Global Temperature Data-loggers Market 2018 Business Development, Size, Share, Analysis And Opportunities To 2023

Global Temperature Data-loggers Market 2018 Business Development, Size, Share, Analysis And Opportunities To 2023

This report presents the Global Temperature Data-loggers market size (value, production and consumption), splits the breakdown (data status 2013-2018 and prediction to 2026), through producers, region, type and application.

Thus topping up conflicting facets of Temperature Data-loggers industry including industrial outlines, schedules, and apparent approaches. It also clears crucial criterions…

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France's Macron calls Amazon rainforest fires an 'international crisis'

https://www.cnn.com/2019/08/23/americas/amazon-fires-macron-g7-intl-hnk/index.html

The Amazon is burning because the world eats so much meat

By Eliza Mackintosh | Updated 1 hour ago Aug 23, 2019 | CNN | Posted August 23, 2019 12:48 PM ET |

(CNN) - While the wildfires raging in the Amazon rainforest may constitute an "international crisis," they are hardly an accident.

The vast majority of the fires have been set by loggers and ranchers to clear land for cattle. The practice is on the rise, encouraged by Jair Bolsonaro, Brazil's populist pro-business president, who is backed by the country's so-called "beef caucus."

While this may be business as usual for Brazil's beef farmers, the rest of the world is looking on in horror.

So, for those wondering how they could help save the rainforest, known as "the planet's lungs" for producing about 20% of the world's oxygen, the answer may be simple. Eat less meat.

It's an idea that Finland has already floated. On Friday, the Nordic country's finance minister called for the European Union to "urgently review the possibility of banning Brazilian beef imports" over the Amazon fires.

Brazil is the world's largest exporter of beef, providing close to 20% of the total global exports, according the United States Department of Agriculture (USDA) -- a figure that could rise in the coming years.

Last year the country shipped 1.64 million tonnes of beef -- the highest volume in history -- generating $6.57 billion in revenue, according to the Brazilian Beef Exporters Association (Abiec), an association of more than 30 Brazilian meat-packing companies.

The growth of Brazil's beef industry has been driven in part by strong demand from Asia -- mostly China and Hong Kong. These two markets alone accounted for nearly 44% of all beef exports from Brazil in 2018, according to the USDA.

And a trade deal struck in June between South America's Mercosur bloc of countries and the European Union could open up even more markets for Brazil's beef-packing industry.

Speaking after the agreement as announced, the head of Abiec, Antônio Camardelli, said the pact could help Brazil gain access to prospective new markets, like Indonesia and Thailand, while boosting sales with existing partners, like the EU. "A deal of this magnitude is like an invitation card for speaking with other countries and trade blocs," Camardelli told Reuters in July.

Once implemented, the deal will lift a 20% levy on beef imports into the EU.

But, on Friday, Ireland said it was ready to block the deal unless Brazil took action on the Amazon.

In a statement Irish Prime Minister Leo Varadkar described as "Orewellian" Bolsonaro's attempt to blame the fires on environmental groups. Varadkar said that Ireland will monitor Brazil's environmental actions to determine whether to block the Mercosur deal, which is two years away.

He added Irish and European farmers could not be told to use fewer pesticides and respect biodiversity when trade deals were being made with countries not subjected to "decent environmental, labor and product standards."

In June, before the furor over the rainforest began, the Irish Farmers Association called on Ireland not to ratify the deal, arguing its terms would disadvantage European beef farmers.

Deal or no deal, Brazil's beef industry is projected to continue expanding, buoyed by natural resources, grassland availability and global demand, according to the Organisation for Economic Co-operation and Development (OECD).

And, with that growth, comes steep environmental costs.

Brazil's space research center (INPE) said this week that the number of fires in Brazil is 80% higher than last year. More than half are in the Amazon region, spelling disaster for the local environment and ecology.

Alberto Setzer, a senior scientist at INPE, told CNN that the burning can range from a small-scale agricultural practice, to new deforestation for mechanized and modern agribusiness projects.

Farmers wait until the dry season to start burning and clearing areas so their cattle can graze, but this year's destruction has been described as unprecedented. Environmental campaigners blame this uptick on Bolsonaro, who they say has encouraged ranchers, farmers, and loggers to exploit and burn the rainforest like never before with a sense of impunity.

Bolsonaro has dismissed accusations of responsibility for the fires, but a clear shift seems to be underway.

And if saving the rainforest isn't enough to convince carnivores to stop eating Brazilian beef -- the greenhouse gas emissions the cattle create may be.

Beef is responsible for 41% of livestock greenhouse gas emissions, and that livestock accounts for 14.5% of total global emissions. And methane -- the greenhouse gas cattle produce from both ends -- is 25 times more potent that carbon dioxide.

An alarming report released last year by the UN Intergovernmental Panel on Climate Change (IPCC) report, said changing our diets could contribute 20% of the effort needed to keep global temperatures from rising 2°C above pre-industrial levels. Namely, eating less meat.

Still, global consumption of beef and veal is set to rise in the next decade according to projections from the Organisation for Economic Co-operation and Development (OECD) and the Food and Agricultural Organization of the United Nations (FAO).

A joint report predicted global production would increase 16% between 2017 and 2027 to meet demand.

The majority of that expansion will be in developing countries, like Brazil.

France's Macron calls Amazon rainforest fires an 'international crisis'

By Helen Regan and Jessie Yeung |

Updated 11:55 AM ET Published Aug 23, 2019 | CNN | Posted August 23, 2019 12:57 PM ET |

(CNN) - French President Emmanuel Macron has angered his Brazilian counterpart by calling the wildfires blazing in the Amazon rainforest an "international crisis" that should be on the agenda at the G7 summit in Biarritz.

"Our house is burning. Literally. The Amazon rain forest -- the lungs of our planet which produces 20% of our oxygen -- is on fire. It is an international crisis," Macron tweeted Thursday.

"Members of the G7 Summit, let's discuss this emergency first order in two days!" he said, adding the hashtag #ActForTheAmazon.

On Friday, British Prime Minister Boris Johnson reiterated Macron's stance and said that international cooperation is needed to protect rainforests.

A Downing Street spokesperson told CNN that Johnson believes that "we need international action to protect the world's rainforests" and he "will use G7 to call for a renewed focus on protecting nature and tackling climate change together."

Earlier, Irish Prime Minister Leo Varadkar said that he would be ready to block a trade deal between the European Union and South American trade bloc MERCOSUR unless Brazil acted on the Amazon.

Brazil's far-right president Jair Bolsonaro blasted Macron's offer as "sensationalist" and accused him of using the fires for "political gain."

"I regret that President Macron is seeking to instrumentalize an internal issue in Brazil and in other Amazonian countries for personal political gains," Bolsonaro tweeted.

"The suggestion of the French president that Amazonian issues be discussed in the G7 without countries in the region participating is reminiscent of a colonial mindset inappropriate in the 21st century," he said in a second tweet.

The G7 nations are Canada, France, Germany, Italy, Japan, the UK and the US.

Brazil's space research center (INPE) said this week that the country has seen an 85% increase in fires this year, compared with the same period last year. More than half were in the Amazon region, spelling disaster for the local environment and ecology.

And 99% percent of the fires result from human actions "either on purpose or by accident," said Alberto Setzer, a senior scientist at INPE. The burning can range from a small-scale agricultural practice, to new deforestation for a mechanized and modern agribusiness project, Setzer told CNN by email.

Environmental organizations and researchers say the wildfires were set by cattle ranchers and loggers who want to clear and utilize the land, emboldened by the country's pro-business president.

Amnesty International on Thursday said responsibility for the fires "lies squarely with President Bolsonaro and his government," adding that his government's "disastrous policy of opening up the rainforest for destruction (is) what has paved the way for this current crisis."

In a Facebook Live video Thursday, Bolsonaro suggested multiple parties -- including ranchers, NGOs and indigenous communities -- could be to blame.

"Who carries this out? I don't know. Farmers, NGOs, whoever it may be, Indians, whoever it may be," Bolsonaro said. He went on to say there are "suspicions" that ranchers are behind the forest fires and appealed to the Brazilian people to "help us" combat the blazes.

'LOOKING AT UNTOLD DESTRUCTION'

The Amazon is the largest tropical rainforest in the world and accounts for at least 10% of the planet's biodiversity.

It's home to huge numbers of mammals, birds, amphibians and reptiles -- 75% of which are unique to the Amazon. A new plant or animal species is discovered there every two days.

But the forest and its inhabitants are facing an unparalleled threat from deforestation -- 20% of the Amazon biome has already been lost to mining, logging, farming, hydropower dams and roads, according to the World Wildlife Fund.

