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The acid decomposition of tobacco leaves involves complicated reagent addition operations, making it very labor-intensive. Additionally, there are concerns about human exposure to acidic reagents such as nitric acid, which poses risks during analysis. Therefore, we automated the sample pretreatment for ICP and ICP/MS using the automatic pretreatment device DEENA2 for acid addition and other processes. 【Summary (Partial)】 ■ Established a method for fully automated analysis, from automatic addition of nitric acid to stirring and up to dilution. ■ Achieved nearly zero exposure of nitric acid to humans. ■ Completely automated pretreatment tasks that previously required human intervention. ■ Conducted decomposition within a clean bench by using a fume hood. ■ Enabled analysis with ultra-low blanks by using dedicated vials. *For more details, please download the PDF or feel free to contact us.

• Other analytical equipment

Methods established by the Minister of Health, Labour and Welfare based on the standards of the ministerial ordinance concerning water quality standards (Notification No. 61 of the Ministry of Health, Labour and Welfare, 2003) and the water quality testing methods for drinking water (2011 edition) involve complex reagent addition operations in the acid digestion process, making it very labor-intensive. Additionally, the use of nitric acid as an acid reagent poses exposure risks to humans, making the analysis hazardous. Therefore, using the automated pretreatment device DEENA2 for acid addition and other processes, we automated the sample pretreatment for ICP-OES and ICP/MS. [Summary] ■ Conducted a study on the pretreatment of drinking water analysis ■ Used DEENA60 ■ Performed digestion using nitric acid ■ Added internal standard solution ■ Examined the automation of the process from acid addition to dilution *For more details, please download the PDF or feel free to contact us.

• Other analytical equipment

Silica (SiO2 and its compounds) involves complicated reagent addition operations in acid decomposition, making it very labor-intensive. Additionally, there are issues related to human exposure to acidic reagents such as hydrofluoric acid, which poses risks during analysis. Therefore, using the automated pretreatment device DEENA2 for acid addition and other processes, we automated the sample pretreatment for ICP and ICP/MS. 【Summary (Partial)】 ■ Established a method for fully automated analysis, from the automatic addition of nitric acid and hydrofluoric acid to stirring and up to dilution. ■ Successfully analyzed reactive metallic silicon with hydrofluoric acid while controlling the reaction safely. ■ Reduced human exposure to hydrofluoric acid and nitric acid to nearly zero. ■ Completely automated pretreatment tasks that previously required human intervention. ■ Conducted decomposition within a clean bench by using a fume hood. *For more details, please download the PDF or feel free to contact us.

• Other analytical equipment

The acid decomposition of impurities in titanium involves complicated reagent addition operations and is very labor-intensive. Additionally, there are issues related to human exposure to acid reagents such as mixed acids and nitric acid, making the analysis hazardous. Therefore, using the automatic pretreatment device DEENA2 for acid addition and other processes, we automated the sample pretreatment for ICP and ICP/MS. 【Summary (Partial)】 ■ Established a method for fully automated analysis, from automatic addition of mixed acids and nitric acid to stirring and dilution. ■ Controlled the reaction for the automatic addition of mixed acids and nitric acid to safely conduct the analysis. ■ Reduced human exposure to mixed acids and nitric acid to nearly zero. ■ Completely automated the pretreatment work that previously required human intervention. ■ Conducted the decomposition within a clean bench by using a fume hood. *For more details, please download the PDF or feel free to contact us.

• Other analytical equipment

The pre-treatment method for arsenic specified in the industrial wastewater testing method (JIS K 0102) involves complicated reagent addition operations during acid digestion, making it very labor-intensive. Additionally, the use of acidic reagents such as nitric acid and sulfuric acid poses exposure risks to humans, making the analysis hazardous. Therefore, using the automated pre-treatment device DEENA2 for acid addition and other processes, we automated the sample pre-treatment for atomic absorption spectrometry, ICP, and ICP/MS. 【Overview】 ■ Conducted a study on the pre-treatment of arsenic (As) in wastewater analysis ■ Used DEENA2 ■ Performed digestion using nitric acid, sulfuric acid, etc. ■ Considered automation *For more details, please download the PDF or feel free to contact us.

