The Science Research Manuscripts of S. Sunkavally. Page 212.



Hyponatremia, defined as a serum sodium concentration below 135 mEq/L, is usually caused by a failure to excrete water normally. In healthy individuals, the ingestion of water does not lead to hyponatremia because suppressed release of antidiuretic hormone (ADH), also called vasopressin, allows excess water to be excreted in a dilute urine.

●The initial diagnostic approach to the adult patient with hyponatremia consists of a directed history and physical examination as well as selected laboratory tests. When hyponatremia is first discovered, some elements of the history, key features of the physical exam, and the results of several helpful laboratory tests are usually already available, and these guide the subsequent diagnostic approach:

•If hyperglycemia is present, the serum sodium concentration should be corrected for the effect of glucose to exclude hypertonic hyponatremia. To calculate the "corrected" serum sodium, we recommend the use of the following ratio: the sodium concentration will fall by approximately 2 mEq/L for each 100 mg/100 mL (5.5 mmol/L) increase in glucose concentration.

•Patients with lipemic serum, severe obstructive jaundice, or a known plasma cell dyscrasia may have pseudohyponatremia. This laboratory artifact can occur if the sodium is measured with flame photometry or indirect potentiometry using ion-selective electrodes when the solid phase portion of serum or plasma is increased due to severe elevations of triglycerides, lipoprotein-X, or protein. The true concentration of sodium in plasma water can be measured using direct ion-selective electrodes, which are not susceptible to the artifact. Such direct ion-selective electrodes are utilized by most "point of care" bedside analyzers and devices used to measure blood gases. In addition, patients with pseudohyponatremia typically have a normal serum osmolality.

•Patients who have had recent surgery utilizing large volumes of electrolyte-poor irrigation fluid (eg, prostate or intrauterine procedures) and those treated with mannitol, glycerol, or intravenous immune globulin may have isotonic or hypertonic hyponatremia. Measurement of the plasma osmolality is helpful in these settings.

•Patients who do not have hyperglycemia or one of these other features associated with pseudohyponatremia, isotonic hyponatremia, or hypertonic hyponatremia are likely to have hypotonic hyponatremia.

●The serum creatinine concentration, which can be used to estimate glomerular filtration rate (GFR), and the patient's medication history are typically available at the time that hyponatremia is discovered. Both severely reduced GFR and thiazide (or thiazide-type) diuretics are important causes of hypotonic hyponatremia.

●In patients with hypotonic hyponatremia who do not have severely reduced GFR and who are not taking a thiazide diuretic, or in patients suspected of having an additional cause of hyponatremia, the subsequent evaluation depends upon whether or not the patient has clinically apparent edema and/or ascites:

•Patients with hyponatremia due to heart failure or cirrhosis typically have advanced disease and present with clinically apparent peripheral edema and/or ascites along with a previous diagnosis of heart or liver failure.

•Nonedematous patients with hypotonic hyponatremia are either euvolemic or hypovolemic. Most patients with hyponatremia due to true hypovolemia will have obvious signs of volume depletion; however, some hypovolemic patients have more subtle signs and are mistakenly judged to be euvolemic. The evaluation of nonedematous patients usually requires further testing:

-Hyponatremic patients who present with clinical symptoms and signs of hypovolemia may have extrarenal fluid losses or renal fluid losses. Measurement of the urine sodium and chloride concentrations can often distinguish between these two causes.

-Most hyponatremic patients who appear to be euvolemic by physical examination have the syndrome of inappropriate ADH (SIADH). However, such patients may occasionally have hyponatremia due to true volume depletion, primary polydipsia, malnutrition, glucocorticoid deficiency, or severe hypothyroidism. The subsequent evaluation in such patients includes measurement of the urine sodium and urine osmolality as well as levels of cortisol and thyroid-stimulating hormone.

We are an industry leading chemical detection equipment supplier.  We are the UK partner for all Proengin CBRN detection equipment that uses flame photometry technology.  AP4C and other flame photometry technology are proven worldwide as a leading first-line detector for chemical warfare agents and TICs.  We also offer UC AP4C or TIMs as a leading toxic industrial chemical detection equipment supplier.