Deforestation accelerated more than 60% in June 2019 over the same period last year, INPE's data shows. The Amazon lost 769 square kilometres, a stark increase from the 488 sq km lost in June 2018. That equates to an area of rainforest larger than one-and-a-half soccer fields being destroyed every minute each day.

The Amazon forest also produces about 20% of the world's oxygen and is often called "the planet's lungs."

Before the fires, land conversion and deforestation caused the Amazon to release up to 0.5 billion metric tons of carbon per year, according to the WWF. Depending on the damage from the fires, that release would increase, accelerating climate change.

"The Amazon is incredibly important for our future, for our ability to stave off the worst of climate change," said Christian Poirier, the program director of non-profit organization Amazon Watch. "This isn't hyperbole. We're looking at untold destruction — not just of the Amazon but for our entire planet."

ENVIRONMENTALISTS ARE BLAMING BOLSONARO

More than two-thirds of the Amazon are located in Brazil and environmental groups accuse Bolsonaro, who has previously said he is not "Captain Chainsaw," of relaxing environmental controls in the country and encouraging deforestation.

When running for president, Bolsonaro made campaign promises to restore the economy by exploring the Amazon's economic potential. Now, environmental organizations say he has encouraged ranchers, farmers, and loggers to exploit and burn the rainforest like never before with a sense of impunity.

The pro-business Bolsonaro has hamstrung Brazil's environmental enforcement agency with budget cuts amounting to $23 million -- official data sent to CNN by Observatorio do Clima shows the enforcement agency's operations have fallen since Bolsonaro was sworn in.

The director of Brazil's space research center INPE was recently fired after defending satellite images that showed deforestation was 88% higher in June than a year earlier -- data which Bolsonaro characterized as "lies."

"The vast majority of these fires are human-lit," said Amazon Watch's Poirier, adding that even during dry seasons, the Amazon -- a humid rainforest -- doesn't catch on fire easily, unlike the dry bushland in California or Australia.

Farmers and ranchers have long used fire to clear land, said Poirier, and are likely behind the unusually large number fires burning in the Amazon today.

This year's fires fit with an established seasonal agricultural pattern, said CNN meteorologist Haley Brink. "It's the best time to burn because the vegetation is dry. (Farmers) wait for the dry season and they start burning and clearing the areas so that their cattle can graze. And that's what we're suspecting is going on down there."

Temperature Logger Market Comprehensive Research Study, Regional Growth, Business Top Key Players Analysis

Global Temperature Logger Market report emphasizes on the detailed understanding of some decisive factors such as size, share, sales, forecast trends, supply, production, demands, industry and CAGR in order to provide a comprehensive outlook of the global market. Additionally, the report also highlights the challenges impeding market growth and expansion strategies employed by leading companies in the “Temperature Logger Market”.

Global Temperature Logger Market research report analyzes top players in the key regions like North America, South America, Middle East and Africa, Asia and Pacific region. It delivers insight and expert analysis into key consumer trends and behavior in market place, In addition to an overview of the market data and key brands. It also provides all data with easily digestible information to guide every businessman’s future innovation and move business ahead.

Global Temperature Logger Market Segmentation Analysis:

Major Players in Temperature Logger market are: Sensitech Xylem Omron Onset Hioki Senonics Elpro Gemini Dickson E+E Elektronik Apresys Extech Maxim Integrated Asmik Aosong LogTag Recorders Omega Rotronic Huato DeltaTRAK Testo ACR Systems MadgeTech Sksato Cryopak Vaisala Fluke Most important types of Temperature Logger products covered in this report are: Internal Logger External Logger Most widely used downstream fields of Temperature Logger market covered in this report are: Industrial Storage Transport Others

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Temperature Logger Market, By Geography:

The regional analysis of Temperature Logger market is studied for region such as Asia pacific, North America, Europe and Rest of the World. The North America is one of the leading region in the market due to numerous cross industry collaborations taking place between automotive original equipment manufacturers and mobile network operators (MNOs) are taking place for continuous internet connectivity inside a car to enhance the user experience of connected living, while driving. Asia-Pacific region is one of the prominent player in the market owing to large enterprises and SMEs in the region are increasingly adopting Temperature Logger solutions.

Some Points from Table of Content

Global Temperature Logger Market 2022 by Company, Regions, Type and Application, Forecast to 2030

1 Temperature Logger Introduction and Market Overview

2 Industry Chain Analysis

3 Global Temperature Logger Market, by Type

4 Temperature Logger Market, by Application

5 Global Temperature Logger Consumption, Revenue ($) by Region (2018-2022)

6 Global Temperature Logger Production by Top Regions (2018-2022)

7 Global Temperature Logger Consumption by Regions (2018-2022)

8 Competitive Landscape

9 Global Temperature Logger Market Analysis and Forecast by Type and Application

10 Temperature Logger Market Supply and Demand Forecast by Region

11 New Project Feasibility Analysis

12 Expert Interview Record

13 Research Finding and Conclusion

14 Appendix 

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Reasons to Purchase this Report

Qualitative and quantitative analysis of the market based on segmentation involving both economic as well as non-economic factors

Provision of market value (USD Billion) data for each segment and sub-segment

Indicates the region and segment that is expected to witness the fastest growth as well as to dominate the market

Analysis by geography highlighting the consumption of the product/service in the region as well as indicating the factors that are affecting the market within each region

Competitive landscape which incorporates the market ranking of the major players, along with new service/product launches, partnerships, business expansions, and acquisitions in the past five years of companies profiled

Extensive company profiles comprising of company overview, company insights, product benchmarking, and SWOT analysis for the major market players

The current as well as the future market outlook of the industry with respect to recent developments which involve growth opportunities and drivers as well as challenges and restraints of both emerging as well as developed regions

Includes in-depth analysis of the market of various perspectives through Porter’s five forces analysis

Provides insight into the market through Value Chain

Market dynamics scenario, along with growth opportunities of the market in the years to come

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Biopharmaceutical Third Party Logistics (3PL) Market Top Company Profiles, Distribution Channel Benchmarking & Forecast, 2025

The scope of the global Biopharmaceutical Third-Party Logistics (3PL) Market was appreciated at US$ 86.37 billion in 2018. The range is projected to touch US$ 120.64 billion by 2025, growing at a CAGR of 4.9% for the duration of the forecast.

Biopharmaceutical third-party logistics refers to the transportation of medicines from one place to another using advanced vehicles. These vehicles are specially designed to automate temperature management and reduce the possibility of human errors during transportation. Pharmaceutical products are temperature sensitive and require continuous monitoring through tracking devices. Thereby, pharmaceutical companies are using all sorts of technologically advanced devices to form effective distribution networks.

Rising demand for effective logistics systems to safely transport temperature-sensitive medicines is anticipated to propel biopharmaceutical 3PL market growth. The advent of a wide range of biologics and biosimilar which require temperature-controlled logistic service for distribution is expected to impel biopharmaceutical third-party logistics market growth. The growing adoption of automation in manufacturing facilities to reduce operational costs is driving demand for third-party logistic services. In addition, the rising demand for biologics owing to the growing prevalence of chronic diseases is contributing well to biopharmaceutical third-party logistics (3PL) industry growth. Moreover, growing environmental concerns among pharmaceutical companies to reduce carbon footprint will drive the market over the forecast period.

To cater to the rising demand for advanced logistic services in the biopharmaceutical industry, companies are investing in R&D to develop effective value-added services. For instance, in 2018, DHL installed near field communication (NFC) based internet of things (IoT) devices in vehicles to record information using mobile applications. Smart sensor technology measures environmental conditions inside the vehicle and uploads this information on a mobile application called LifeTrack. Implementation of such technologically advanced devices is supporting DHL in improving its distribution network.

Some of the key players in the biopharmaceutical third-party logistics market are United Parcel Service of America, Inc; DHL International GmbH.; SF Express; AmerisourceBergen Corporation; and DB Schenker. The market is fragmented owing to the presence of a large number of companies. This fragmentation is likely to restrict big companies from penetrating into new regions across the globe. Thereby, big market players are adopting advanced technologies from small-scale companies to expand their business.

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Supply Chain Insights

Based on the supply chain, the biopharmaceutical third-party logistics market can be bifurcated into the non-cold chain and cold chain. The cold chain segment is expected to grow fast over the forecast period owing to rising demand for novel drugs and biologics across the globe. Biologics are temperature sensitive and require additional care during transportation. Logistic service providers use temperature data loggers to measure temperature readings for the product being shipped. These technologically advanced data loggers are capable of measuring humidity, vibration, shock, and temperature. In addition, service providers also use radio frequency identification (RFID) and software to gather information.  

