ADV559 For the life science industry, its requirements for water supply are much higher than other use scenarios, such as purity, temperature, flow rate, pressure, oxygen content and other parameters, even if there is a very small deviation, it may directly lead to unqualified products. In terms of sewage treatment, not only safety needs to be highly concerned, but also the recycling and efficient use of water resources should be fully considered.
In this regard, Schneider Electric can use digital means to collect and transmit on-site equipment and water supply data in real time to the AVEVA UOC integrated operations center, so that it can better use these visual data information to help users make predictive maintenance of pumps and related control decisions. And through Modicon 251, Modicon M262 and a series of PLC products to achieve more accurate and stable automatic control, to ensure the stability of the water and the purity of the water quality in the overall process, and to locate and deal with problems such as pipe network leakage in a timely manner.
Bioprocessing: “Process control experts” help realize “Pharmaceutical Company 4.0”
In the most core bioprocessing link for life science, it brings together theADV559 molecular generation and purification of many drugs. Accuracy and stability have always been the goal of Schneider Electric’s continuous pursuit of excellence in this link. In addition to adopting the same AVEVA system solution as Chemists, at the Hannover stand, Schneider Electric also presented ProLeiT process control solutions, known as “process control experts”, which cover the full control needs from the enterprise to the workshop level, making the production process of pharmaceutical companies more sustainable and resilient.
ProLeiT can help pharmaceutical companies achieve the empowerment of “Pharmaceutical 4.0”, that is, the visual presentation of “Industry 4.0” in the pharmaceutical industry. In the horizontal dimension, ProLeiT can cover the entire product process from raw material storage, biological processing to finished products out of the warehouse, while in the vertical dimension, ProLeiT realizes the interconnection at all levels from workshop control to MES and then to enterprise ERP.
Green materials production: Energy electrification for low-carbon sustainable development
Sustainability is also an important issue for the life sciences industry, with 4.4 percent of global eADV559 missions generated by the entire pharmaceutical supply chain, the equivalent of driving an average car around the world 58 times. Due to the special requirements of health and safety, compliance and other aspects of the life sciences industry, in the daily operation and research and development links, often produce some additional energy and material losses; At the same time, the manufacturing of glass, aluminum, steel and other products as raw materials for products and equipment in the life science industry is often a high-energy industry, and its control of energy consumption and carbon emission levels will also have a conductive impact on the downstream life science industry.
In response to this challenge, the carbon emissions of these traditionally energy-intensive industries can be effectively reduced through the electrification of raw material manufacturing. For example, by using electric furnaces powered by green electricity in the glass manufacturing and processing industry, CO2 emissions can be reduced by up to 70%. In the future, this trend is expected to extend to a wider range of raw material manufacturing fields such as steel and chemicals, providing a way to achieve sustainable development in the life sciences industry and other industries.
Packaging and logistics: Innovation converging digitalization and automation
The characteristics of the life sciences industry will also bring different challenges to the packaging and transportation of products, such as the need to avoid leakage and pollution during the packaging and transportation of drugs, and achieve efficient and punctual packaging and transportation, while taking into account cost and sustainable benefits. In this regard, solutions such as advanced robotics, automation and intelligent transportation are needed to provide assistance.
In the packaging process, Schneider Electric can not only integrate parallel robots, manipulators and modular flexible conveying systems in the same production line to achieve efficient and seamless collaboration, but also use intelligent algorithms to optimize the speed of the conveying unit, so that the container can maintain a stable liquid level during high-speed transportation, avoiding spills and spills. In addition, the production line can be maintained in segments as needed to maximize the overall equipment efficiency. In the logistics sector, Schneider Electric can use digital twin technology to conduct simulation demonstrations for the design and planning stage of automated logistics transmission lines, as well as the final digital delivery, and users can also wear AR wearable devices to visually browse the virtual digital model of logistics transmission lines.
