated to be valued at US$ xx million in the year 2020, and it is expected to reach US$ xx million by the year 2025, with an estimated CAGR of 7.7% during the forecast period (2020-2025).

Carbon dioxide incubators are climate-controlled, sealed boxes that are used in the life sciences laboratories for growing biological cell cultures. These are needed to maintain same conditions prevailing inside the human body. Some of the key applications of carbon dioxide incubators include neuroscience, in vitro fertilization, cancer research, tissue engineering, and other mammalian cell research. Substantial adoption of in-vitro fertilization (IVF) techniques and initiatives undertaken by the government to encourage in-vitro fertilization has increased the demand for the carbon dioxide incubators market. In addition, key technological advancements in carbon dioxide incubators and notable agricultural and crop research across various regions also boost the market growth.

Key Insights:

Latest Updates

Analyst Views

Future Outlook of the Market

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Competitive Landscape:

Key players in the carbon dioxide incubators market include Eppendorf AG, BINDER GmbH, Panasonic Healthcare Co., Thermo Fisher Scientific Inc., Sheldon Manufacturing Inc., Shanghai Boxun Medical Biological Instrument Corp., Bellco Glass, Memmert GmbH & Co., and LEEC Corporation, among others.

Players have adopted strategies of product development to strengthen their position in the market. For instance, in January 2020, CO2Meter Inc. launched a novel CO2 sensor for incubators that monitor and control the environment for bacteria growth patterns, tissue samples, and cell cultures. Also, in June 2019, PHCbi introduced a new cell culture CO2 incubator that provides precise CO2 control and accurate temperature control within the chamber. In addition to this, in June 2018, Esco Group purchased AT Medical UAB to boost its Esco Life Sciences Ecosystem.

Market Taxonomy:

By Product Type

Water Jacketed Carbon Dioxide Incubators

Direct Heat Carbon Dioxide Incubators

Air Jacketed Carbon Dioxide Incubators

Others

By Application

Laboratory Research and Clinical Applications

In-Vitro Fertilization

Other Applications

By Capacity

Above 200L

Above 100L and Below 200L

Below 100L

By Region

North America

Europe

Asia-Pacific

Latin America

Middle East and Africa

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Market Dynamics:

Carbon dioxide incubators are used to create an atmosphere that is as natural and favorable to develop tissues and cell cultures, which is referred to as in-vitro technique to grow organisms. Notable initiatives undertaken by the government to boost the adoption of the IVF technique are expected to boost the deployment of carbon dioxide incubators, thereby, driving the market growth. For instance, in April 2019, the U.S. government = undertook initiatives to offer better reimbursement policies to patients undergoing IVF treatment, which is expected to drive the use of carbon dioxide incubators and contribute to the market growth.

In addition, according to the United Nations report in November 2015, the Japanese government expanded family programs and policies in childcare services, parental leave schemes, and monetary assistance in the form of child allowances. These initiatives are focused on encouraging people to adopt IVF techniques to have child while driving the use of carbon dioxide incubators in the process and contributing to market growth. However, government regulations for the reduction of overall healthcare costs, high cost of device, and product recalls acts as a few market growth restraints.

FAQ's:

Note: This report provides in-depth analysis of the carbon dioxide incubators market and provides market size (US$ Million) and compound annual growth rate (CAGR %) for the forecast period (2020-2025), considering 2019, as the base year.

What are the trends adopted by key players in the carbon dioxide incubators market?

What key factors are expected to increase the demand for carbon dioxide incubators market during the forecast period 2020-2025?

What are the major challenges inhibiting the growth of the carbon dioxide incubators market?

What was the total market value (US$ Mn) generated in carbon dioxide incubators market by product type in 2019, and what are the forecasts by 2025?

Which application is expected to dominate the carbon dioxide incubators market in the coming years?

Which capacity contribute highest CAGR (%) in the carbon dioxide incubators market?