• Other analytical equipment

The pre-treatment method for selenium specified in the industrial wastewater testing method (JIS K 0102) involves complicated reagent addition operations during acid decomposition, making it very labor-intensive. Additionally, the use of acidic reagents such as nitric acid and sulfuric acid poses exposure risks to humans, making the analysis hazardous. Therefore, using the automated pre-treatment device DEENA2 for acid addition and other processes, we automated the sample pre-treatment for atomic absorption spectrometry, ICP, and ICP/MS. 【Overview】 ■ Conducted a study on the pre-treatment of selenium (Se) in wastewater analysis ■ Used DEENA2 ■ Performed decomposition using nitric acid, sulfuric acid, etc. ■ Considered automation *For more details, please download the PDF or feel free to contact us.

• Other analytical equipment

"JASIS Kansai 2025" is a science and analysis system and solutions exhibition that gathers numerous manufacturers of analytical and scientific instruments that support the advancement of science beneficial to people's lives. Many presentations and seminars on new technologies will be held. Our company, which contributes to the automation of environmental and food analysis and the improvement of efficiency and quality through analytical instruments, will showcase a variety of products, including "Heavy Metal Analysis Pretreatment Equipment" and "Near Infrared Analysis Equipment." Please feel free to visit us. [Exhibited Products] ■ Continuous Flow Analysis Device 'MiSSion' ■ Fully Automatic Acid Decomposition Pretreatment Device 'AATM' ■ Fully Automatic Acid Decomposition Pretreatment Device 'DEENA2' ■ Near Infrared Analysis Device 'SpectraStar XT' ■ Damaged Starch Measurement Device 'SDmatic 2' *For details on the exhibited products, please refer to the <PDF download>. For more information on various products, please contact us.

• Other analytical equipment

The pretreatment methods for factory wastewater, environmental water, groundwater, etc., use substances such as nitric acid, as specified in factory wastewater testing methods and standards set by the Ministry of the Environment. However, the analytical procedures are complicated and require significant effort for decomposition, and care must be taken to avoid splashes of nitric acid reagents on the skin and eyes, as well as exposure to acidic gas emissions. Therefore, to ensure the safety of analysts, improve work efficiency, and eliminate human error, our company introduces quantifiable devices that can automate the pretreatment to measurement processes in environmental analysis, wastewater analysis, and soil analysis in a seamless manner. <Some introduction examples> ■ Inorganic analysis of wastewater using ICP/MS ■ Inorganic analysis of environmental water (river water, seawater) using ICP/MS ■ Inorganic analysis of soil (content/leaching) using ICP/MS ■ Inorganic analysis of groundwater and drinking water using ICP/MS *For detailed specifications, please download the PDF. Feel free to contact us.

• others

This device is a modified continuous flow analysis system for laboratory equipment that automatically samples the effluent collected in an overflow tank, allowing for automatic distillation and measurement at regular intervals. It utilizes the principle of bubble-segmented flow analysis (CFA) as described in JISK0126. The sample is automatically distilled, mixed with reagents, reaches the flow cell, and is quantitatively analyzed. In the event of detecting abnormal values, it is capable of sending a signal to a designated location to alert of the anomaly.

• Other analytical equipment

This is a device that has been partially modified from a continuous flow analysis system for laboratory equipment, which automatically samples the effluent collected in an overflow tank and can perform automatic distillation and measurement at regular intervals. It uses the principle of the bubble segmentation flow analysis method (CFA) as described in JISK0126. The sample is automatically distilled, mixed with reagents, reaches the flow cell, and is quantitatively analyzed. In the event of abnormal values being detected, it is possible to send a signal to a designated location to alert of the anomaly. 【Usage Examples】 ● Wastewater management in plant factories ● Process management in factories *For detailed specifications, please download the PDF. Feel free to contact us.