Photometer and Calorimeter Market Forecast to Reach $904.4 Million by 2026

Global Photometer and Calorimeter Market is forecast to reach $904.4 million by 2026, growing at a CAGR of 15.4% during the forecast period from 2021 to 2026. Photometer can be referred as a device which measures light intensity or electromagnetic radiation along with optical properties of varied surfaces, whereas calorimeter are those apparatus used to measure liberating heat or getting absorbed during chemical or physical changes process. Since these types of devices are highly important across applications including research, processing or analysis fields and so on, there exists a market growth. Growing demand towards measuring laboratory and analytical tools within end use verticals such as automotive, biomedical, waste water treatment with others serves as a major factor boosting the market growth of photometers and calorimeters. Increasing adoption from waste water treatment plants as well as need for analytical instruments in varied medical treatment procedures has been also aiding the demand towards photometers and calorimeters.

Photometer and Calorimeter Market Segment Analysis – By Photometer Type

Based on type, Photometer market has been segmented under Microscope, Multiwave (Fiber Optic, Ultraviolet, Infrared), Portable, Microplate, Flame and Others. Flame Photometers are anticipated to witness a significant growth of 16.2% through 2026 in the photometer and calorimeter market over the forecast period 2021-2026. Flame photometers are those devices used for detecting metal salt ions as well as determine concentrations within different substances accurately. Owing to its features including convenient, selective and sensitive analysis along side estimating rarely analyzed elements precisely can act a major factor driving its growth across application areas including pharmaceuticals, food & beverage, chemicals and so on. Usage of flame photometry has been gaining popularity due to providing faster sensitive analysis, eliminating interference as well as suitability for determining very low concentrations of metals within the samples. Stringent regulations to maintain product quality across pharma and food sector to determine sodium, potassium and others limit, creates the need for quality control monitoring for pharmaceutical reagents, fruit juices, milk powder and so on, thus positively impacting the growth of flame photometers. A leading manufacturer of flame photometric equipment, BWB Technologies offers 5-channel flame photometer, BWB XP, capable of providing unsurpassed levels of accuracy, reliability and usability alongside minimizing analysis time. This photometer also has an exceptionally low carbon footprint, thereby creating its high demands within some major end use markets.

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Photometer and Calorimeter Market Segment Analysis – By Calorimeter Type

Based on type, Calorimeter market has been segmented under Bomb, Micro, Accelerated rate, Differential scanning, Coffee cup, Reaction and Others. Bomb calorimeter is analyzed to witness a significant growth of 17.2% CAGR in the global calorimeter market over the forecast period. Bomb calorimeters are those calorimeters used for measuring heat flow for solids with low to high temperature reactions. As compared to other available calorimeters in the market, these types of calorimeters include a bomb vessel, capable of getting reused with a simple cooling cycle. This factor eventually had been boosting its market growth across different industry verticals. Moreover, these bomb calorimeters are extremely fast and require easy setup, thus gaining it wide popularity. Capable offers more accurate results while minimizing human made errors, these calorimeters helps in providing energy content of the burning substance, eliminating the need for calculation by the end users. Such factors are further set to create significant market growth of bomb calorimeters, owing to its application areas including fuel testing, propellants and explosives testing, metabolic studies with many others in the near future.

Photometer and Calorimeter Market Segment Analysis – By Geography

Asia-Pacific is analyzed to witness a significant growth in the photometer and calorimeter market during the forecast period 2021-2026 to reach 31% share in 2026. Factors such as growing adoption across end use verticals including chemicals, waste water treatment, biomedical among others as well as high research and development activities can be considered as some of the major factors impacting the growth of photometer and calorimeter in the region. Presence of some major players such as Horiba Ltd., Yokogawa Electric Corporation, Shimadzu Corporation and many others help in boosting the growth of photometer and calorimeter. In addition to this, technological advancements or infrastructural growth within oil & gas and petrochemical industries are also anticipated to propel further market growth within the Asia region. In November 2020, State owned Oil India Ltd announced the launch of 220 crore seismic campaign in order to locate oil and gas within the Mahanadi basin in Odisha. This was meant to boost the India’s hydrocarbon resource base, thereby creating demands for photometer and calorimeters in the long run.

