Chemical

The Chemical Manufacturing subsector is based on the transformation of organic and inorganic raw materials by a chemical process and the formulation of products. This subsector distinguishes the production of basic chemicals that comprise the first industry group from the production of intermediate and end products produced by further processing of basic chemicals that make up the remaining industry groups.

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🛢️🧠 ENEOS and PFN Begin Continuous Operation of AI-Based Autonomous Petrochemical Plant System

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🔖 Topics: Autonomous Production, Autonomous Factory, AI

🏭 Vertical: Petroleum and Coal, Chemical

🏢 Organizations: ENEOS, Preferred Networks


ENEOS Corporation (ENEOS) and Preferred Networks, Inc. (PFN) announced today that their artificial intelligence (AI) system, which they have been continuously operating since January 2023 for a butadiene extraction unit in ENEOS Kawasaki Refinery’s petrochemical plant, has achieved higher economy and efficiency than manual operations.

Jointly developed by ENEOS and PFN, the AI system is designed to automate large-scale, complex operations of oil refineries and petrochemical plants that currently require operators with years of experience. The new AI system is one of the world’s largest for petrochemical plant operation according to PFN’s research, with a total of 363 sensors for prediction and 13 controlled elements. The companies co-developed the system to improve safety and stability of plant operations by reducing dependence on technicians’ varying skill levels.

Read more at Preferred Networks News

⚗️ Industry consortium to develop modern chemical manufacturing methods

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✍️ Author: David Silverman

🔖 Topics: Funding Event

🏭 Vertical: Chemical

🏢 Organizations: BASF, Imperial College London


A major consortium led by Imperial and chemical company BASF is to help make chemical manufacturing more efficient, resilient, and sustainable. Imperial will receive £17.8 million from the Engineering & Physical Sciences Research Council (EPSRC) and industry partners under the EPSRC Prosperity Partnership programme in a consortium of organisations from across the chemicals value chain.

“Flow chemistry is inherently more sustainable than batch processing because it makes better use of heat and materials,” said lead investigator Professor Mimi Hii from Imperial’s Department of Chemistry. “It can also provide a powerful tool for automating production and the research and development of more sustainable processes. However, there are technical bottlenecks that are holding back its full implementation. Through this new consortium we will be in a strong position to address these.”

Read more at Imperial College London News

In a World First, Yokogawa’s Autonomous Control AI Is Officially Adopted for Use at an ENEOS Materials Chemical Plant

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🔖 Topics: AI, Autonomous Production, Factorial Kernel Dynamic Policy Programming, Industrial Control System

🏭 Vertical: Chemical

🏢 Organizations: Yokogawa, ENEOS Materials


ENEOS Materials Corporation (formerly the elastomers business unit of JSR Corporation) and Yokogawa Electric Corporation (TOKYO: 6841) announce they have reached an agreement that Factorial Kernel Dynamic Policy Programming (FKDPP), a reinforcement learning-based AI algorithm, will be officially adopted for use at an ENEOS Materials chemical plant. This agreement follows a successful field test in which this autonomous control AI demonstrated a high level of performance while controlling a distillation column at this plant for almost an entire year. This is the first example in the world of reinforcement learning AI being formally adopted for direct control of a plant.

Over a 35 day (840 hour) consecutive period, from January 17 to February 21, 2022, this field test initially confirmed that the AI solution could control distillation operations that were beyond the capabilities of existing control methods (PID control/APC) and had necessitated manual control of valves based on the judgements of experienced plant personnel. Following a scheduled plant shut-down for maintenance and repairs, the field test resumed and has continued to the present date. It has been conclusively shown that this solution is capable of controlling the complex conditions that are needed to maintain product quality and ensure that liquids in the distillation column remain at an appropriate level, while making maximum possible use of waste heat as a heat source. In so doing it has stabilized quality, achieved high yield, and saved energy.

Read more at Yokogawa Press Release

The Role of Industrial AI in Chemical Manufacturing Digitization

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🏭 Vertical: Chemical

🏢 Organizations: Augury


In order for chemical manufacturers to optimize production lines, they need to address different process inefficiencies, such as the formation of undesired side products, process instabilities, losses due to impurities and more, on an ongoing basis. Given the complexities of chemical manufacturing, it’s extremely time-consuming and difficult to understand the root causes for these process inefficiencies, let alone anticipate when they are going to happen. Often times, it is the specific behavior of the combination of multiple production parameters, or tags, that cause the inefficiency to happen.