Service Type Insights

On the basis of service type, the biopharmaceutical 3PL market can be categorized into transportation, warehousing and storage, and others. The others segment includes procurement services, packaging, and custom and duty management. In 2018, the warehousing and storage segment accounted for the largest market share. This is attributed to the rising demand for third-party logistics services among pharmaceutical companies to reduce the company’s overheads and operational expenses.

Another segment is likely to expand at lucrative CAGR over the forecast period owing to rising focus on the packaging of drugs in terms of uniformity, shelf life, and purity.

Regional Insights

Regional segmentation includes Europe, North America, Asia Pacific, Latin America, and the Middle East, and Africa. In 2018, North America accounted for the largest market share owing to the increasing number of pharmaceutical companies in the region. The growing adoption of third-party transportation and warehousing services among these companies has contributed well to regional market growth. In addition, an increasing number of import and export activities for biopharmaceuticals owing to rising disposable income is driving the market in this region.

The Asia Pacific, on the other hand, is anticipated to exhibit the highest CAGR over the forecast period. This is attributed to the growing number of the aging population suffering from diabetes and cardiovascular diseases. Such patients require medicines on regular basis, which is likely to drive demand for effective logistics systems among pharmaceutical companies.

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Weather Forecasting Systems Market Growth Prospects Mapping, Size Analysis, Variables, Trends and Scope Study

The global weather forecasting systems market is estimated to be USD 2.3 billion in 2019 and is projected to reach USD 3.3 billion by 2025, at a CAGR of 5.7% from 2019 to 2025. The Growth of the weather forecasting systems market can be attributed to the increasing demand for highly accurate weather forecasting systems from various end-use industries and investments by governments of various countries and a number of companies for the development of advanced weather forecasting systems.

Based on vertical, the renewable energy segment is projected to grow at the highest CAGR during the forecast period. Weather forecasting systems play a crucial role in designing optimal offshore wind turbine capacities, depending on climatic conditions. Therefore, there is a need for accurate weather forecasts for the integration of large amounts of power generated from renewable sources of energy into power supply grids. This is expected to help meet the increased demand for power from consumers across the globe.

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Based on solution, the software segment of the weather forecasting systems market is projected to grow at the highest CAGR during the forecast period

Based on solution, the software segment of the weather forecasting systems market is projected to grow at the higher CAGR between 2019 and 2025 due to the increasing demand for weather analytics, monitoring & display software, and data collection & processing software for weather predictions with the use of present and historical weather data. Increasing capabilities of supercomputers used for weather forecasts and improvements in the efficiency of long-range forecasting systems offer new growth opportunities for players operating in the market.

The Asia Pacific weather forecasting systems market is projected to grow at the highest CAGR from 2019 to 2025

Based on region, the Asia Pacific weather forecasting systems market is projected to grow at the highest CAGR during the forecast period. Market growth is primarily due to the increased demand for continuous weather monitoring for disaster management, and improvement in the economy of the Asia Pacific region. In addition, rapid industrialization and growth of the transportation sector in countries, such as Japan, China, and India, among others have led to a significant rise in the level of greenhouse gases in these countries. The harmful emissions of greenhouse gases can be monitored and consequently, measured with the help of advanced weather forecasting systems.

Some of the major players in the weather forecasting systems market in North America include The Weather Company (US), Sutron Corporation (US), Campbell Scientific (US), Airmar Technology Corporation (US), All Weather, Inc. (US), Morcom International (US), Columbia Weather Systems (US).  G. Lufft Mess-und Regeltechnik (Germany), Vaisala (Finland), and Skye Instruments (UK) are some of the leading companies in Europe operating in the market in Europe.

AccuWeather (US) specializes in weather systems, such as podcast and network. It launched various new products in the market that are cheaper than those offered by its competitors. In April 2019, AccuWeather partnered with JW Player to launch new video content options that include OTT experiences, 360 degree, and VR capabilities. The objective behind this strategy is to support and accelerate its ongoing expansion in video delivery.

Campbell Scientific (US) is a leading designer, manufacturer, and marketer of data loggers, data acquisition systems, and measurement and control products that are used in the environment, research, and industrial sectors. In February 2018, Campbell Scientific launched the new MesoPRO weather station which provides vital weather information. This weather station is designed for large meteorological networks, which require the measurement of wind speed, wind direction, air temperature, relative humidity, barometric pressure, solar radiation, precipitation, soil water content, and soil moisture. This organic strategy is expected to increase its customer base in the meteorological vertical segment.

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India Hydrological and Meteorological Equipment Market By System Type, By End User, By Region, Industry Analysis and Forecast, 2020 – 2030

Demand for hydrological and meteorological equipment in India is set to grow at over 5% in 2021, with growing applications in disaster management likely to create opportunities. A new report by FMI opines demand for hydrological and meteorological in India to be worth nearly US$ 100 Mn by 2030-end.

Current meters, rain gauge, disdrometer, compact bubblers and data loggers are a few hydrological and meteorological equipment. Rising need for regular weather monitoring to set disaster management in motion is expected to drive the hydrological and meteorological market in India.

Key Takeaways

The hydrological and meteorological equipment market is expected to grow at a CAGR of 5.8% from 2020-2030.

Global revenues are set to reach nearly US$ 100 mn by the end of 2030

AT/RH sensors demand is growing due to their high accuracy and remote monitoring feature.

Research Institutes and Laboratories remain key revenue generators for manufacturers.

“Increasing climatic changes have created lucrative opportunities for the manufacturers as more end users are being compelled to make use of hydrological and meteorological equipments to get accurate weather predictions,” says an FMI analyst.

India Hydrological and Meteorological Equipment Market

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COVID-19 Impact Analysis

The COVID-19 pandemic has disrupted industries all over the world, including the hydrological and meteorological equipment market in India. The sudden implementation of lockdown in India had brought production and import of raw materials to a standstill. The transport ban has also brought distribution and sales to a halt.

The market is expected to bounce back in 2021 due to the necessary need for weather prediction for disaster management, especially in the defense sector, where this information is critical.

Who is Winning?

Market players are now focusing on creating innovative and advanced equipment to ensure better accuracy of readings. Advancements of sensors and monitoring devices has enabled measuring of density and temperature pressure in real time.

In 2018, the Weather Company and IBM joined forces to launch the weather channel app to provide better weather forecast to make business plans accordingly.

In October 2020, the Indian Defense sector bought weather equipment to read forecasts and prepare accordingly for the troops in high-altitude regions.

Some of the key players in the Indian hydrological and meteorological equipment market are Aeron Systems, Info-Electronics, Concord Instruments, SGS Weather and Environmental Systems, Dynalab, Elron Instrument Co. Ltd. and Virtual Electronics Company.

Valuable Insights into the India Hydrological and Meteorological Equipment Market Report

Future Market Insights (FMI) has presented a detailed analysis on the hydrological and meteorological equipment market along with an assessment for the years 2020-2030. In order to provide a comprehensive analysis, the market is divided into several segments.

On the basis of hydrological equipment type, the market is segmented into surface water velocity sensors, current meters, groundwater level logger, radar water level sensors, compact bubblers, pressure level sensors, multi-parameter water quality sonde, contact gauge, side looking doppler and data loggers. Based on the hydrological equipment end users, the market is divided into central water resources management department, irrigation department, agriculture, water utility companies, hydropower plants, national hydrological projects and research & academia.

The market is segmented based on meteorological equipment into rain gauge, precipitation gauge measurement, disdrometer (parsivel- laser weather sensor), wind speed & direction sensor, ceilometers, AT/RH sensor, snow depth sensors, snow gauge and data loggers. On the basis of meteorological equipment end users, the market is divided into Indian Meteorological Department, Space Research & Sciences (ISRO, NESAC), environmental engineering & audit agencies (NEERI, TERI etc.), Marine & coastal security and research institutes laboratories (SASE, IISER, NIOT).

Biopharmaceutical Third Party Logistics Market 2025 Report by Global Size, Growth Insight, Share, Trends

The scope of the global Biopharmaceutical Third Party Logistics (3PL) Market was appreciated at US$ 86.37 billion in 2018. The range is projected to touch US$ 120.64 billion by 2025, growing at a CAGR of 4.9% for the duration of the forecast.

 Biopharmaceutical third party logistics refers to transportation of medicines from place to another using advanced vehicles. These vehicles are specially designed to automate temperature management and to reduce possibilities of human errors during transportation. Pharmaceutical products are temperature sensitive and require continuous monitoring through tracking devices. Thereby, pharmaceutical companies are using all sort of technologically advanced devices to form effective distribution network.