Photometer and Calorimeter Market Drivers

Rising demand towards water and waste water treatment

The rising demand towards encouraging water and waste water treatment can be considered as a major driving factor in the photometer and calorimeter market. Due to rapid industrial growth worldwide, there is generation of massive amounts of hazardous chemical wastes which can potentially damage the water bodies overtime, thus making waste water treatment practices essential. Water and waste water treatment involves segregation processes in order to measure or determine impurities for drinking water along with monitoring control of discharged waste water from industrial plants, which eventually affects the need for photometers or calorimeters. With governmental practices, such as the Global Wastewater Initiative (GW2I), helps in promoting good waste water management practices as well as work towards converting it into a potentially valuable resource. These efforts aimed to increase waste water treatment activities, potentially impacts the growth of various instruments to ensure high quality standards of water. Applications including waste water or raw water treatment, drinking water treatment, disinfectant control and many others involve the need for various analytical instruments like portable photometers, which had been eventually impacting its market growth.

Increasing adoption due to rise of medical sector

Rise of medical sector creates growing deployment of various analytic tools which is analyzed to drive the market growth of photometer and calorimeter over the forecast period. With growing rate of health diseases, medical professionals opt for testing parameters including blood glucose, heart rate, haemoglobin concentration and so on, which eventually impacts the need for medical instruments capable of offering minimal professional intervention coupled with non-invasive nature. These factors eventually have aided the growth of photometers over the years and are set to propel further owing to medical advancements. In addition to this, factors like portability and improved flexibility had been also intensifying the treatment of aging as well as various lifestyle diseases overtime while significantly impacting the photometer and calorimeter market. Usage of calorimetry devices help in targeting nutritional goals including both proteins as well as administered calories to resting energy expenditure ratio (AC/REE), ensuring optimum patient care within hospitals. In 2019, a nano fabricated chip calorimeter was introduced in order to address the challenges faced in conventional radiation dosimeters for small-field radiography. With this calorimeter, medical workers can eventually eradicate inaccurate dose measurements, thereby advancing the medical radiation technologies. Such factors have been helping in meeting the rising demands across medical treatment procedures.

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Photometer and Calorimeter Market Challenges

High costs

High costs of photometers and calorimeters are considered as one of the major challenge impeding its market growth. Owing to its high initial costs, these analytic instruments face lesser adoption across small scale as well as medium sized industries. With rise of technological advances, various manufacturers have started shifting towards making portable, compact as well as rugged photometers and calorimeters capable of controlling uneven heat dissipation and many such emissions. Heating of these analysis equipment overtime eventually affects its working efficiency, thus creating need for maintenance and repair services. Additionally, the need towards minimizing errors and offering accurate results for different end users makes it expensive due to calibrating advanced components.

Market Landscape

Partnerships and acquisitions along with product launches are the key strategies of the players in the Photometer and Calorimeter Market. The major key players in the Photometer and Calorimeter Market include Horiba Ltd., Hanna Instruments, ABB Ltd., Konica Minolta Inc., SWAN Analytical Instruments AG, Yokogawa Electric Corporation, TA Instruments Inc., Mettler Toledo, Shimadzu Corporation and PARR Instrument Company.

Partnerships/Product Launches/Acquisition

In May 2019, Radiant Vision Systems had announced the launch of a 43 megapixel CCD imaging system as a part of its product line of Prometric photometers. This Prometric Y43 photometer is capable of offering extremely high CCD resolution for enabling advanced measurement capacity, particularly for display as well as consumer electronics manufacturers.

In March 2019, Implen GmbH had announced the launch of an UV/VIS multi-channel spectro photometer, named NanoPhotometer N120. This instrument has extremely compact and standalone design, capable of performing rapid full scan analysis upto 12 samples over a wide concentration range.

Key Takeaways

Flame photometers is expected to have a major growth during the forecast period 2021-2026 in the photometer market owing to its capabilities including faster sensitive analysis along with being a suitable choice for determining very low concentrations within samples.

Key players such as Shimadzu Corporation, Yokogawa Electric Corporation with many others can be considered as a major driver analyzed to fuel the growth of photometer and calorimeter market within APAC region in the near future.

