Product line panorama: Multi adaptability to meet diverse needs

Modular product architecture: AOSCITECH fully automatic intermittent chemical analyzer adopts modular design, with five core modules working together. The optical system ensures analysis accuracy, the pipetting system achieves micro upgraded reagent distribution, the reaction and cleaning system ensures detection cleanliness and reaction consistency, and the data processing system is responsible for intelligent control and result analysis, endowing the product with flexible expansion capabilities.

Environmental innovation leads change: The unique waste liquid collection and sensing system achieves environmental breakthroughs, reduces pollution, generates micro upgraded waste discharge, reduces waste liquid production to less than 1% of traditional equipment, reduces environmental pressure, lowers reagent consumption and waste liquid treatment costs, and embodies the brand concept.

Industry solution precise docking: Based on a modular platform, establish three major business units. The Chemical and Energy Division serves the fields of electricity, petrochemicals, and other industries to enhance research and testing efficiency; The Steel and Metallurgy Division serves the metal smelting industry and achieves precise composition control; The Research and University Business Unit provides flexible and configurable platforms for research institutions to meet diverse needs.

Typical application scenarios fully covered: in the chemical industry, used for raw material purity testing, intermediate monitoring, and finished product quality analysis; In the field of steel metallurgy, it is used for ore composition analysis, alloy element detection, and product quality control; In terms of environmental monitoring, efficiently complete multi parameter analysis of water quality, soil, and other parameters. Each scenario reflects the advantages of product automation, precision, and intelligence.

3、 Target market and customer value: precise positioning, achieving multi-dimensional win-win:

Precise positioning of core industries: AOSCITECH is based on the concept of "global vision, local focus", and deeply cultivates eight industries including chemical, steel, metallurgy, energy, environment, agriculture, food, and tobacco. These industries have high requirements for chemical analysis accuracy and face challenges such as large manual operation errors, low efficiency, and high environmental pressure. The three major business units accurately connect with segmented market demands and provide targeted solutions.

Multi dimensional realization of customer value

Technical value: Improve accuracy, ensure long-term stability and repeatability of spectrophotometric analysis; Breaking through efficiency bottlenecks, fully automated design improves testing efficiency, reduces human errors, and promotes industry standard upgrades; Innovate environmental protection technologies, reduce sample and reagent consumption, and alleviate environmental pressure.

Economic benefits: Modular design supports on-demand allocation, avoiding resource waste; Reduce manual intervention, lower labor costs and training investment; Innovative technology ensures long-term stable operation and extends the lifecycle value of equipment.

Global perspective and localized services: AOSCITECH is globally recognized for providing customized solutions to customers of different regions and scales through a deep service model. Covering the entire scene from the laboratory to the production site, ensuring that customers experience the practical benefits brought by technological innovation, and achieving more accurate, reliable, environmentally friendly, and economically efficient working methods.

The third article

Electric chemical testing: the "invisible guardian" guarding the safety of the power grid

In the power industry, chemical detection technology is becoming a core force in ensuring the safe operation of equipment and promoting green transformation with a "precise, efficient, and intelligent" attitude. From "blood dialysis" of transformer oil to "targeted sniping" of oil pollution, from laboratory automation innovation to breakthroughs in "perspective eye" of on-site detection, chemical detection technology is using multidimensional innovation to solve industry pain points and provide full lifecycle management solutions for power equipment.

Transformer oil detection: from "post firefighting" to "predictive maintenance"

As the "heart" of the power grid, the health status of transformers directly affects the reliability of power supply. A certain power company in Inner Mongolia recently won the "double honor" in the chemistry major of the power industry. They have overcome the problems of easy pollution and low efficiency in traditional sampling. By optimizing the sampling path and sealing design, the sampling time has been shortened by 40%, while avoiding the mixing of external impurities, providing "pure samples" for subsequent analysis. This innovative achievement has been applied to the maintenance of 110kV main transformers, and with the help of gas chromatography analysis technology in oil, it can accurately identify the precursors of faults such as partial discharge and overheating.

At a power generation company in Chaozhou, the laboratory team discovered through long-term chromatographic monitoring that the total hydrocarbon content of transformer # 1 exceeded the standard. Combined with abnormal acetylene concentration, the high-temperature overheating fault was quickly identified. By using the intelligent laboratory information management system (MOD) to push real-time data, the maintenance team can complete equipment defect elimination within 24 hours, avoiding unplanned downtime losses exceeding one million yuan. The team produces 654 oil supervision reports annually, establishing a "zero error" record to strengthen the safety defense line.

Oil pollution control: from "blind spot" to "nano level insight"

Oil pollution is the 'invisible killer' of power equipment operation. A thermal power company in Daqing has innovated the "instrument precision measurement+targeted analysis" mode, introducing a laser particle counter to improve the accuracy of oil cleanliness detection to the micrometer level. In October 2025, the team identified the anti fuel oil pollution source of Unit 2 through more than 600 tests, proposed a customized oil filtration plan, doubled the disposal efficiency, and saved 300000 yuan in outsourced laboratory fees annually.

Intelligent Laboratory: From "Human led" to "Data driven"

In the wave of intelligent transformation in the power industry, chemical testing laboratories are undergoing profound changes. A power plant has introduced an automated sample processing system that integrates equipment such as particle size analyzer and micro water analyzer to achieve full process automation of oil sample collection, distribution, and analysis. In conjunction with the Management Optimization and Decision System (MOD), experimental data can be uploaded in real-time to the cloud, and device health reports can be generated through AI algorithms, compressing manual analysis time from 4 hours to 20 minutes.

Green detection technology: from "environmental burden" to "zero carbon cycle"

Faced with the "dual carbon" goal, electrochemical detection technology is upgrading towards green development. A company in Xilingol has introduced a "microflow waste liquid collection system" to reduce the amount of chromatographic analysis waste liquid from 50mL per sample to 0.5mL. Combined with an online distillation recovery device, the solvent recycling rate has exceeded 95%. This technology has been promoted to more than 20 substations, reducing the annual disposal of hazardous waste by 12 tons.

In the field of new energy, the electrochemical comprehensive testing system has become the "core engine" for the development of energy storage devices. A certain photovoltaic power station uses this system to conduct cyclic voltammetry testing on lithium-ion batteries, accurately locating the lithium insertion/extraction potential range, and increasing the battery's cycle life by 20%. At the same time, the waste liquid treatment module provided by the system can neutralize electrolyte leaks in real time, avoiding soil pollution.

Industry outlook: Building a closed-loop ecosystem of "prevention diagnosis repair"

With the deep integration of the Internet of Things and big data technology, electric power chemistry testing is extending from single detection to full scene services. The State Grid plans to deploy intelligent oil monitoring terminals for 50% of substations by 2026 to realize real-time diagnosis of oil chromatogram, micro water and other parameters through edge computing. Southern Power Grid is piloting "chemical detection drones" equipped with miniature spectrometers to perform live detection on overhead line insulators, increasing inspection efficiency by five times.

 Chemical testing is no longer an isolated technology in the laboratory, but a bridge connecting equipment health management and intelligent operation and maintenance of the power grid. Experts from the China Electric Power Research Institute pointed out that in the next three years, industry testing will focus on achieving automation, intelligence, and green goals.

In this silent technological revolution, electrochemical detection is guarding the safety and cleanliness of every kilowatt hour of electricity with molecular level precision, writing the "chemical chapter" of energy transformation.