What was the total revenue generated by the carbon dioxide incubators market across different regions (North America, Europe, Asia-Pacific, Latin America, and Middle East and Africa) in 2019, along with CAGR (%) for the period (2020-2025)?

Who are the key players contributing to the growth of the carbon dioxide incubators market, and what are the new strategies adopted by them to retain a market share in the industry?

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mohitmaximize · 3 years ago

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healthcare-market · 3 years ago

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Carbon Dioxide Incubators Market Size will Observe Substantial Growth by 2026

The global market for carbon dioxide displays a highly fragmented picture pointing to the presence of a large number of players within the market. Despite this outgrowing number of market players, the market is characterized by mild intensity of competition because of sluggish upgrades in technology. Moreover, the product portfolios of the players do not exhibit any substantial differences, and the same products float in the entire market. This places a responsibility upon the market players to resort to key business strategies that could reap a substantial customer base for them. Thereby, a number of established players have engaged in providing post-sale services to glue the customers to their products. The huge market players are bound to gain undisputed supremacy in the market but the prospects of growth for new entrants are also expected to be bright. The established players within the market include LEEC Limited, Shanghai Boxun Medical Biological Instrument Corp., BINDER GmbH, Sheldon Manufacturing, Inc., Thermo Fisher Scientific Inc.,.Memmert GmbH + Co. KG, Panasonic Healthcare Co., Ltd., Bellco Glass, Inc., and Eppendorf AG.

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Transparency Market Research elucidates the potential of the market through key figures that shed light on the market fettle over the forecast period from 2017 to 2026. It is estimated that the market value would surpass US$ 250 Mn by the end of 2026 while registering a healthy CAGR of 8.10% over the forecast period. The carbon dioxide incubators with water jackets are expected to spur in popularity under the product type segmentation, and their revenue is prognosticated to stand at US$ 200 Mn by 2026-end. Amongst the geographical pockets, North America would outdo all other regions due to the immense need for these incubators across the region.

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Technological Advancements to Brighten Market Growth Prospects

The production of carbon dioxide incubators is being aided by the technological advancements that have surfaced across the world. This is not only reducing the turnaround times for production but is also enhancing the effiencicny of these incubators. This trend is conducive to the growth of the market because market players would now be able to cater to the escalating demands of the consumers. To exemplify, a new type of carbon dioxide incubator equipped with an infrared radiation control system has surfaced in the market. Other similar advancements are expected to pervade across the market that would keep consolidating the market prospects. Adoption of automation within the framework of microbiology and other laboratory-oriented initiatives has also transcended as a key market driver.

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There is a rising proclivity towards genetically engineered products that further calls for a need to maintain cell cultures. This aids the field of medicine and biosciences to conduct therapeutic diagnosis, thus fueling the need for carbon dioxide incubators. The expansive application of these incubators in oncology, embryonic cell research, neurosciences, tissue engineering, and stem cell research has further propelled the market by providing commendable growth opportunities to players.

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Costs of Production and Installation Could Hamper Demand

The setup and installation costs of carbon dioxide incur huge expenses that could hinder the affluence of growth. Moreover, the add-on accessories including additional shelves and trays compounds more costs and adds to the woes of the buyers. Although these factors pose a threat to the market, pragmatic steps by the market players could counter the odds. As market players engage in research and development of cost-efficient carbon dioxide incubators, the demand within the market is projected to keep booming.

Transparency Market Research’s report titled “Carbon Dioxide Incubators Market (Product Type - Water Jacketed CO2 Incubators, Air Jacketed CO2 Incubators, and Direct Heat CO2 Incubators; Capacity - Below 100L, Above 100L & Below 200L, and Above 200L; Application - Laboratory Research & Clinical Applications, In Vitro Fertilization, and Other Applications) - Global Industry Analysis, Size, Share, Growth, Trends, and Forecast 2017 – 2026” formed the basis of this review.