• Other analytical equipment

This document introduces a case study on the measurement of fluoride in factory wastewater using the continuous flow analysis method (CFA method) as per JIS K 0102 34.4. Contents ■ Overview of the analysis ■ Introduction of the equipment ■ Actual measurement case ■ Results of recovery rate *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments
• Water treatment technology and systems
• Water quality/pH measuring device

Regarding the cadmium contained in rice, the standard limit was previously set at 1 ppm (mg/kg), but in April 2010, a revision was made to the standards for food and additives, lowering the limit for cadmium and its compounds in rice (both brown and white rice) to 0.4 ppm (mg/kg). Traditionally, wet digestion methods using nitric acid, sulfuric acid, or perchloric acid were employed; however, these methods were time-consuming and made it difficult to process multiple samples quickly. Therefore, we examined the automatic pretreatment of rice (both brown and white) and rice ears using the nitric acid reflux method with DEENA2, which allows for fully automated operations such as acid addition, stirring, and dilution under PC control. ■ Acid addition heating pretreatment ■ Reagent addition ■ Cooling ■ Dilution ■ Prevention of human exposure to acid *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• Other measuring instruments
• Measurement and Analysis Equipment

The pre-treatment methods for non-mineral water soft drinks specified in the "Ministerial Ordinance on Standards for Milk and Dairy Products (Ministry of Health Ordinance No. 52 of 1951)" and the "Standards for Food, Additives, etc. (Ministry of Health Ordinance No. 370 of 1959)" involve complex reagent addition operations in acid digestion, which are very labor-intensive. Additionally, the use of acidic reagents such as sulfuric acid and nitric acid poses exposure risks to humans, making the analysis hazardous. Therefore, we have automated the sample pre-treatment for ICP-OES and ICP/MS using the acid addition automatic pre-treatment device DEENA2. ■ Acid addition heating pre-treatment ■ Reagent addition ■ Cooling ■ Dilution ■ Prevention of human exposure to acids *For more details, please refer to the PDF document or feel free to contact us.

• Measurement and Analysis Equipment
• Other analytical equipment
• Other measuring instruments

This document introduces the establishment of an automatic measurement method for component analysis in cookies using a snack checker. To ensure quality assurance in cookies, the items measured include "moisture," "lipids," and "carbohydrates." Since the measurement of components requires the use of hazardous reagents and involves labor-intensive and skilled techniques, a calibration curve that can be measured using near-infrared (NIR) was created for the component analysis of cookies. The items can be measured simultaneously, and thus, we established an automated measurement method for the analysis of cookie components using NIR. 【Contents】 ■ Overview ■ What is Near-Infrared Analysis? ■ Keywords ■ Equipment Used ■ Examination Method *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• Non-destructive testing
• Measurement and Analysis Equipment

This document introduces the establishment of an automated measurement method for component analysis in feed using an NIR feed checker. Component analysis of feed is primarily conducted on "moisture," "protein," "lipids," "fiber," "ash," "calcium," "phosphorus," and "salt." In the component analysis of feed, a calibration curve that can be measured in the near-infrared range is created. Therefore, we have established an automated measurement method for determining the components of feed using an NIR (near-infrared analysis device). [Contents] ■ Overview ■ What is Near-Infrared Analysis? ■ Keywords ■ Equipment Used ■ Examination Method *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• Non-destructive testing
• Measurement and Analysis Equipment

This document introduces the establishment of an automated measurement method for component analysis of roasted coffee beans using an NIR coffee bean checker. To ensure quality assurance in roasted coffee beans, the parameters measured include "roasting depth," "moisture," and "caffeine." In the component analysis of roasted coffee beans, a calibration curve that can be measured in the near-infrared range has been created. It has become possible to simultaneously measure the parameters of "roasting depth," "moisture," and "caffeine." Therefore, we have established an automated measurement method for measuring the components of roasted coffee beans using NIR (near-infrared analysis equipment). [Contents] ■ Overview ■ What is Near-Infrared Analysis? ■ Keywords ■ Equipment Used ■ Method of Examination *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• Non-destructive testing
• Measurement and Analysis Equipment

This document introduces the establishment of an automatic measurement method for component analysis of green coffee beans using a NIR coffee bean checker. Near-infrared spectroscopy is a component measurement method that does not use reagents or consumables. We have established a method to quickly and easily measure the components of green coffee beans, including "moisture," "caffeine," "potassium," "ash," "chlorogenic acid," "protein," and "trigonelline." 【Contents】 ■ Overview ■ What is Near-Infrared Analysis? ■ Keywords ■ Equipment Used ■ Examination Method *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• Non-destructive testing
• Measurement and Analysis Equipment