Read more at Augury Blog

In a World First, Yokogawa and JSR Use AI to Autonomously Control a Chemical Plant for 35 Consecutive Days

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🔖 Topics: Autonomous Factory, Reinforcement Learning, Artificial Intelligence

🏭 Vertical: Chemical

🏢 Organizations: Yokogawa, JSR, Nara Institute of Science and Technology


Yokogawa Electric Corporation (TOKYO: 6841) and JSR Corporation (JSR, TOKYO: 4185) announce the successful conclusion of a field test in which AI was used to autonomously run a chemical plant for 35 days, a world first. This test confirmed that reinforcement learning AI can be safely applied in an actual plant, and demonstrated that this technology can control operations that have been beyond the capabilities of existing control methods (PID control/APC) and have up to now necessitated the manual operation of control valves based on the judgements of plant personnel. The initiative described here was selected for the 2020 Projects for the Promotion of Advanced Industrial Safety subsidy program of the Japanese Ministry of Economy, Trade and Industry.

The AI used in this control experiment, the Factorial Kernel Dynamic Policy Programming (FKDPP) protocol, was jointly developed by Yokogawa and the Nara Institute of Science and Technology (NAIST) in 2018, and was recognized at an IEEE International Conference on Automation Science and Engineering as being the first reinforcement learning-based AI in the world that can be utilized in plant management.

Given the numerous complex physical and chemical phenomena that impact operations in actual plants, there are still many situations where veteran operators must step in and exercise control. Even when operations are automated using PID control and APC, highly-experienced operators have to halt automated control and change configuration and output values when, for example, a sudden change occurs in atmospheric temperature due to rainfall or some other weather event. This is a common issue at many companies’ plants. Regarding the transition to industrial autonomy, a very significant challenge has been instituting autonomous control in situations where until now manual intervention has been essential, and doing so with as little effort as possible while also ensuring a high level of safety. The results of this test suggest that this collaboration between Yokogawa and JSR has opened a path forward in resolving this longstanding issue.

Read more at Yokogawa News

Make Digital Twins an Integral Part of Your Sustainability Program

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✍️ Authors: Paige Marie Morse, Geeta Pherwani

🔖 Topics: Digital Twin, Sustainability

🏭 Vertical: Chemical

🏢 Organizations: AspenTech


Digital solutions provide the visibility, analysis and insight needed to address the challenges inherent in sustainability goals. A digital twin strategy as part of an overall digitalization plan can be a crucial capability for asset intensive industries such as refining and chemicals. A digital twin needs to encompass the entire asset lifecycle and value chain from design and operations through maintenance and strategic business planning.

Comprehensive sustainability solutions are stretching the capabilities of thermodynamic first principle-based digital twins and driving the need for the next generation of solutions. Reduced order hybrid models offer a critical capability to achieve digitalization, sustainability and business goals faster. Reduced-order models can abstract models to enterprise views which inform executive awareness and strategic decision-making. Site-wide models can run faster and more intuitively to drive agile decision-making and optimize assets to achieve safety, sustainability and profit.

Read more at Automation

How Green Hydrogen Is Made

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✍️ Author: Kevin Hand

🏭 Vertical: Chemical


Hydrogen has promise as a fuel that burns without creating greenhouse gases. But the production of hydrogen isn’t necessarily as clean. Only 1% of current hydrogen production is produced from renewable sources, according to the International Energy Agency. The Wall Street Journal looks at some of the major production processes, which are often differentiated by color.

Read more at Wall Street Journal (Paid)

How Eastman Strives for a Circular Plastics Economy

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🔖 Topics: sustainability, circular economy, recycling

🏭 Vertical: Chemical

🏢 Organizations: Eastman Chemical


“Mechanical recycling—where you go out and take items like single-use bottles, chop, wash and re-meld them and put them back into textiles or bottles—can only really address a small portion of the plastics that are out there,” Crawford said. After a few cycles, the polymers in the products degrade and the process is no longer possible.

Instead, Eastman uses advanced, also known as molecular or chemical, recycling. “We unzip the plastic back to its basic building blocks, then purify those building blocks to create new materials,” Crawford said. This “creates an infinite loop because that polymer can go through that process time and time again.”