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B. Indirect Calorimeter Market

https://www.industryarc.com/Research/Indirect-Calorimeter-Market-Research-511323

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Study on the Soil Fertilizing Activities of Salt Tolerant Yeast Isolates _ Crimson Publishers

Study on the Soil Fertilizing Activities of Salt Tolerant Yeast Isolates by  Zaw KL in  Journal of Biotechnology & Bioresearch

Twelve salt tolerant yeasts were isolated from various salted soils from Thanlyin Township, Yangon Region. The salt tolerant activity was determined by plate screening in different salt concentrations. Among them, four yeast isolates which have the highest salt tolerance activity (3-14%) were selected for further study. These four isolates grow well in temperature from 15 °C to 45 °C and pH range 3-9. The fertilizing activities of yeast isolates such as nitrogen fixing activity was measured by Indophenol method, phosphorus solubilizing activity and potassium decomposing activity were determined by spectrometry and Flame Photometry respectively. Among four isolates, the best two isolates were chosen and used as biofertilizer for rice cultivation in salted soil.

Several environmental factors adversely affect plant growth and development and final yield performance of a crop. Drought, Salinity, Nutrient imbalances (Including Mineral Toxicities and deficiencies) and extremes of temperature are among the major environmental constraints to crop productivity worldwide. Salinity is the most serious water quality problem in agriculture. Water salinity is an environmental stress factor that inhibits growth and yield of crop plants in many regions of the world. Improving salinity and tolerance of crop plants using biofertilization has been an important but largely unfulfilled aim of modern agricultural development [1]. Soil salinity is an increasing threat for agriculture [2] and it stresses plants in two ways. High concentrations of salts in the soil make it harder for roots to extract water, and high concentrations of salts within the plant can be toxic. Salts on the outside of roots have an immediate effect on cell growth and associated metabolism; toxic concentrations of salts take time to accumulate inside plants before they affect plant function [3].

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Cirina butirospermii caterpillar is much appreciated by the population of Korhogo. But this population is unaware of its nutritional value. Thus, a study was carried out in order to know the nutritional characteristics of this caterpillar. Analyzes were carried out using appropriate methods. So, the moisture and ash levels were determined using the AOAC method. Calcium was assayed using the colorimetric method of Gindler and King using blue of thymol. Sodium and potassium were determined by the flame photometry using Pinta technique. Total sugars were extracted according to Martinez et al. (2000) and assayed according to Dubois et al. (1956) using phenol and concentrated sulfuric acid. The crude proteins were assayed according to BIPEA (1976) using Kjeldhal. The energy value corresponding to the available energy is calculated using the specific coefficients of Atwater and Benedict (1902) for proteins, lipids and carbohydrates.

Rapid Unit Sales of Chemical Detection Technology to Push Incremental Revenues in the Global Market

Chemical detection technology is used to detect chemical agents (CA), toxic industrial chemicals (TIC), and toxic industrial materials (TIM). Chemical detection technologies plays a vital important role in the monitoring of chemical plants and industries. Incidents from the past like Bhopal gas tragedy have triggered the alarm in the chemical industry to use top quality and reliable chemical detection technology. Furthermore, a rise in threat from terrorist organizations across the world is forcing countries to implant chemical detection technology at critical infrastructure facilities such as airports, nuclear power plants, and water distribution facilities, etc. Many of the commercially available CA and TIC detectors utilize technologies that are adapted from classical analytical chemistry techniques. These technologies are ion mobility spectroscopy (IMS), raman spectroscopy, infra-red spectroscopy, colorimetric analysis, flame photometry, surface acoustic wave, photo ionization and flame ionization.

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Global Chemical Detection Technology Market Dynamics: Global chemical detection technology market is driven by defense sector of various countries in the world. IMS technology is widely used in the military and civilian agencies for detection of illicit drugs, explosives and TICs. Increase in number of people travelling worldwide and security concerns at the airports are driving growth of the global chemical detection technology market. Worldwide forensic labs are using infra-red spectroscopy for forensic analysis such as in identifying polymer degradation. Infra-red spectroscopy can be used to detect the alcohol content in the blood.