This document introduces the establishment of an automatic measurement method for component analysis of coffee beans using the NIR coffee bean checker. A method has been established to rapidly and easily measure the components in coffee beans, including "sucrose," "trigonelline," "caffeine," "moisture," "lipids," "phosphoric acid," "citric acid," "malic acid," "quinic acid," "glycolic acid," and "formic acid." For coffee beans, measurement has become simple and quick by using our calibration curve. [Contents] ■ Overview ■ What is Near Infrared Analysis? ■ Keywords ■ Equipment Used ■ Examination Method *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• Non-destructive testing
• Measurement and Analysis Equipment

This document introduces a method for analyzing the components of snacks (potato chips) using NIR (Near Infrared Analysis Device). To ensure quality assurance in potato chips, the items "moisture" and "fat" are measured. The measurement of components requires the use of hazardous reagents and involves time-consuming processes and skilled techniques. Therefore, a calibration curve that can be measured using near infrared has been created for the component analysis of potato chips. As a result, it has become possible to simultaneously measure "fat" and "moisture." Consequently, we have established an automated measurement method for analyzing the components of potato chips using the NIR (Near Infrared Analysis Device). [Contents] ■ Overview ■ What is Near Infrared Analysis? ■ Keywords ■ Equipment Used ■ Method of Examination *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• Non-destructive testing
• Measurement and Analysis Equipment

"DEENA2" is a device that can automate the pretreatment processes for measuring metal components, such as the addition of reagents, stirring, heating, and sample preparation. The maximum heating temperature is 180°C. For highly reactive samples, it can initially heat at a low temperature and then switch to high temperature once the reaction stabilizes. It can set up to 8 types of reagents, including pure water, hydrofluoric acid, nitric acid, and hydrochloric acid. The addition of acids is performed automatically, and even the sample preparation is automated, significantly reducing manual work and eliminating concerns about operator exposure. 【Features】 ■ Up to 60 positions (when using 50mL vials) ■ Up to 36 positions (when using 36mL vials) ■ Compatible with various samples such as wastewater, environmental water, metals, non-ferrous metals, and semiconductor materials ■ Non-contact sample preparation is possible using ultrasonic sensors *For more details, please refer to the materials. Feel free to contact us with any inquiries.

• others

In materials such as batteries and semiconductors, silica as an impurity can lead to a decrease in product performance, necessitating separation and analysis. Silica present in amounts exceeding a certain level in steel can be analyzed using the weight method specified by JIS, but this method has been complicated and has accuracy issues. Therefore, our company has devised a method to separate silica contained in samples as a gas, collect it in an absorbent solution, and measure it using molybdenum blue through a continuous flow analysis method. This document presents the results of our study titled "Investigation of Low Concentration Silica Separation and Analysis Using Continuous Flow Analysis Device (STAA-3) in Semiconductor Materials, Tantalum, Niobium, and Steel," in an easy-to-understand manner. *For more details, please refer to the download button. Feel free to contact us with any inquiries.

• Other analytical equipment

This document introduces the examination of automatic pretreatment using hydrofluoric acid and nitric acid for the decomposition (melting) of silica (SiO2) with the use of "DEENA2." Silica (SiO2 and its compounds) involves complicated reagent addition operations in acid decomposition, making it very labor-intensive. Additionally, there are issues related to human exposure to acidic reagents such as hydrofluoric acid, which poses risks during analysis. Therefore, we automated the sample pretreatment for ICP and ICP/MS using the automatic pretreatment device "DEENA2" for acid addition and other processes. 【Contents】 ■ Overview ■ What is DEENA2 ■ Keywords ■ Equipment Used ■ Examination Method *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• Other measuring instruments
• Rare metal recovery

This document introduces the establishment of a component analysis method for olive oil using the "NIR Olive Checker." Component analysis of olive oil has become possible through non-destructive analysis methods. Using NIR (Near Infrared Analysis Device), we have established a method to rapidly and easily measure 21 components in olive oil, including "acidity," "oleic acid," "linoleic acid," and "polyphenols." [Contents] ■ Overview ■ What is Near Infrared Analysis? ■ Keywords ■ Equipment Used ■ Examination Methods *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• Non-destructive testing
• Measurement and Analysis Equipment