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aleemtbrc · 5 years ago

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Global Cell Culture Consumables And Equipment Market | Industry Future Trends, Revenue Growth, and Leading Players

TheBusinessResearchCompany published its Cell Culture Consumables And Equipment Global Market Report 2020 which provides strategists, marketers and senior management with the critical information they need to assess the global cell culture consumables and equipment market. The report covers the cell culture consumables and equipment market’s segments- consumables, instruments, industrial, biotechnology, agriculture, vaccination, toxicity testing, cancer research, drug screening and development, recombinant products, stem cell technology, regenerative medicine, media, sera, reagents, cell culture vessels, bioreactors, biosafety cabinets, carbon dioxide incubators, and centrifuges.

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Cell Culture Consumables And Equipment Global Market Report 2020 is the most comprehensive report available on this market and will help gain a truly global perspective as it covers 50+ geographies. The regional and country breakdowns section gives an analysis of the market in each geography and the size of the market by region and by country. It also compares the market’s historic and forecast growth. It covers all the regions, key developed countries and major emerging markets. It draws comparisons with country populations and economies to understand the importance of the market by country and how this is changing. The major regions included in the report are Asia-Pacific, Western Europe, Eastern Europe, North America, South America, Middle East, and Africa.

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Companies in cell culture consumables and equipment are investing more in 3D cell cultures for their new and advantageous features. A 3D cell culture may be defined as a culture of living cells within micro-assembled devices and supports that present a three dimensional structure, and are used to replicate a tissue or an organ in an artificial environment by allowing the cells to interact with the surroundings in all three directions.

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Chapters from Table of Content:

Chapter 1. Executive Summary

Chapter 2. Cell Culture Consumables And Equipment Market Characteristics

Chapter 3. Cell Culture Consumables And Equipment Market Size And Growth

Chapter 4. Cell Culture Consumables And Equipment Market Segmentation

Chapter 5. Cell Culture Consumables And Equipment Market Regional And Country Analysis

…….

Chapter 27. Cell Culture Consumables And Equipment Market Trends And Strategies

Chapter 28. Cell Culture Consumables And Equipment Market Future Outlook and Potential Analysis

Chapter 29. Appendix

Few Points From List of Tables:

Table 1: Global Historic Market Growth, 2014-2018, $ Billion

Table 2: Global Forecast Market Growth, 2014-2022F, 2025F, 2030F, $ Billion

Table 3: Global Cell Culture Consumables and Equipment Market, Segmentation By Product, Historic and Forecast, 2014-2018, 2022F, 2025F, 2030F, $ Billion

………..

Table 69: Eppendorf Financial Performance

Table 70: GE Healthcare Financial Performance

Table 71: Merck KGaA Financial Performance

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gracieyvonnehunter · 5 years ago

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A clever new solar solution to one of the trickiest climate problems

Heliogen’s demonstration tower in Lancaster, California. | Heliogen

Making high-temperature industrial heat from sunlight.

It’s pretty clear how we can reduce and eventually eliminate greenhouse gas emissions from some sectors of the economy. Electricity, transportation, and buildings, three of the biggest emitters, have a pathway to zero. It won’t be easy, and progress is too slow, but we have a handle on what to do.

But there are still big chunks of the economy that don’t have a clear line of sight to zero. They don’t yet have the tools they need at competitive prices. They are still waiting on innovation.

Many of them, including cement and steel, rely on large amounts of continuous high-temperature heat, and as I described in this post, there are very few viable low-carbon sources of such heat. Collectively, these industrial processes represent around 20 percent of global carbon emissions. It is one of the thorniest dilemmas in climate policy.

It’s not often that I write about a carbon policy dilemma only to have a clever new solution arrive in my inbox mere days later, but that’s what happened. A new company called Heliogen, coming out of stealth mode on Tuesday, has developed a brand new, zero-carbon way of generating high-temperature heat. It’s backed by an experienced team, boasts Bill Gates as an investor, and seems to have pulled off the rare trick of creating something new in the cleantech world.

Let’s take a look at how they do it.