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 Market Synopsis of Biopharmaceutical Third Party Logistics Market:

 Rising demand for effective logistics system to safely transport temperature sensitive medicines is anticipated to propel biopharmaceutical 3PL market growth. Advent of wide range of biologics and biosimilar which require temperature controlled logistic service for distribution is expected to impel biopharmaceutical third party logistics market growth. Growing adoption of automation in manufacturing facilities to reduce operational costs is driving demand for third party logistic services. In addition, rising demand for biologics owing to growing prevalence of chronic diseases is contributing well to biopharmaceutical third party logistics (3PL) industry growth. Moreover, growing environmental concerns among pharmaceutical companies to reduce carbon footprint will drive the market over the forecast period.

 To cater to rising demand for advanced logistic services in biopharmaceutical industry, companies are investing in R&D to develop effective value added services. For instance, in 2018, DHL installed near field communication (NFC) based internet of things (IoT) devices in vehicles to record information using mobile applications. Smart sensor technology measures environmental conditions inside the vehicle and upload this information on mobile application called LifeTrack. Implementation of such technologically advanced devices is supporting DHL in improving their distribution network.

 Supply Chain Insights

 Based on supply chain, the biopharmaceutical third party logistics market can be bifurcated into non-cold chain and cold chain. Cold chain segment is expected to grow fast over the forecast period owing to rising demand for novel drugs and biologics across the globe. Biologics are temperature sensitive and require additional care during transportation. Logistic service providers use temperature data loggers to measure temperature reading for the product being shipped. These technologically advanced data loggers are capable of measuring humidity, vibration, shock, and temperature. In addition, service providers also use radio frequency identification (RFID) and software to gather information.  

 View Full Table of Contents of This Report @ https://www.millioninsights.com/industry-reports/biopharmaceutical-third-party-logistics-3pl-market

 Table of Contents:-

Chapter 1 Methodology and Scope

Chapter 2 Executive Summary

Chapter 3 Biopharmaceutical Third Party Logistics: Market Variables, Trends & Scope              

Chapter 4 Biopharmaceutical Third Party Logistics: Product Estimates & Trend Analysis

Chapter 5 Biopharmaceutical Third Party Logistics: Application Estimates & Trend Analysis

Chapter 6 Biopharmaceutical Third Party Logistics: End-use Estimates & Trend Analysis

Chapter 7 Biopharmaceutical Third Party Logistics: Industrial End-use Estimates & Trend Analysis

Chapter 8 Biopharmaceutical Third Party Logistics: Regional Estimates & Trend Analysis

Chapter 9 Competitive Landscape

Chapter 10 Biopharmaceutical Third Party Logistics: Manufacturers Company Profiles

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Global  Temperature and Humidity Loggers Market CAGR, Volume and Value  forecast 2018-2025

Summary – A new market study, “Global Temperature and Humidity Loggers Market Insights and Forecast to 2026”has been featured on WiseGuyReports.

Temperature and Humidity Loggers market is segmented by Type, and by Application. Players, stakeholders, and other participants in the global Temperature and Humidity Loggers market will be able to gain the upper hand as they use the report as a powerful resource. The segmental analysis focuses on production capacity, revenue and forecast by Type and by Application for the period 2015-2026.

Also Read : http://www.marketwatch.com/story/temperature-and-humidity-loggers-market-overview-global-trend-and-forecast-to-2025-2020-09-08

Segment by Type, the Temperature and Humidity Loggers market is segmented into

Internal Logger

External Logger

 Segment by Application, the Temperature and Humidity Loggers market is segmented into

Industrial

Storage

Transport

Other

 Regional and Country-level Analysis

The Temperature and Humidity Loggers market is analysed and market size information is provided by regions (countries).

The key regions covered in the Temperature and Humidity Loggers market report are North America, Europe, China and Japan. It also covers key regions (countries), viz, the U.S., Canada, Germany, France, U.K., Italy, Russia, China, Japan, South Korea, India, Australia, Taiwan, Indonesia, Thailand, Malaysia, Philippines, Vietnam, Mexico, Brazil, Turkey, Saudi Arabia, U.A.E, etc.

The report includes country-wise and region-wise market size for the period 2015-2026. It also includes market size and forecast by Type, and by Application segment in terms of production capacity, price and revenue for the period 2015-2026.

Competitive Landscape and Temperature and Humidity Loggers Market Share Analysis

 Temperature and Humidity Loggers market competitive landscape provides details and data information by manufacturers. The report offers comprehensive analysis and accurate statistics on production capacity, price, revenue of Temperature and Humidity Loggers by the player for the period 2015-2020. It also offers detailed analysis supported by reliable statistics on production, revenue (global and regional level) by players for the period 2015-2020. Details included are company description, major business, company total revenue, and the production capacity, price, revenue generated in Temperature and Humidity Loggers business, the date to enter into the Temperature and Humidity Loggers market, Temperature and Humidity Loggers product introduction, recent developments, etc.

The major vendors covered:

Testo

Omron

Omega

Sensitech

Onset

Vaisala

Rotronic

Hioki

Dickson

Fluke

Xylem

Cryopak

ACR Systems

E+E Elektronik

Apresys

Maxim Integrated

LogTag Recorders

Senonics

Extech

DeltaTRAK

Sksato

Elpro

Gemini

MadgeTech

Huato

Aosong

Asmik

CEM

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Understanding and Integrating Resolution, Accuracy and Sampling Rates of Temperature Data Loggers Used in Biological and Ecological Studies-Juniper Publishers

Abstract

During the 5th Workshop about Temperature-Dependent Sex Determination held in the 38th International Sea Turtles Symposium (16-22 February 2018) in Kobe, Japan, we discussed the uncertainty of temperatures recorded by data logger and their calibration. We report here an extension of this discussion. First, we propose a way to estimate the uncertainty of the average temperature recorded using data loggers considering the accuracy of the data logger (repeatability of measurements), resolution of the data logger (resolution of its indicating device) and period of sampling temperature. Second, a general procedure of calibration is described. Functions to perform the estimates are provided in R package embryo growth freely available.

Keywords: Data logger; Temperature; Resolution; Accuracy; Uncertainty; Sampling period; Calibration

    Introduction

Metabolism is the process by which energy and materials are transformed within an organism and exchanged between the organism and its environment [1]. The metabolic rate is the rate at which organisms transform energy and materials and is governed largely by two interacting processes. The first is the Boltzmann factor, which describes the temperature dependence of biochemical processes, and the second is the quarter-power allometric relation, which describes how rates of biological processes scale with body size [2]. Hence, temperature is a key factor in understanding the persistence of organisms within an ecosystem. The range of temperatures within which an organism can survive is termed its thermal niche [2]. For many vertebrates, the thermal niche is relatively wide and centered around 30°C [3]. Thus, when temperature is recorded in the purpose of defining a thermal niche, the accuracy of measurements will not have a major impact on the outcomes of this kind of study.

However, for some physiological processes, thermosensitive changes can occur within a small range of temperatures, and thus the accuracy and resolution of temperature recording instruments become much more important. For example, in turtles egg, incubation temperature during embryogenesis affects various aspects of development [4], including probability of embryo survival [5], sex determination for species with temperature-dependent sex determination [6], and morphology and body size at hatching [7]. In addition, incubation temperature can have long-term effects on the physiology and behavior of hatchlings [8]. Many researchers use data loggers inside the nest cavity to generate temperature records during incubation, to later compare them with various characteristics of hatchlings (e.g., size, performance, sex). However, the uncertainty of data logger measurements can affect the conclusions in some cases. For example, the sex ratio for the leatherback marine turtle shifts from 100% males to 100% females in less than 0.6°C at constant temperatures [9], which can be on the same magnitude as the uncertainty of temperature measurement for many experiments. Indeed, 10 out of 141 published studies on reptile egg incubation reported datalogger accuracy as 0.6 C or higher [10]. However, it is important to note that the term “accuracy” is not well defined in most of these publications.

Thus, as a first step, it is important to recall some important concepts used in metrology [11]. The word “uncertainty” means doubt, and thus in its broadest sense “uncertainty of measurement” means doubt about the validity of the result of a measurement. The uncertainty of measurement is a parameter, associated with the result of a measurement, that characterizes the dispersion of the values that could reasonably be attributed to the measurand. The measurand is a particular quantity subject to measurement. Uncertainty of measurement comprises, in general, many components. Some of these components may be evaluated from the statistical distribution of a series of measurements and can be characterized by experimental standard deviations. The other components, which also can be characterized by standard deviations, are evaluated from assumed probability distributions based on experience or other information.

The accuracy of measurement is the closeness of the agreement between the result of a measurement and a true value of the measurand. It is stressed that the term “precision” should not be used for “accuracy” and that the true value of the measurand is never known.