A recent trend of chemical detection equipment becoming portable is expected to fuel the global chemical detection market growth. Additionally, there is an increasing reliability on chemical detection equipment by end-users owing to the reduced number of false alarm. Raman spectroscopy is very efficient and non-destructive technology to investigate the authenticity of arts (paintings), which is expected to drive the global chemical detection technology market. Growth in health care and medical sector is also poised to positively influence the global market for chemical detection technology. Cost of the chemical detection equipment is very high along with high operating cost, hindering the growth of the global chemical detection technology market to some extent.

Global Chemical Detection Technology Market Segmentation: Global chemical detection technology market can be segmented on the basis of end-use sector such as defense sector, civil sector, and commercial sector. Global chemical detection technology market for defense sector can be further sub-segmented on the basis of application such as anti-terrorism, first responder market, firefighting control, real time monitoring of toxic and hazardous industrial chemicals in the environment, chemical disaster management and detecting air-borne chemical threats. Global chemical detection technology market can also be segmented on the basis type into portable and non-portable equipment. Global chemical detection technology market can be segmented on the basis of geography in to North America, Latin America, Western and Eastern Europe, Asia-Pacific region (APEJ), Japan, and Middle East & Africa (MEA).

Global Chemical Detection Technology Market: Regional outlook: Geographically, global chemical detection technology market can be divided by major regions which include North America, Latin America, Western Europe, Eastern Europe, Asia Pacific region, Japan, Middle East and Africa. North America is the biggest market for chemical detection technology. The U.S. is the leader in research and development of chemical detection technology. Countries affected by the terrorism such as India, France, the U.K. are next big market for the chemical detection technology.

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Global Chemical Detection Technology Market: Key players: Following are the major key player identified in the value chain of global chemical detection technology market: – S. E. International, Inc., S2 Threat Detection Technologies, Romtech, ChemImage Corp., Bruker Detection Corporation, and Implant Sciences Corporation, etc. Major players are turning focus toward strategic alliances and collaboration along with product innovation to increase their market share in the global chemical detection technology market.

The Scientific Research Notes of S. Sunkavally. Page 207.

Portable Photometers Market Shares, Product Type and Applications Forecast by 2021

Global Portable Photometers Consumption Market is segmented on the basis of applications as beverage industry, wine industry, process control, environmental monitoring, water treatment, multi-parameter applications for photometry, pH, and turbidity.

The prominent factors that are playing a major role in raising the share of the market include technological advancements, rise in the research and development activities, increased awareness among the masses regarding the use of the product, change in the lifestyle, rise in the standard of living, and rise in the disposable income of the population.

Browse Detail TOC of Portable Photometers Market at: https://www.millioninsights.com/industry-reports/portable-photometers-consumption-market

A device that performs the function of determining and computing light intensity or the optical properties of solutions or surfaces is known as a photometer. Microscopic, multi-wave, microplate, flame and portable photometer are various types of photometer that are available in the market. In addition, it is also utilized to gauge dispersion of light, reflection of light, fluorescence, irradiance, light absorption, phosphorescence and luminescence.

Portable Photometers are the devices that are employed extensively for carrying out a variety of activities in water, wastewater, and environmental monitoring. They possess a much vivid and clear backlit plus, they have a large selection of test sets. They can stock up 100 user-defined routine measurements and as they have a user-friendly nature, it is easy to facilitate on screen direction for a trouble-free functioning. Moreover, it has been proven as a perfect option particularly for the users who do not require to compute pH or turbidity. The instrument possesses a highly robust optical system that has been proven as quite effective and favorable for mobile applications under dynamic conditions.

The main purpose behind designing the photometers was to carry out fast and precise measurements in the field as they are strong, mobile, and accurate in nature. It is also said that the device consumes relatively less power.

Portable Photometers Consumption Market is segmented on the basis of geographical region as North America, Asia Pacific, Europe, South America, and Middle East and Africa.

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As far as the geographical is concerned, North America is the leader of the market and it is likely that the region will witness a robust growth in the next couple of years. In contrast, Asia Pacific is likely to come up as of the fastest growing regions as it is displaying a robust growth due to rise in the augmentation of demand from the end-users and developing economies. Countries including China and India are the major countries that are contributing significantly.