This document introduces the establishment of a component analysis method for olive pomace using the "NIR Olive Checker." The component analysis of olive pomace has become possible through non-destructive analysis methods. Using NIR (Near Infrared Analysis Device), we have established a method to quickly and easily measure the components of "moisture" and "fat" in olive pomace. [Contents] ■ Overview ■ What is Near Infrared Analysis? ■ Keywords ■ Equipment Used ■ Examination Method *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• Non-destructive testing
• Measurement and Analysis Equipment

This document introduces the establishment of an automatic measurement method for analyzing food nutritional components in soy sauce using the "NIR Nutrition Analyzer." We conducted examinations on the measurement of food nutritional components such as "calories," "protein," "lipids," "carbohydrates," and "equivalent salt content." Using near-infrared analysis equipment, we were able to establish a rapid and simple analytical method for measurements in both soy sauce and white soy sauce. 【Contents】 ■ Overview ■ What is Near-Infrared Analysis? ■ Keywords ■ Equipment Used ■ Examination Methods *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• Non-destructive testing
• Measurement and Analysis Equipment

This document introduces the examination of fully automated pretreatment methods using sulfuric acid and nitric acid in the "Ministerial Ordinance on Standards for Ingredients of Milk and Dairy Products" and "Standards for Food, Additives, etc." using "DEENA3." The pretreatment methods for non-mineral water soft drinks involve complicated reagent addition operations during acid digestion, making them very labor-intensive. Additionally, the use of acidic reagents such as sulfuric acid and nitric acid poses exposure risks to humans, making the analysis hazardous. Therefore, we automated the pretreatment of samples for ICP-OES and ICP/MS using the automated pretreatment device "DEENA3" for acid addition and other processes. [Contents (Excerpt)] ■ Overview ■ Keywords ■ Equipment Used ■ Reagents Used ■ Analysis Flow *For more details, please refer to the PDF document or feel free to contact us.

• Measurement and Analysis Equipment
• Other analytical equipment
• Other measuring instruments

Steel increases in rigidity when it contains boron and other impurities, but too many impurities can make it brittle. Therefore, managing the impurity content is extremely important in the production of high-quality steel. As an analytical method, the nitric acid-hydrochloric acid (aqua regia) decomposition is commonly performed; however, it is time-consuming and labor-intensive, and generates a significant amount of harmful acid decomposition gases, making it difficult to safely and quickly process multiple samples. To address this, we examined the automatic pretreatment using nitric acid-hydrochloric acid (aqua regia) for impurity analysis in iron and steel, utilizing DEENA2, which can perform tasks such as acid addition, stirring, and dilution control fully automatically via PC control. As a result, we were able to automate tasks that were previously done manually. We also succeeded in reducing human exposure to the acid decomposition gases. ■ Purpose ■ Overview ■ Keywords ■ Equipment Used ■ Analysis Flow ■ Results *For more details, please refer to the PDF document or feel free to contact us.

• Rare metal recovery
• Water quality/pH measuring device
• Other Hydrogen/Fuel Cells

This document introduces the automatic pretreatment using mixed acid (hydrochloric acid: nitric acid: pure water = 2:1:4) in the analysis of work environment measurement with "DEENA3". The analysis of work environment measurement involves complicated reagent addition operations in acid decomposition, which is very labor-intensive. Additionally, there are concerns about human exposure to acid reagents such as hydrochloric acid and nitric acid, making the analysis hazardous. Therefore, we automated the pretreatment of samples for ICP/OES and ICP/MS using the automatic pretreatment device "DEENA3". 【Contents】 ■ Overview ■ Keywords ■ Equipment used ■ Reagents used ■ Analysis flow *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• Other measuring instruments
• Rare metal recovery

This document introduces the automatic pretreatment using aqua regia (nitric acid: hydrochloric acid = 1:3) in the analysis of work environment measurement using "DEENA3." The analysis of work environment measurement involves complicated reagent addition operations in acid decomposition, which is very labor-intensive. Additionally, there are concerns about human exposure to acid reagents such as hydrochloric acid and nitric acid, making the analysis hazardous. Therefore, we automated the sample pretreatment for ICP/OES and ICP/MS using the automatic pretreatment device "DEENA3" for acid addition and other processes. [Contents] ■ Overview ■ Keywords ■ Equipment Used ■ Reagents Used ■ Analysis Flow *For more details, please refer to the PDF document or feel free to contact us.