Repeatability of results of measurements is the closeness of the agreement between the results of successive measurements of the same measurand carried out under the same conditions of measurement. Repeatability may be expressed quantitatively in terms of the dispersion characteristics of the results using multiple of standard deviation or width of confidence interval.

One source of uncertainty of a digital instrument is the resolution of its indicating device. For example, even if the repeated indications were all identical, the uncertainty of the measurement attributable to repeatability would not be zero, for there is a range of input signals to the instrument spanning a known interval that would give the same indication. If the resolution of the indicating device is the value of the stimulus that produces a given indication X can lie with equal probability anywhere in the interval X − δx/2 to X + δx/2.

The stimulus is thus described by a rectangular probability distribution of width δx with variance u2 = (δx)2/12, implying a standard uncertainty of u = 0.29 δx for any indication. Repeatability and resolution of indicating device are uncertainty components linked to the dataloggers characteristics. Uncertainty can arise also from the experimental procedure used to obtain measurements. The experimenter can choose different time frequency of reading measurements. The objective of this work is to characterize and propose a standardized method to present uncertainties while working with temperatures recorded during embryo studies.

There are different brands of data loggers available in the market, all of them with different features. Two characteristics which will affect uncertainty of measurement are particularly important when choosing a particular model: accuracy (precision of the material to record temperature) and resolution (how many digits are recorded). In addition, the researcher must define the rate of temperature data recordings during the period when the data logger will be used. In some cases, data loggers may have high resolution but low accuracy, or limited flexibility in the rate of data collection. Ordering a set of data loggers can be a Cornelian dilemma: should the priority be optimization of accuracy, of resolution, or the sampling rate?

An important first step is to clearly conceptualize the difference between resolution and accuracy. Resolution refers to the level of specificity that the data logger will record temperature in its memory. For example, a resolution of 0.5°C indicates that temperatures will be recorded by bins of 0.5°C, even if the electronic chips can read internally the temperature with better resolution. The number of possible temperature records that can be stored during a session is positively related to the available memory but negatively related to the resolution and the range of temperatures that can be recorded. Some data loggers allow the user to choose between several options to optimize eithe the resolution or the memory (Table 1).

For commercially available temperature data loggers, accuracy is represented in the particular logger’s technical datasheet as a range (±x°C), with x representing how close an individual recorded data point is from the true value. From a statistical point of view, this statement is too imprecise to be useful, because it is not clear if the ±x indicates a confidence interval, and if it is, there is no information about the underlying distribution and the range. Furthermore, it is not known if the data are censored or truncated [12]. In order to investigate this, we contacted the technical staff of the reseller PROSENSOR (Amanvillers, France) and they defined accuracy as the “maximal uncertainty of the measure”. However, this does not provide detail concerning the statistical distribution under consideration. We also contacted the technical support group at Onset Computer (Massachusetts, USA) about their definition of accuracy, to which the leader of the support group stated “I can say that the probability of the logger being within the advertised accuracy is very high. NIST testing can confirm that.” (NIST is the U.S. Commerce Department’s National Institute of Standards and Technology, which provides calibration services for temperature recording equipment). The statement from Onset Computer confirmed that a statistical distribution underlies what temperature data logger reports but again provided no specifics about the exact distribution. We assume that in both cases, the distributions of values generated by the data loggers were either a Gaussian or a uniform distribution. For modelling purposes, we assume the values generated conform to a uniform rectangular distribution, because it is a more conservative estimate (every allowable value is equally likely) and we cannot rule out data truncation by the data loggers due to limitations of their resolution. For this uniform distribution, the minimum and maximum possible values are defined by the ±x accuracy.

The uncertainty is then a specific measure of the quality of temperature recording by data loggers, considering the accuracy, the resolution and the sampling rate. Data logger uncertainty is then defined by the 95% confidence interval of the average temperature during a certain time, recorded during set sampling period by a data logger with known accuracy and resolution (Table 1).

Furthermore, we propose a standardized method to calibrate data loggers. The experimental procedure used for data logger calibration is sometimes described with detail in publications [13,14] but often the published procedure is reported as a simple comparison with a mercury thermometer. Furthermore, even when the experimental procedure was clearly stated, the mathematical method used to correct data logger temperatures when more than 2 control temperatures are used is rarely indicated. Regular calibration testing of data loggers is important because the drift of temperature accuracy can be as large as 0.1°C/year (for UA-001-08, pers. comm. from technical support group at Onset Computer). Our standardized method of calibration uses both a precise experimental procedure and a precise mathematical procedure.

    Materials and Methods

Uncertainty of a Measurement

We generated a simulation to measure the impacts of the accuracy, the resolution and the sampling rate on the quality of the average temperature data that are reported in published studies. To do this, we generated 10,000 time series of temperatures gradually changing at a rate chosen in a uniform distribution from -0.002 to +0.002°C per minute with the initial temperature being chosen in a uniform distribution from 25 to 30°C. We then retained only those records of the time series that corresponded to a specified sampling rate (e.g., for a sampling rate of 60 minutes, we retained only temperature data that occurred at the completion of every 60 minutes time bin). To incorporate errors associated with data logger accuracy, we added to each retained temperature a random number obtained from a uniform distribution centered on 0 and with minimum and maximum corresponding to the reported accuracy of each data logger. We truncated the recorded temperatures to mimic the impact of the limitations of the resolution of each data logger (the resolution effect). From a mathematical point of view, the resolution effect can be obtained using this formula:

int ((temperature + resolution / 2)*(1/ resolution))*resolution

With int being the closest allowable value based on the assumed level of resolution. This formula ensures that the truncation effect is well centered in the interval. As an example, assume a dataset has the following temperatures: 30, 30.1, 30.2, 30.3, 30.4, and 30.5°C, with assumed data logger resolution being 0.5°C. Applying this formula, the dataset is converted to what the data logger should report according to its resolution: 30.0, 30.0, 30.0, 30.5, 30.5, and 30.5°C.

Next, the uncertainty is defined as the 95% confidence interval of the difference between the true mean value and the recorded mean value during the relevant interval of time calculated for all the replicates. For the purpose of this test, we have created a function in the R package embryo growth

(version 7.3 and higher) available in CRAN:

uncertainty.datalogger (sample. rate,

accuracy, resolution,

max.time = 10 * 24 * 60,

replicates = 1000)

With sample.rate being the sample rate in minutes, accuracy being the accuracy of the data logger in °C, resolution being the resolution of the data logger in °C, and max.time being the total time period in minutes over which an average temperature is estimated. This function will generate replicates values of the average temperature for the whole period, and the uncertainty is defined by the range of 95% confidence interval of the difference between true and estimated mean temperature. Optional parameter method is used to control the output estimate as described in the help page of the function that can be displayed using ?uncertainty.datalogger.

Calibration of Data Loggers

For calibration purpose, the data loggers must be checked against at least 3 known temperatures, but better with more, and the recorded temperatures from the data loggers must be compared against temperatures concurrently read from a certified thermometer. A certified thermometer is one that has been certified as being accurate by a national standards laboratory, such as NIST in the U.S. Note that even certified thermometer should be checked for validity periodically, by sending them for testing to a national standards laboratory.

For the comparison at the known temperatures, the data loggers being tested should be immersed in a water bath (be sure the data loggers are waterproof) at the same time as the certified thermometer, preferably with water being stirred the entire time. The data logger should be programmed to record temperatures every minute, with the time of data recording noted by the researcher. At each minute the data logger records a temperature value, the researcher should also record the temperature from the certified thermometer. Begin with the water heated to the maximum anticipated temperature the data loggers will be recording during future research studies, and lastly the minimum anticipated temperature. It may be necessary to add colder water to the stirred bath if the lower end of the anticipated temperature range is below room temperature. The temperatures recorded with the certified mercury thermometer will serve as a reference to correct the temperatures recorded with the data logger. To make this calibration simpler, we have created a function: calibrate.datalogger () in the embryo growth R package

(version 7.3 and higher):

calibrate.datalogger (control.temperatures,

read.temperatures,

temperature.series, se. fit)

Where control.temperatures are the calibration temperatures, read.temperatures are the temperatures returned for each of the control.temperatures, temperature.series is a series

of temperatures to be corrected using the calibration, and se.fit indicates whether standard error of the corrected temperatures should be returned. A generalized additive model (parameter gam = TRUE) or a general linear model (parameter gam = FALSE) with Gaussian distribution of error and an identity link is used for this purpose. The help page of the function that can be displayed using?calibrate.datalogger.

    Results

Uncertainty of a Measurement

The uncertainty of measures obtained with two different data logger models were estimated using uncertainty.datalogger () function with 10,000 replicates and average for 10 days.