Adapting concentrating-solar technology for a new purpose

Heliogen’s technology is based on concentrating solar power (CSP). That’s where hundreds of mirrors in a field are all angled to reflect sunlight onto a tower, inside of which is a steam turbine. The heat from the sunlight turns fluid (usually water) to steam, which runs the turbine, which generates power.

Visually, it’s probably the most striking and beautiful of all power generation technologies. Here’s a CSP plant in Seville, Spain:

Shutterstock

CSP is a good idea, and it works well, but it stalled out in the 2010s, for the simple reason that solar photovoltaic (PV) panels won. PV got so cheap, so fast, that it undercut CSP. Now CSP is something of a niche product. (Except in Spain, where it’s big.)

Among the CSP startups that didn’t make it was eSolar, a company founded by entrepreneur Bill Gross and his well-known incubator Idealab. (I wrote about eSolar way back in 2008.) Rather than assembling large, complicated, curved heliostats (mirrors) on site, eSolar used small, flat, prefabricated heliostats of only about a square meter. They were cheaper, faster and easier to set up, more modular, and easier to replace.

Gross’s key insight was that he could replace a lot of the material and labor involved in CSP with computing power. (Or, he could replace stuff with intelligence.) Rather than make bigger, more complicated mirrors, he made small, simple ones and controlled them with software, so they stayed aligned more precisely and produced more power. As Gross realized, material and labor generally get more expensive over time, while computing power is always getting cheaper. Anything that substitutes the latter for the former saves money.

eSolar ultimately couldn’t overcome PV’s price advantage, but Gross’s insight remains useful. And with the launch of his new company Heliogen, it seems the technology could make a comeback.

What Gross and his team of scientists and engineers at Heliogen have developed, in a nutshell, is a way to use even more computing power to keep the mirrors even more precisely aligned, thus generating even more heat.

Heliogen

A rendering of the Heliogen tower on the left; the actual tower, in Lancaster, California, on the right.

The team had to figure out how to monitor the mirrors in real time, to keep them all aimed at the exact same spot, Gross told me. It’s not enough to calibrate them once, as most CSP plants do. The ground subsides, the wind blows, the mirrors warp, and things slowly drift out of alignment. It may only be by centimeters, but those centimeters add up.

Obviously, a camera can’t be pointed directly at the mirror from the spot where the light is supposed to hit. The camera would melt.

Heliogen solved this problem by perching four super-powerful cameras around the top of the tower. Rather than directly measuring the intensity of light coming off a given mirror, they focus on four points equidistant around it. If the halo of light coming off the mirror is equally intense in each of the four quadrants, then the mirror is precisely aligned. (I find this delightfully resourceful.)

The four cameras are watching all the mirrors all the time, and the exact proper alignment of each mirror is being calculated all the time. As the image-analysis software calculates, it sends constant signals to the mirrors, which result in constant micromovements as the mirrors keep themselves perfectly focused on a single point, about 50 centimeters across.

It’s a “closed loop” system that monitors and adjusts itself, and it requires enormous computing power — more, Gross says, than was available even five years ago.

Heliogen

The 50cm-diameter receiving plate, surrounded by a white ceramic insulating plate, glows white-hot. Note the lack of leakage or spillover; all the light is focused on the same small area.

What is the point of this precise concentrating of light? Heat!

Conventional CSP towers can only get to about 560 degrees Celsius — enough to boil fluid and run a turbine, but not much else. Heliogen’s towers have reached just over 1,000° C and the company believes with further improvements it can hit 1,500° C. That would be a whole new ball game.

High-temperature heat opens up enormous markets for concentrating solar

There are lots of industrial processes that can use 1,000° C heat, like steam reforming of methane. And as that heat creeps higher, it becomes useful for more and more processes, from cement to steel.

When the temperature hits 1,500° C, it opens up something of a holy grail: direct, thermochemical generation of liquid fuels that can substitute for any hydrocarbon fuel.