• Measurement and Analysis Equipment
• Other analytical equipment
• Other measuring instruments

This document introduces the automatic pretreatment using hydrofluoric acid and nitric acid for the decomposition of silica with "DEENA3." Silica involves complicated reagent addition operations in acid decomposition, making it very labor-intensive. Additionally, there are exposure issues for humans with acid reagents like hydrofluoric acid, which poses risks during analysis. Therefore, we automated the sample pretreatment for ICP/OES and ICP/MS using the automatic pretreatment device "DEENA3" for acid addition and other processes. [Content Overview (Excerpt)] ■ Overview ■ Keywords ■ Equipment Used ■ Reagents Used *For more details, please refer to the PDF document or feel free to contact us.

• Measurement and Analysis Equipment
• Other analytical equipment
• Other measuring instruments

This document introduces the establishment of a nutritional component analysis method for food items such as bento, side dishes, and bread using the NIR Nutrition Analyzer (near-infrared analysis device). It includes an overview of near-infrared analysis methods, the equipment used, the examination methods, and an example of measurement. Actual samples were blended into a paste and measured using the Nutrition Analyzer with installed calibration data, comparing the results with those obtained by conventional methods. [Contents] ■ Overview ■ What is near-infrared analysis? ■ Keywords ■ Equipment used ■ Examination methods ■ Example of measurement *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment

Our company, engaged in the development, manufacturing, and sales of analytical instruments, will hold a "Web Online Seminar on Streamlining Analytical Work." We will introduce the "Continuous Flow Analyzer (CFA)," which has become the standard method for environmental analysis, the "Acid Decomposition Pretreatment Device" capable of heating up to 300°C, and the "Near Infrared Analyzer" that can analyze caloric content, protein, fat, carbohydrates, and salt equivalent in about 30 seconds. The seminar consists of three parts, and you can participate in any one of them. Participation is free (pre-registration required). We will also propose ways to improve efficiency using real examples. 【Seminar Overview】 Date: July 3, 2020 (Friday) Part 1 at 13:00, Part 2 at 14:00, Part 3 at 15:00 Cost: Free (pre-registration required) How to apply: Please register at http://www.bl-tec.co.jp/ (Registration will start on June 19) *You can view detailed materials for this seminar via PDF download. Please feel free to contact us with any inquiries.

• Measurement and Analysis Equipment
• Other analytical equipment

We have newly released the continuous flow analysis device "MiSSion." It is a vertical two-channel system from the auto-analyzer series. The measurement principle is based on the flow analysis device using the absorbance method, specifically the bubble segment type "CFA" method. The auto-analyzer series offers over 1,000 analytical methods for chemical analysis in various fields such as environment, agriculture, fisheries, and chemistry, and is widely used in many analytical institutions. 【Features】 ■ Supports ultra-low concentration measurements ■ Can be equipped with halogen and LED light sources ■ Excellent maintainability ■ Temperature control function for the detector ■ New software *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• Measurement and Analysis Equipment

The "Discrete Analyzer AQ400" is a device that can automate the addition of reagents to samples, mixing and stirring, heating, chemical reactions, transferring to cells, and spectrophotometric analysis. It supports various measurement items such as alkalinity, chlorides, chromium, cyanide, total hardness, phosphates, silica, and sulfuric acid, and can be automated for measurement methods using four or fewer reagents. In addition to preventing human exposure to samples and reagents, it contributes to labor-saving in pre-treatment and reduction of human errors. 【Features】 ■ Automation of the entire process from pre-treatment to analysis using a spectrophotometer ■ Reduction of the labor involved in pre-treatment such as reagent addition and mixing ■ Capability to accommodate various analysis items with setting changes ■ Prevention of human exposure to samples and reagents *For more details, please refer to the materials. Feel free to contact us with any inquiries.