*The IP is an international standard published by the International Electrotechnical Commission (IEC). It uses a 2-number code, the first one designates dust resistance (0 to 6) and the second one designates water resistance (0 to 8); the higher the number, the more resistant is the product.

The results for iButton DS1921G-F5# (table 1) were generated using:

uncertainty.datalogger (sample.rate=c(30, 60, 90, 120),

max.time = 10 * 24 * 60,

accuracy=1, resolution=0.5)

The results were (Table 2):

and for Tinytag Talk 2 TK-4014 (Table 2), the results were generated with:

uncertainty.datalogger (sample.rate=c (30, 60, 90, 120),

max.time = 10 * 24 * 60,

accuracy=0.5, resolution=0.05)

The results were (Table 3):

The uncertainty returned by this function corresponds to the 95% confidence interval width of the difference between true average temperature and recorded average temperature: the uncertainty of the Tinytag Talk 2 TK-4014 for the average temperature recorded every 60 minutes is around 0.07°C whereas it is only around 0.15°C for the iButton DS1921G-F5#.

It should be noted that the response was not linear and uncertainty increased as the time interval between samples increased (Figure 1). The uncertainty is more dependent on the accuracy and second on the resolution. The measures were obtained with a large range of temperatures and temperature variations, thus the estimated uncertainty can be considered as being dependent only on the data logger characteristics and the sampling rate of temperatures.

Calibration of Data Loggers

Water was heated to 40°C in a microwave oven and a UA- 001-08 data logger was immersed in the water as well as a certified mercury thermometer. Temperatures were recorded with the data logger and read in thermometer every 5 minutes until water temperature reached air temperature +5°C (Figure 2A). Then the calibration procedure has been run using the function calibrate.datalogger () in R package embryo growth. The corrected temperature recorded by data logger and the temperature recorded using certified mercury thermometer are shown in Figure 2B.

    Discussion

The choice of a sampling rate should depend on the required level of uncertainty for the average temperature considered, on the available memory in the data logger, and the availability and cost of different data loggers. It is particularly useful to define precisely the uncertainty of the measured temperature when the studied phenomenon is highly sensitive to temperature change. For example, the pattern of temperature-dependent sex ratio in the marine turtle Dermochelys coriacea shifts from 100% males to 100% females in less than 0.6°C [9,15]. This range of temperatures producing both sexes is called the transitional range of temperatures (TRT). In this case, when the average temperature is studied for 10 days, which correspond to the thermosensitive period of the development (TSP) at high incubation temperatures [16], the ratio between uncertainty of average temperature and TRT can be as high as 24% (Figure 3). In such a case it will be difficult to estimate the real impact of temperature change for this characteristic.

Calibration does not seem to be a critical part of the procedure with our tested data logger: the uncertainty of data logger was on the same order than the uncertainty of certified mercury thermometer and much better than the uncertainty of certified alcohol thermometer. However, we recommend to always calibrate data logger before and after use for an experiment especially for long period of recording. Both before and after calibrated time series must be included in control. temperatures and read. temperatures parameters in the calibrate.datalogger () function. The standard error obtained for each temperature after calibration is pertinent as it includes corrections for accuracy and resolution characteristics of the data logger but also accuracy and resolution for the calibration thermometer and also temporal drift when before and after calibration temperatures are used.

The correct calibration and adequate uncertainty of data loggers according to the analyzed temperature-dependent phenomenon seem quite logical but they are not always correctly done or at least reported not in publications. When data loggers are used to record temperatures to be analyzed in the context of temperature change due to climate-change, it appears crucial that temperatures are recorded with known uncertainty that is at least smaller than the supposed effect of temperature.

For publication purpose, the function uncertainty. datalogger () can be used to evaluate the uncertainty of one measurement taking into account both accuracy and resolution effect. It can be used also to evaluate the uncertainty of series of measurements done during H hours at a h sampling rate.

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Temperature and Humidity Data Loggers Market Analysis and Opportunity Assessment 2018-2026

The latest research report on the Temperature and Humidity Data Loggers Market for the forecast period, 2018 - 2025 is involved in screening the business environment and the companies operating in the Temperature and Humidity Data Loggers industry.

Scope of the Report:

The Temperature and Humidity Data Loggers market is further segmented in terms of applications, end-user, end-use, geographic presence, by-products as well as services. In addition, the subject matter experts evaluating the industry provide an all-inclusive category-specific industry outlook. A comprehensive collection of data on major companies occupying a strong foothold in the industry adds immense value to the overall research.

To get Free Sample Report Copy click here @ https://www.marketexpertz.com/sample-enquiry-form/18253

The major players covered in this report:

·        Computer Aided Solutions, LLC.

·        GLOBAL COLD CHAIN SOLUTIONS PTY LTD

·        Sansel Instruments & Controls

·        Cryopak

·        OMEGA Engineering Inc.

·        Davis Instruments

·        Marathon Products, Inc.

·        Omega Engineering

·        Tinytag

·        ThermoWorks

·        Jakar Electronics

·        DICKSON

Geographically, this report studies the top producers and consumers, focuses on product capacity, production, value, consumption, market share and growth opportunity in these key regions, covering

·        North America

·        Europe

·        China

·        Japan

·        Southeast Asia

·        India

Importantly, the research sheds a lot of light on their winning strategies to help stakeholders, business owners, and field marketing executives stay ahead in the competition. Besides, the industry is thoroughly weighed upon on the basis of the total revenue generated as well as the output/volume produced year after year.  Other aspects including but not limited to the market drivers, key opportunities and probable restraints are thoroughly assessed during the study.

On the basis of product, this report displays the production, revenue, price, market share and growth rate of each type, primarily split into

·        Stationary

·        Portable

On the basis on the end users/applications, this report focuses on the status and outlook for major applications/end users, sales volume, market share and growth rate for each application, including

·        Agriculture

·        Food

·        Climate Record

·        Others

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Key Stakeholders

Temperature and Humidity Data Loggers Manufacturers

Temperature and Humidity Data Loggers Distributors/Traders/Wholesalers

Temperature and Humidity Data Loggers Subcomponent Manufacturers

Industry Association

Downstream Vendors

In this study, the years considered to estimate the market size of Temperature and Humidity Data Loggers are as follows:

History Year: 2013-2017

Base Year: 2017

Estimated Year: 2018

Forecast Year: 2018 to 2025

The study objectives of this report are:

·        To analyse and study the global Temperature and Humidity Data Loggers capacity, production, value, consumption, status (2013-2017) and forecast (2018-2025);

·        Focuses on the key Temperature and Humidity Data Loggers manufacturers, to study the capacity, production, value, market share and development plans in future.

·        Focuses on the global key manufacturers, to define, describe and analyse the market competition landscape, SWOT analysis.

·        To define, describe and forecast the market by type, application and region.

·        To analyse the global and key regions market potential and advantage, opportunity and challenge, restraints and risks.

·        To analyse the opportunities in the market for stakeholders by identifying the high growth segments.

·        To strategically profile the key players and comprehensively analyse their growth strategies.

Key Points from TOC:

Global Temperature and Humidity Data Loggers Sales Market Report 2018

1 Temperature and Humidity Data Loggers Market Overview

1.1 Product Overview and Scope of Temperature and Humidity Data Loggers

1.2 Classification of Temperature and Humidity Data Loggers by Product Category

1.2.1 Global Temperature and Humidity Data Loggers Market Size (Sales) Comparison by Type (2013-2025)

1.2.2 Global Temperature and Humidity Data Loggers Market Size (Sales) Market Share by Type (Product Category) in 2017

1.4 Global Temperature and Humidity Data Loggers Market by Region

1.4.1 Global Temperature and Humidity Data Loggers Market Size (Value) Comparison by Region (2013-2025)

1.4.2 United States Temperature and Humidity Data Loggers Status and Prospect (2013-2025)

1.4.3 Europe Temperature and Humidity Data Loggers Status and Prospect (2013-2025)

1.4.4 China Temperature and Humidity Data Loggers Status and Prospect (2013-2025)

1.4.5 Japan Temperature and Humidity Data Loggers Status and Prospect (2013-2025)

1.4.6 Southeast Asia Temperature and Humidity Data Loggers Status and Prospect (2013-2025)

1.4.7 India Temperature and Humidity Data Loggers Status and Prospect (2013-2025)

1.5 Global Market Size (Value and Volume) of Temperature and Humidity Data Loggers (2013-2025)

1.5.1 Global Temperature and Humidity Data Loggers Sales and Growth Rate (2013-2025)

1.5.2 Global Temperature and Humidity Data Loggers Revenue and Growth Rate (2013-2025)

Continue…

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Global Temperature Data-logger Market Growth 2019-2024

Temperature Data-loggers is also called temperature monitor, is a portable measurement instrument that is capable of autonomously recording temperature over a defined period of time. The digital data can be retrieved, viewed and evaluated after it has been recorded. A data logger is commonly used to monitor shipments in a cold chain and to gather temperature data from diverse field conditions.