Huh? Let me explain, as this is a relatively new engineering development, being perfected by Swedish researchers as we speak. It goes like this: a new, state-of-the-art material called ceria (CeO2) is heated to about 1,500° C, at which point it releases a pure stream of oxygen. Then, at about 1,000° C, water and carbon dioxide are introduced. The ceria wants its oxygen back, so it breaks the water and carbon dioxide up into hydrogen, carbon monoxide, and oxygen, and absorbs the oxygen. What’s left is a mix of hydrogen and carbon monoxide, otherwise known as “syngas.”

Basically, you start with H2O + CO2 and you end up with a mix of H + CO. As it happens, every hydrocarbon (fossil) fuel in the world, from kerosene to gasoline, from boat fuel to jet fuel, is built around some combination of H and CO, which means synfuel can be refined into any fuel, for any purpose. If the CO2 that feeds into the process is drawn from the ambient air via direct air capture (DAC), which is still a big if for now, then the resulting fuels can be said to be carbon-neutral, a huge improvement on the carbon-intensive fuels now in use.

Cumulatively, these markets for carbon-free industrial heat — steam reforming of methane, cement, steel, synthetic liquid fuels, and more — are enormous, up to a trillion dollars globally, and represent around a fifth of global GHG emissions. They include almost all the most difficult-to-decarbonize sectors.

Heliogen

A cement factory; the orange tube carries air from the kiln that needs to be further heated. Gross says mirrors could heat some facilities like this directly, with no need for a tower.

Heliogen may or may not succeed, but it has a genuine innovation

Obviously, Heliogen’s technology can’t work with every industrial facility. For one thing, Gross estimates that only about half of them worldwide have the land necessary to build a solar-heat facility on site. Facilities would have to integrate what is effectively an airborne oven into their process flow. And every facility would still need backup sources of heat, since the sun is only out for eight hours a day.

Until the technology is proven in a commercial setting, it’s difficult to say much about the real-world performance and costs, so there’s no way to know whether or how much Heliogen may succeed. Though it is stocked with talent and well-funded — Bill Gates said he is “pleased to be an early backer” of what he called “a promising development in the quest to one day replace fossil fuel” — it faces the same difficult hurdles as any startup. Most of them die.

Still, whatever its fate, Heliogen is something fairly rare in the world of technology: a genuine innovation. And it’s a great application of Gross’s insight, for which I have become something of an evangelist, namely that the clean-energy transition is going to proceed in large part by substituting computing power for material and labor, i.e., intelligence for stuff.

The ongoing explosion in computing power — AI, machine learning, ubiquitous real-time sensing, and all the rest of it — is going to enable innovations in energy that we can’t begin to predict. It will make our renewable energy technologies more responsive to real-time variations in sun and wind, more able to continuously adapt. It will make our cars and buildings smarter, more able to exchange energy. It will enable the electricity system to decentralize and maximize local resources. And the computing power we have today will look primitive by 2030.

That’s one reason the clean-energy transition is going to happen faster than energy transitions of the past: It will be aided and accelerated by computing power, an extension of our imaginations and inventive powers that is new in all of history.

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timalexanderdollery · 5 years ago

Text

A clever new solar solution to one of the trickiest climate problems

Heliogen’s demonstration tower in Lancaster, California. | Heliogen

Making high-temperature industrial heat from sunlight.

But there are still big chunks of the economy that don’t have a clear line of sight to zero. They don’t yet have the tools they need at competitive prices. They are still waiting on innovation.

Let’s take a look at how they do it.

Adapting concentrating-solar technology for a new purpose

Visually, it’s probably the most striking and beautiful of all power generation technologies. Here’s a CSP plant in Seville, Spain:

Shutterstock

eSolar ultimately couldn’t overcome PV’s price advantage, but Gross’s insight remains useful. And with the launch of his new company Heliogen, it seems the technology could make a comeback.

Heliogen

A rendering of the Heliogen tower on the left; the actual tower, in Lancaster, California, on the right.