• Measurement and Analysis Equipment

The nutritional component analysis device '2600XT-R' can measure the basic five nutritional components, as well as various other components such as dietary fiber, ash, and moisture, in as little as 30 seconds. Simply place the crushed sample in a sealed bag, put it on the measurement section, and press a button to perform the measurement. Since no reagents are required, it contributes to reducing analysis costs. It comes with built-in calibration curve data for prepared foods and bento boxes, and adjustments to the calibration curve can be made according to manual analysis values. 【Features】 ■ Measured values can be used directly for component display (can be used if indicated as "estimated value") ■ Easy operation with a touch panel ■ Rich built-in calibration curve data; reconstruction is possible with additional manual analysis data ■ Proven track record in the soy sauce industry *For more details, please refer to the materials available for PDF download. We are currently conducting device loan demonstrations! If you are interested, please apply through the contact form.

• Other analytical equipment

The Food Labeling Act came into effect on April 1, 2015, mandating nutritional labeling for all processed foods and additives that are pre-packaged for consumers. Unlike the previous law, which required the use of hazardous reagents and involved labor-intensive measurements that demanded skilled techniques, near-infrared analysis equipment allows for rapid and simple measurements. This document provides basic knowledge on "What is near-infrared analysis?" and presents case studies of nutritional component analysis for bento, bread, side dishes, and other food items using near-infrared analysis equipment. [Contents] ■ The obligation of nutritional component labeling due to the implementation of the Food Labeling Act ■ What is near-infrared analysis? ■ Introduction of food sample analysis case studies using near-infrared analysis equipment *For more details, please contact us or download the PDF.

• Other measuring instruments
• others
• Other analytical equipment

Our company, engaged in the development, manufacturing, and import sales of analytical machines, is currently offering case study materials on the measurement of nutritional components using "near-infrared analysis equipment." The materials provide detailed explanations of the measurements and the advantages of the measurement methods, as well as showcasing over 1,000 diverse samples, including bento, side dishes, noodles, desserts, and sandwiches, while highlighting the differences from conventional methods. 【What is Near-Infrared Analysis?】 ■ A component measurement method that does not use reagents or consumables. It allows for the measurement of target components in a simple, rapid, and accurate manner, using only physical pretreatment, such as non-destructive methods or food blenders, even with samples of unknown concentration. *For more details, please refer to the materials. Feel free to contact us with any inquiries.

• Other measuring instruments
• others
• Other analytical equipment

The "Syringe Diluter 3" is a device that can automatically adjust standard solutions and dilute samples. We have received numerous requests from customers involved in analysis, expressing that "the dilution of standard solutions and samples takes a significant amount of time and effort, and we want to find a solution." This product addresses issues such as high costs and human errors caused by manual work through the automation of operations. 【Features】 ■ Automatic adjustment of standard solutions - Standard solutions can be adjusted by gradually diluting the standard stock solution. - By diluting the standard stock solution in two stages, a wider range of standard series can also be created. - By storing dilution methods in the software, it is possible to create the same standard solution each time. ■ Automatic dilution of samples - By specifying the dilution factor and dilution cup in advance, automatic sample dilution is possible. - For high-concentration samples, a two-stage dilution can accommodate large dilutions such as 10,000 times. *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• Other measuring instruments

The new 'DEENA3' in the "DEENA series," which can automate analysis in various fields, starting with metal acid decomposition pretreatment, can perform thermal decomposition up to 300°C. It can carry out everything from reagent addition, stirring, heating, cooling, to spike addition and sample preparation fully automatically without human intervention, and it has become easier to operate with a touch screen interface. Additionally, by using the 'Syringe Dilutor 3' that can automatically create standard solutions and dilute samples, it reduces the tasks previously performed by humans, contributing to time and cost savings. It also helps prevent exposure to hazardous reagents and human errors caused by reagent addition. **Features of DEENA3:** - Avoids human exposure to hazardous reagents - Cost benefits from full automation - Reduction of blanks by using dedicated vials - Supports sulfuric acid white smoke and Kjeldahl decomposition in addition to nitric and hydrochloric acid decomposition **Features of Syringe Dilutor 3:** - Enables accurate and efficient dilution - Supports large dilutions such as 10,000-fold dilution through stepwise dilution - Structural design prevents contamination of diluted samples - Prevents contamination within the syringe by not aspirating samples into the syringe