The global Temperature data-loggers of the main market is dispersed by many firms, there is no firm that can monopolize the Temperature data-loggers market. We speculate that all the 18 companies in our company list can only occupy about nearly 65% of the global market of Temperature data-loggers. In the downscale market has not yet formed a monopoly situation, there is still room to enter into.

Request Sample Report@ https://www.acquiremarketresearch.com/sample-request/407

Entering 2016, Temperature data-loggers industry keep maintaining low growth trend of previous years, but investors are still optimistic about this area; the future will still have more new investment enter the field.

The number of patients from both global and Chinese keep increasing every year, consumer group of the Temperature data-loggers products is huge, and the market potential is tremendous.

According to this study, over the next five years the Temperature Data-logger market will register a xx% CAGR in terms of revenue, the global market size will reach US$ xx million by 2024, from US$ xx million in 2019. In particular, this report presents the global market share (sales and revenue) of key companies in Temperature Data-logger business, shared Chapter 3.

This report presents a comprehensive overview, market shares, and growth opportunities of Temperature Data-logger market by product type, application, key manufacturers and key regions and countries.

This study considers the Temperature Data-logger value and volume generated from the sales of the following segments:

Segmentation by product type: breakdown data from 2014 to 2019, in Section 2.3; and forecast to 2024 in section 11.7.

Stand-alone Data Logger

Web-based Data Logger

Wireless Data Logger

BLE Data Logger

Segmentation by application: breakdown data from 2014 to 2019, in Section 2.4; and forecast to 2024 in section 11.8.

Medical Industry

Food Industry

Electronic Industry

Agricultural Industry

Others

This report also splits the market by region: Breakdown data in Chapter 4, 5, 6, 7 and 8.

Americas

United States

Canada

Mexico

Brazil

The report also presents the market competition landscape and a corresponding detailed analysis of the major vendor/manufacturers in the market. The key manufacturers covered in this report: Breakdown data in in Chapter 3.

Rotronic

Nietzsche Enterprise

Tmi Orion

Testo

Signatrol

Elpro-Buchs

Omega

KIMO

More info and TOC@ https://www.acquiremarketresearch.com/industry-reports/global-temperature-data-logger-market-growth-2019-2024/407/

In addition, this report discusses the key drivers influencing market growth, opportunities, the challenges and the risks faced by key manufacturers and the market as a whole. It also analyzes key emerging trends and their impact on present and future development.

Research objectives:

To study and analyze the global Temperature Data-logger consumption (value & volume) by key regions/countries, product type and application, history data from 2014 to 2018, and forecast to 2024.

To understand the structure of Temperature Data-logger market by identifying its various subsegments.

Focuses on the key global Temperature Data-logger manufacturers, to define, describe and analyze the sales volume, value, market share, market competition landscape, SWOT analysis and development plans in next few years.

To analyze the Temperature Data-logger with respect to individual growth trends, future prospects, and their contribution to the total market.

To share detailed information about the key factors influencing the growth of the market (growth potential, opportunities, drivers, industry-specific challenges and risks).

To project the consumption of Temperature Data-logger submarkets, with respect to key regions (along with their respective key countries).

To analyze competitive developments such as expansions, agreements, new product launches, and acquisitions in the market.

To strategically profile the key players and comprehensively analyze their growth strategies.

Table of Contents:

1 Scope of the Report

1.1 Market Introduction

1.2 Research Objectives

1.3 Years Considered

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Build It and They Will Come

The last nail driven into wood-fibre panel insulation in a home in British Columbia could mark for the Canadian home-building industry a new standard in building construction while ushering in a new era of green, sustainable, and high-performance building insulation for residential and commercial structures.

Private forestry R&D company FPInnovations, 475 High Performance Building Supply, and the Canadian Wood Council have partnered to build three high-profile residential projects located  in B.C., Saskatchewan, and Ontario, to demonstrate the suitability of wood-fibre insulation panels. The wood-fibre insulation panels are ecologically friendly and are expected to perform better than traditional rigid foam insulation.

The B.C. home, completed in the summer of 2018, is the last of the high-performance projects built to Passive House standards in the trial. Contractors used wood-fibre insulation panels imported from Europe, where they're a mainstay in home construction, instead of rigid foam, to insulate exterior walls. The trio behind the initiative believe that wood-fibre insulation panels can be manufactured in Canada far less expensively than in Europe, with an R-factor rating equivalent to rigid foam panels.

“Dry process wood-fibre insulation panels are the future of building insulation in Canada because we have the natural resources and industry to produce them economically,” says FPInnovations lead scientist, Bob Knudson. “We have excess fibre from saw mills for their production, and they offer superior performance and insulation, in addition to being environmentally safer than rigid foam insulation.”

Superior Performance

FPInnovations designed tests to determine the fire safety, stability, durability, and insulation rating of the panels. Wood-fibre insulation showed superior fire performance compared to polymer foam insulation types that are currently used in North America, and the panels also showed superior moisture management in wall and roof systems compared to polymer foam insulation.

The panels are made of refined wood chips and shavings. The resulting fibre is dried, mixed with polyurethane adhesive and paraffin, formed into a continuous fibre mat, sized to desired thickness, and cured. The resulting panels are then milled to the desired size and edge configuration. The manufacturing process allows for a homogeneous board from 20-millimetres up to 300-mm thick.

“We believe that wood-fibre insulation is a high performance board that is not only breathable and highly insulating, it's ecologically sound, renewable, recyclable, and lasts the lifetime of the building,” says municipal affairs and technical manager at Wood WORKS! B.C. and the Canadian Wood Council, Peter Moonen. “Wood-fibre insulation is not a structural panel plywood, OSB, or other structural sheathing. It is a superb insulation panel that offers exceptional thermal and acoustic insulation in both partition and structural walls.”

The partners found homeowners willing to have wood-fibre insulation panels installed in their homes by offering them at a discount in exchange for FPInnovations monitoring their performance through sensors installed in the buildings. The three residential building projects were also chosen for their locations in different Canadian climates. The B.C. house located in Gibsons, is in mixed marine climate zone 4C. The Ontario build is a single family residence near Collingwood in cold-humid climate zone 6A, while the Saskatoon, Saskatchewan project is a nine-unit co-housing development in very cold climate zone 7.

“We believe these panels will lead to a transformation of the North American construction industry towards making durable, high-performance Passive House and zero-energy buildings more common,” says western regional manager at 475 High Performance Building Supply, Lucas Johnson. “We built three unique projects, each with distinct features, to demonstrate the versatility of wood-fibre insulation panels.”

Customized Uses

The B.C. single storey pre-fabricated Gibsons house meets LEED Platinum standards and showcases wood as a structural composite material. The walls are constructed of 100-mm thick, 3-ply CLT with 100-mm of rigid wood-fibre insulation fastened to the outside of the CLT. The wood-fibre insulation is covered with building wrap and exterior cladding. The green roof used 240-mm wood-fibre panel insulation and performance monitoring instrumentation was installed onto the prefabricated wall and roof modules.

The build in Collingwood added a two-storey contemporary addition to a 150 year-old pioneer cedar-log house and used 80-mm dry process wood-fibre insulation panels attached to outside two by eight inch bearing stud walls sheathed with half-inch plywood.

The co-housing project consisted of a privately owned nine-unit townhouse development showcasing low cost of living through low energy use. It relied on both 40-mm panels and 240-mm wood-fibre panels attached on the outside of two by six inch insulated bearing stud walls sheathed with three-quarter OSB.

“Our low-cost construction method required a thick rigid exterior insulation product and wood-fibre insulation is one the few products we found with negative embodied carbon,” says Knudson. “The pressed-wood fibres trap carbon and sequester it for the life of the building.”

The instrumentation installed in each building consists of point moisture measurement, relative humidity, and temperature sensors, as well as data logger units and a tactical intelligence gateway. Each home's performance is being monitored by FPInnovations for at least one-year and meaningful results are expected in early 2019.

“We have the natural resources for the raw materials and the industry know-how to make these panels in Canada,” says Johnson. Currently, wood-insulation panels are an imported construction material. “They can truly transform the industry because they're environmentally friendly to make, reduce onsite labour and waste, and they're recyclable as well.”