The key players operating in the Portable Photometers Consumption Market include Hanna Instruments, HF scientific, IDEAL NETWORKS, Palintest, AQUALYTIC, Dr. A. Kuntze, Gigahertz-Optik, Gooch and Housego, GRUNDFOS, Photo Research, Inc., Swan AG, TES Corp, Tintometer, and WTW.

We are an industry leading chemical detection equipment supplier.  We are the UK partner for all Proengin CBRN detection equipment that uses flame photometry technology.  AP4C and other flame photometry technology are proven worldwide as a leading first-line detector for chemical warfare agents and TICs.  We also offer UC AP4C or TIMs as a leading toxic industrial chemical detection equipment supplier.

Electrolyte Analyzer Electrolyte Analyzers – Working Principle Electrolytes play multiple roles in the maintenance of body functions such as sustaining proper body Ph, regulating function of the heart and other muscles, and participating in enzymatic functions. Electrolytic imbalances can result in congestive heart failure, diabetes insipidus, and kidney diseases. For these reasons electrolytic analysis is a key factor in patient diagnosis and treatment. Electrolyte analyzers measure electrolytes in serum, plasma and urine. Major components of an electrolyte analyzer are – reagents, electrode module, peristaltic pump, and sample probe. Automated systems feature comprehensive test menu, a high throughput as well as STAT testing.The most common methods of analysis are – Flame Emission Photometry (FEP) and Ion Selective Electrode (ISE). Flame Photometry can be used to measure Na+, K+ and Li+. It provides an indirect measurement, while ISE methods offer direct measurements. Most analyzers use ISE technology to make electrolyte measurements. Parameter configuration:  A) K, Na, Cl B) K, Na, Cl, TCO2, AG C) K, Na, Cl, iCa, nCa, TCa, pH D) K, Na, Cl, iCa, nCa, TCa, pH, TCO2, AG  F) K, Na, Cl, Li  H) K, Na, Cl, iCa, nCa, TCa, pH, Li I) K, Na, Cl, iCa, nCa, TCa, pH, Li, TCO2, AG J) K, Na, Cl, Mg K) K, Na, Cl, iCa, nCa, TCa, pH, Mg  L) K, Na, Cl, iCa, nCa, TCa, pH, Mg, TCO2, AG M) K, Na, Cl, iCa, nCa, TCa, pH, Mg, Li, TCO2, AG Laboratories should make sure to choose an analyzer that suits their setting’s present and future testing requirements and performance needs. Also consider the degree of linearity, stability, precision and specificity of the device. Purchasing the device from a reliable laboratory equipment supplier will ensure efficient post-sales support including installation, repair and maintenance.

Portable Photometers Market to 2021 Industry Size, Share, Revenue Analysis

Global Portable Photometers Consumption Market is segmented on the basis of applications as beverage industry, wine industry, process control, environmental monitoring, water treatment, multi-parameter applications for photometry, pH, and turbidity.

A device that performs the function of determining and computing light intensity or the optical properties of solutions or surfaces is known as a photometer. Microscopic, multi-wave, microplate, flame and portable photometer are various types of photometer that are available in the market. In addition, it is also utilized to gauge dispersion of light, reflection of light, fluorescence, irradiance, light absorption, phosphorescence and luminescence.

Browse Detail Portable Photometers Market Report @ https://www.millioninsights.com/industry-reports/portable-photometers-consumption-market

Portable Photometers are the devices that are employed extensively for carrying out a variety of activities in water, wastewater, and environmental monitoring. They possess a much vivid and clear backlit plus, they have a large selection of test sets. They can stock up 100 user-defined routine measurements and as they have a user-friendly nature, it is easy to facilitate on screen direction for a trouble-free functioning. Moreover, it has been proven as a perfect option particularly for the users who do not require to compute pH or turbidity. The instrument possesses a highly robust optical system that has been proven as quite effective and favorable for mobile applications under dynamic conditions.

The main purpose behind designing the photometers was to carry out fast and precise measurements in the field as they are strong, mobile, and accurate in nature. It is also said that the device consumes relatively less power.