Obviously, a camera can’t be pointed directly at the mirror from the spot where the light is supposed to hit. The camera would melt.

It’s a “closed loop” system that monitors and adjusts itself, and it requires enormous computing power — more, Gross says, than was available even five years ago.

Heliogen

The 50cm-diameter receiving plate, surrounded by a white ceramic insulating plate, glows white-hot. Note the lack of leakage or spillover; all the light is focused on the same small area.

What is the point of this precise concentrating of light? Heat!

High-temperature heat opens up enormous markets for concentrating solar

When the temperature hits 1,500° C, it opens up something of a holy grail: direct, thermochemical generation of liquid fuels that can substitute for any hydrocarbon fuel.

Heliogen

A cement factory; the orange tube carries air from the kiln that needs to be further heated. Gross says mirrors could heat some facilities like this directly, with no need for a tower.

Heliogen may or may not succeed, but it has a genuine innovation

from Vox - All https://ift.tt/2Oq8ksg

#Vox - All

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shanedakotamuir · 5 years ago

Text

A clever new solar solution to one of the trickiest climate problems

Heliogen’s demonstration tower in Lancaster, California. | Heliogen

Making high-temperature industrial heat from sunlight.

But there are still big chunks of the economy that don’t have a clear line of sight to zero. They don’t yet have the tools they need at competitive prices. They are still waiting on innovation.

Let’s take a look at how they do it.

Adapting concentrating-solar technology for a new purpose

Visually, it’s probably the most striking and beautiful of all power generation technologies. Here’s a CSP plant in Seville, Spain:

Shutterstock

eSolar ultimately couldn’t overcome PV’s price advantage, but Gross’s insight remains useful. And with the launch of his new company Heliogen, it seems the technology could make a comeback.

Heliogen

A rendering of the Heliogen tower on the left; the actual tower, in Lancaster, California, on the right.

Obviously, a camera can’t be pointed directly at the mirror from the spot where the light is supposed to hit. The camera would melt.

It’s a “closed loop” system that monitors and adjusts itself, and it requires enormous computing power — more, Gross says, than was available even five years ago.

Heliogen

The 50cm-diameter receiving plate, surrounded by a white ceramic insulating plate, glows white-hot. Note the lack of leakage or spillover; all the light is focused on the same small area.

What is the point of this precise concentrating of light? Heat!

High-temperature heat opens up enormous markets for concentrating solar

When the temperature hits 1,500° C, it opens up something of a holy grail: direct, thermochemical generation of liquid fuels that can substitute for any hydrocarbon fuel.

Heliogen

A cement factory; the orange tube carries air from the kiln that needs to be further heated. Gross says mirrors could heat some facilities like this directly, with no need for a tower.

Heliogen may or may not succeed, but it has a genuine innovation

from Vox - All https://ift.tt/2Oq8ksg

#Vox - All

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mohitmaximize · 3 years ago

Text

Carbon Dioxide Incubators Market Demand, Supply, SWOT, Consumption, ROI Forecast Upto 2027

Carbon Dioxide Incubators Market Overview:

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Global Carbon Dioxide Incubators Market, by Type

• Water Jacketed CO2 Incubators

• Air Jacketed CO2 Incubators

• Direct Heat CO2 Incubators

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Key Players:

• Bellco Glass, Inc. (USA)

• Binder GmbH (Germany)

• Cardinal Health, Inc. (USA)

• Eppendorf AG (Germany)

• LEEC Limited (UK)

• Memmert GmbH+Co.KG (Germany)

• NuAire, Inc. (USA)

• PHC Holdings Corporation (Japan)

• Shanghai Boxun Medical Biological Instrument Corp. (China)

• Sheldon Manufacturing, Inc. (USA)

• Thermo Fisher Scientific, Inc. (USA)

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Asia-Pacific (Vietnam, China, Malaysia, Japan, Philippines, Korea, Thailand, India, Indonesia, and Australia)

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