The future of wood-fibre panel insulation faces many challenges in becoming mainstream practice. Wood is thought of as a combustible product yet the panels exceed fire-safety standards. In Canada, they're seen as a hard-to-believe-it's-true new product, yet they've been used for over 25 years across Europe and their popularity is growing there. Knudson believes education is the key to building a Canadian market. “First we had to build homes to show the industry that these panels are as good as rigid foam insulation,” he says. “When the data is analyzed, the results will demonstrate their effectiveness and reliability, and then I'm sure manufacturers will come forward.” https://constructionlinks.ca/news/build-will-come/ Established in 2003, Construction Links Network is a peer-to-peer network sharing platform for the construction, building and design community. This one-of-a-kind platform provides the tools necessary to source and distribute the latest news, videos, events and innovative products / services the industry has to offer which helps our members plan, design and build great projects around the world. #construction #building #architecture #engineer #safety #realestate #environment

Temperature Data-logger Market Growth Opportunity, Key Market And Key Players till 2028

April 23, 2020: The global Temperature Data-logger market was valued at $XX million in 2018, and Radiant Insights analysts predict the global market size will reach $XX million by the end of 2028, growing at a CAGR of XX% between 2018 and 2028. This report provides detailed historical analysis of global market for Temperature Data-logger from 2013-2018, and provides extensive market forecasts from 2019-2028 by region/country and subsectors. It covers the sales volume, price, revenue, gross margin, historical growth and future perspectives in the Temperature Data-logger market. Leading players of Temperature Data-logger including: •    Rotronic •    Nietzsche Enterprise •    Tmi Orion •    Testo •    Signatrol •    Elpro-Buchs •    Omega •    KIMO •    In-Situ •    Temprecord International •    Digitron Italia •    Ebro Electronic •    Dickson •    Delta OHM •    Onset •    Gemini Data Loggers •    Lascar Electronics •    MadgeTech Request a Free Sample Copy of this Report @ https://www.radiantinsights.com/research/2013-2028-report-on-global-temperature-data-logger-market/request-sample Market split by Type, can be divided into: •    Stand-alone Data Logger •    Web-based Data Logger •    Wireless Data Logger •    BLE Data Logger Market split by Application, can be divided into: •    Medical Industry •    Food Industry •    Electronic Industry •    Agricultural Industry •    Others Market split by Sales Channel, can be divided into: •    Direct Channel •    Distribution Channel Market segment by Region/Country including: •    North America (United States, Canada and Mexico) •    Europe (Germany, UK, France, Italy, Russia and Spain etc.) •    Asia-Pacific (China, Japan, Korea, India, Australia and Southeast Asia etc.) •    South America Brazil, Argentina, Colombia and Chile etc.) •    Middle East & Africa (South Africa, Egypt, Nigeria and Saudi Arabia etc.) Download Full Research Report @ https://www.radiantinsights.com/research/2013-2028-report-on-global-temperature-data-logger-market Table of Contents Chapter 1 Temperature Data-logger Market Overview    1.1 Temperature Data-logger Definition    1.2 Global Temperature Data-logger Market Size Status and Outlook (2013-2028)    1.3 Global Temperature Data-logger Market Size Comparison by Region (2013-2028)    1.4 Global Temperature Data-logger Market Size Comparison by Type (2013-2028)    1.5 Global Temperature Data-logger Market Size Comparison by Application (2013-2028)    1.6 Global Temperature Data-logger Market Size Comparison by Sales Channel (2013-2028)    1.7 Temperature Data-logger Market Dynamics        1.7.1 Market Drivers/Opportunities        1.7.2 Market Challenges/Risks        1.7.3 Market News (Mergers/Acquisitions/ Expansion) Chapter 2 Temperature Data-logger Market Segment Analysis by Player    2.1 Global Temperature Data-logger Sales and Market Share by Player (2016-2018)    2.2 Global Temperature Data-logger Revenue and Market Share by Player (2016-2018)    2.3 Global Temperature Data-logger Average Price by Player (2016-2018)    2.4 Players Competition Situation & Trends    2.5 Conclusion of Segment by Player Chapter 3 Temperature Data-logger Market Segment Analysis by Type    3.1 Global Temperature Data-logger Market by Type        3.1.1 Stand-alone Data Logger        3.1.2 Web-based Data Logger        3.1.3 Wireless Data Logger        3.1.4 BLE Data Logger    3.2 Global Temperature Data-logger Sales and Market Share by Type (2013-2018)    3.3 Global Temperature Data-logger Revenue and Market Share by Type (2013-2018)    3.4 Global Temperature Data-logger Average Price by Type (2013-2018)    3.5 Leading Players of Temperature Data-logger by Type in 2018   About Radiant Insights: At Radiant Insights, we work with the aim to reach the highest levels of customer satisfaction. Our representatives strive to understand diverse client requirements and cater to the same with the most innovative and functional solutions. Media Contact: Michelle Thoras. Corporate Sales Specialist Radiant Insights, Inc. Phone: +1-415-349-0054 Toll Free: 1-888-928-9744 Email: [email protected] Web: https://www.radiantinsights.com/                                                                                                                                                                                                                                                                                                                                

Weather Forecasting Systems Market Growth Prospects Mapping, Size Analysis, Variables, Trends and Scope Study

The Growth of the weather forecasting systems market can be attributed to the increasing demand for highly accurate weather forecasting systems from various end-use industries and investments by governments of various countries and a number of companies for the development of advanced weather forecasting systems.

The global weather forecasting systems market is estimated to be USD 2.3 billion in 2019 and is projected to reach USD 3.3 billion by 2025, at a CAGR of 5.7% from 2019 to 2025.

Based on vertical, the renewable energy segment is projected to grow at the highest CAGR during the forecast period. Weather forecasting systems play a crucial role in designing optimal offshore wind turbine capacities, depending on climatic conditions. Therefore, there is a need for accurate weather forecasts for the integration of large amounts of power generated from renewable sources of energy into power supply grids. This is expected to help meet the increased demand for power from consumers across the globe.

Based on solution, the software segment of the weather forecasting systems market is projected to grow at the highest CAGR during the forecast period

Based on solution, the software segment of the weather forecasting systems market is projected to grow at the higher CAGR between 2019 and 2025 due to the increasing demand for weather analytics, monitoring & display software, and data collection & processing software for weather predictions with the use of present and historical weather data. Increasing capabilities of supercomputers used for weather forecasts and improvements in the efficiency of long-range forecasting systems offer new growth opportunities for players operating in the market.

The Asia Pacific weather forecasting systems market is projected to grow at the highest CAGR from 2019 to 2025

Based on region, the Asia Pacific weather forecasting systems market is projected to grow at the highest CAGR during the forecast period. Market growth is primarily due to the increased demand for continuous weather monitoring for disaster management, and improvement in the economy of the Asia Pacific region. In addition, rapid industrialization and growth of the transportation sector in countries, such as Japan, China, and India, among others have led to a significant rise in the level of greenhouse gases in these countries. The harmful emissions of greenhouse gases can be monitored and consequently, measured with the help of advanced weather forecasting systems.

Some of the major players in the weather forecasting systems market in North America include The Weather Company (US), Sutron Corporation (US), Campbell Scientific (US), Airmar Technology Corporation (US), All Weather, Inc. (US), Morcom International (US), Columbia Weather Systems (US).  G. Lufft Mess-und Regeltechnik (Germany), Vaisala (Finland), and Skye Instruments (UK) are some of the leading companies in Europe operating in the market in Europe.

AccuWeather (US) specializes in weather systems, such as podcast and network. It launched various new products in the market that are cheaper than those offered by its competitors. In April 2019, AccuWeather partnered with JW Player to launch new video content options that include OTT experiences, 360 degree, and VR capabilities. The objective behind this strategy is to support and accelerate its ongoing expansion in video delivery.

Campbell Scientific (US) is a leading designer, manufacturer, and marketer of data loggers, data acquisition systems, and measurement and control products that are used in the environment, research, and industrial sectors. In February 2018, Campbell Scientific launched the new MesoPRO weather station which provides vital weather information. This weather station is designed for large meteorological networks, which require the measurement of wind speed, wind direction, air temperature, relative humidity, barometric pressure, solar radiation, precipitation, soil water content, and soil moisture. This organic strategy is expected to increase its customer base in the meteorological vertical segment.

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Global Temperature Data-logger Market Analysis, Opportunities, Challenges and Growth Factors till 2028

Global Temperature Data-logger Market Analysis, Opportunities, Challenges and Growth Factors till 2028

April 23, 2020: The global Temperature Data-logger market was valued at $XX million in 2018, and Radiant Insights analysts predict the global market size will reach $XX million by the end of 2028, growing at a CAGR of XX% between 2018 and 2028.

This report provides detailed historical analysis of global market for Temperature Data-logger from 2013-2018, and provides extensive market forecasts…

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