Request Sample Copy of Portable Photometers Market Research @ https://www.millioninsights.com/industry-reports/portable-photometers-consumption-market/request-sample

The prominent factors that are playing a major role in raising the share of the market include technological advancements, rise in the research and development activities, increased awareness among the masses regarding the use of the product, change in the lifestyle, rise in the standard of living, and rise in the disposable income of the population.

Portable Photometers Consumption Market is segmented on the basis of geographical region as North America, Asia Pacific, Europe, South America, and Middle East and Africa.

As far as the geographical is concerned, North America is the leader of the market and it is likely that the region will witness a robust growth in the next couple of years. In contrast, Asia Pacific is likely to come up as of the fastest growing regions as it is displaying a robust growth due to rise in the augmentation of demand from the end-users and developing economies. Countries including China and India are the major countries that are contributing significantly.

The key players operating in the Portable Photometers Consumption Market include Hanna Instruments, HF scientific, IDEAL NETWORKS, Palintest, AQUALYTIC, Dr. A. Kuntze, Gigahertz-Optik, Gooch and Housego, GRUNDFOS, Photo Research, Inc., Swan AG, TES Corp, Tintometer, and WTW.

Comparison of flame-photometry and chemical methods for determining sodium and potassium in soil, plant material, water and serum

http://dlvr.it/NpFbcR

Cirina butirospermii caterpillar is much appreciated by the population of Korhogo. But this population is unaware of its nutritional value. Thus, a study was carried out in order to know the nutritional characteristics of this caterpillar. Analyzes were carried out using appropriate methods. So, the moisture and ash levels were determined using the AOAC method. Calcium was assayed using the colorimetric method of Gindler and King using blue of thymol. Sodium and potassium were determined by the flame photometry using Pinta technique. Total sugars were extracted according to Martinez et al. (2000) and assayed according to Dubois et al. (1956) using phenol and concentrated sulfuric acid. The crude proteins were assayed according to BIPEA (1976) using Kjeldhal.

We are an industry leading chemical detection equipment supplier and biological detection equipment supplier.  We are the UK partner for all Proengin CBRN detection equipment that uses flame photometry technology.  AP4C-F and AP4C-V are the ideal solution for chemical monitoring on vehicles or ships.  We can also provide complete integration solutions for key sites, government buildings, and infrastructure projects.

Electrolyte Analyzers – Working Principle Electrolytes play multiple roles in the maintenance of body functions such as sustaining proper body Ph, regulating function of the heart and other muscles, and participating in enzymatic functions. Electrolytic imbalances can result in congestive heart failure, diabetes insipidus, and kidney diseases. For these reasons electrolytic analysis is a key factor in patient diagnosis and treatment. Electrolyte analyzers measure electrolytes in serum, plasma and urine. Major components of an electrolyte analyzer are – reagents, electrode module, peristaltic pump, and sample probe. Automated systems feature comprehensive test menu, a high throughput as well as STAT testing.The most common methods of analysis are – Flame Emission Photometry (FEP) and Ion Selective Electrode (ISE). Flame Photometry can be used to measure Na+, K+ and Li+. It provides an indirect measurement, while ISE methods offer direct measurements. Most analyzers use ISE technology to make electrolyte measurements. Parameter configuration:  A) K, Na, Cl B) K, Na, Cl, TCO2, AG C) K, Na, Cl, iCa, nCa, TCa, pH D) K, Na, Cl, iCa, nCa, TCa, pH, TCO2, AG  F) K, Na, Cl, Li  H) K, Na, Cl, iCa, nCa, TCa, pH, Li I) K, Na, Cl, iCa, nCa, TCa, pH, Li, TCO2, AG J) K, Na, Cl, Mg K) K, Na, Cl, iCa, nCa, TCa, pH, Mg  L) K, Na, Cl, iCa, nCa, TCa, pH, Mg, TCO2, AG M) K, Na, Cl, iCa, nCa, TCa, pH, Mg, Li, TCO2, AG Laboratories should make sure to choose an analyzer that suits their setting’s present and future testing requirements and performance needs. Also consider the degree of linearity, stability, precision and specificity of the device. Purchasing the device from a reliable laboratory equipment supplier will ensure efficient post-sales support including installation, repair and maintenance.