• Other analytical equipment
• Other measuring instruments

Silica (SiO2 and its compounds) involves complicated reagent addition operations in acid decomposition, making it very labor-intensive. Additionally, there are issues related to human exposure to acidic reagents such as hydrofluoric acid, which poses risks during analysis. Therefore, we have automated the sample pretreatment for ICP and ICP/MS using the automatic pretreatment device DEENA for acid addition and other processes. 【Technical Document Contents】 ■1. Overview ■2. Keywords ■3. Equipment Used ■4. Reagents Used ■5. Analysis Flow ■6. Results *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• others

World's highest performance device 1. The ultra-low noise of below 15 micro AU across the entire range of 1100nm to 2500nm required for near-infrared analysis is unmatched by competitors. 2. The signal-to-noise ratio is an astonishing 125,000. 3. All shipped devices are NIST traceable, ensuring the accuracy of wavelengths goes without saying. 4. You can use it with confidence thanks to the TAS technology (patented) that keeps wavelength and absorbance levels consistently stable. 5. The only consumable is the lamp. 6. Simply place the test tubes containing soy sauce on the 80-sample auto-sampler, and it will automatically measure in the order of suction, temperature control, stop, photometry, and cleaning. 7. It is fully automated.

• Other analytical equipment
• Other measuring instruments

World's highest performance device 1. The ultra-low noise of less than 15 micro AU across the entire range of 1100nm to 2500nm required for near-infrared analysis is unmatched by any competitor. 2. The signal-to-noise ratio is an astonishing 125,000. 3. All shipped devices are NIST traceable, ensuring the accuracy of the wavelength goes without saying. 4. You can use it with confidence thanks to TAS technology (patented), which keeps the wavelength and absorbance level consistently stable. 5. The only consumable is the lamp.

• Other measuring instruments
• Other analytical equipment

This document introduces the case study of the use of auto analyzers in environmental analysis by Daifuku Industrial Co., Ltd., as well as their efforts towards the environmental restoration of Lake Shinji. The auto analyzer adopted by our company is "SYNCA." In addition to a report comparing the analysis of hexavalent chromium in improved soil according to JIS K 0170-7 and JIS K 0102 65.2.1, it also includes a discussion on the impact of intermittent low oxygen levels in shallow areas on the survival of Yamato shijimi clams as part of the efforts for the restoration of Lake Shinji. [Contents] ■ Case study of the use of auto analyzers (SYNCA: hexavalent chromium) in environmental analysis - Analysis method - Equipment and overview - Summary of results ■ Efforts towards the environmental restoration of Lake Shinji (Impact of continuous low oxygen levels in shallow areas on the survival of Yamato shijimi clams) - Materials and methods - Results and discussion *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• Other measuring instruments

The nitrogen and phosphorus analysis using the auto-analyzer from Sanyo Technomarine Co., Ltd. adopts the Continuous Flow Analysis (CFA) method, and we are currently using our "QuAAtro2-HR." When introducing flow analysis methods, the focus is generally on improving efficiency, but after implementation, users face unique challenges and innovations in equipment management. This document reports on the insights gained by Sanyo Technomarine Co., Ltd. as a user. 【Contents】 ■ Overview of the analysis equipment Analysis methods and specifications of the equipment in use ■ Comparison of this model with manual analysis Comparison of manual analysis and CFA from the perspectives of "effectiveness" and "burden" ■ Contamination prevention measures in NH4-N analysis Contamination prevention measures using soundproof boxes, etc. ■ Measures against carryover in total nitrogen analysis ■ Summary *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• Other measuring instruments

This document presents a case study on the analysis of fluoride and cyanide using Continuous Flow Analysis (CFA) as part of customer feedback. Mitsubishi Material Tech Corporation has long utilized Continuous Flow Analysis (CFA) equipment to measure fluoride and cyanide in soil and wastewater. In addition to examining the benefits and issues of using our auto-analyzer "swAAT," we have also compared the inter-laboratory reproducibility of cyanide analysis among various institutions and provided an introduction to these findings. [Contents] ■ Benefits of utilizing the auto-analyzer ■ Time reduction and multi-sample measurement through continuous flow analysis ■ Error reduction through flow analysis ■ Method comparison through joint experiments (cyanide) ■ Baseline changes due to room temperature ■ Maintenance examples *For more details, please refer to the PDF document or feel free to contact us.

• Other analytical equipment
• Other measuring instruments