Read more at NAM

Never Heard of Recycled Paint? You Have Now! - Dulux Trade Evolve

Seeq Accelerates Chemical Industry Success with AWS

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🔖 Topics: IIoT

🏭 Vertical: Chemical

🏢 Organizations: Seeq, AWS, Covestro, allnex


Seeq Corporation, a leader in manufacturing and Industrial Internet of Things (IIoT) advanced analytics software, today announced agreements with two of the world’s premier chemical companies: Covestro and allnex. These companies have selected Seeq on Amazon Web Services (AWS) as their corporate solution, empowering their employees to improve production and business outcomes.

Read more at Automation

Colgate-Palmolive Focuses on Machine Health to Improve Supply Chain Operations

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✍️ Author: David Greenfield

🔖 Topics: predictive maintenance, machine health

🏭 Vertical: Chemical

🏢 Organizations: Colgate-Palmolive, Augury


Colgate-Palmolive is feeding this wireless sensor data into Augury’s machine health software platform. Pruitt pointed out that this enables Colgate-Palmolive’s machine data to be compared with machine data from more than 80,000 other machines connected to the Augury platform around the world.

“That massive analytical scale brings us insights on how to optimize the performance of equipment and make ever-smarter choices on how and where we deploy it,” Pruitt said. “What’s possible only gets more compelling as this AI solution harnesses more data to create better health outcomes for our machines and our business.”

Providing a specific example of how Augury’s Machine Health system has helped Colgate-Palmolive, Pruitt noted that the system’s AI detected rising temperatures in the drive of a tube maker and alerted the plant team. “Upon inspection, they discovered a problem with the motor’s water cooling system,” he said. “By getting it quickly resolved, we prevented the drive from failing due to overheating, which would’ve stopped the tube production line and incurred replacement costs. We figure the savings at 192 hours of downtime and an output of 2.8 million tubes of toothpaste, plus $12,000 for a new motor and $27,000 in variable conversion costs.”

Read more at AutomationWorld

Five companies make a quarter of world’s single use plastics

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✍️ Author: Camilla Hodgson

🔖 Topics: sustainability

🏭 Vertical: Chemical, Plastics and Rubber

🏢 Organizations: ExxonMobil, Dow, Sinopec, Indorama, Aramco


The top 5 companies created roughly 26 million metric tones of plastic waste fueled by demand of the United States and China.

Read more at Financial Times (Paid)

Survey: Data Analytics in the Chemical Industry

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✍️ Author: Allison Buenemann

🔖 Topics: manufacturing analytics

🏭 Vertical: Chemical

🏢 Organizations: Seeq


Seeq recently conducted a poll of chemical industry professionals—process engineers, mechanical and reliability engineers, production managers, chemists, research professionals, and others—to get their take on the state of data analytics and digitalization. Some of the responses confirmed behaviors we’ve witnessed first-hand in recent years: the challenges of organizational silos and workflow inefficiencies, and a common set of high-value use cases across organizations. Other responses surprised us, read on to see why.

Read more at Seeq

Leveraging AI and Statistical Methods to Improve Flame Spray Pyrolysis

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✍️ Author: Stephen J. Mraz

🔖 Topics: AI, machine learning, materials science

🏭 Vertical: Chemical

🏢 Organizations: Argonne National Laboratory


Flame spray pyrolysis has long been used to make small particles that can be used as paint pigments. Now, researchers at Argonne National Laboratory are refining the process to make smaller, nano-sized particles of various materials that can make nano-powders for low-cobalt battery cathodes, solid state electrolytes and platinum/titanium dioxide catalysts for turning biomass into fuel.

Read more at Machine Design

On Factory Floors, a Chime and Flashing Light to Maintain Distance

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✍️ Author: Christopher F. Schuetze

🔖 Topics: COVID-19, wearable technology

🏭 Vertical: Chemical

🏢 Organizations: Henkel, Kinexon


Businesses like Henkel, a big German chemical company, are trying wearable sensors to prevent virus outbreaks among workers.

Read more at New York Times (Paid)

A Case of Applying AI to an Ethylene Plant

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✍️ Authors: Yoshiyuki Jinguu, Hirotsugu Gotou

🔖 Topics: Predictive Maintenance, Anomaly Detection

🏭 Vertical: Chemical

🏢 Organizations: Yokogawa


Unexpected equipment failures or maintenance may result in unscheduled plant shutdowns in continuously operating petrochemical plants such as ethylene plants. To avoid this, the operation status needs to be continuously monitored. However, since troubles in plants have various causes, it is difficult for human workers to precisely grasp the plant status and notice the signs of unexpected failures and need for maintenance. To solve this problem, we worked with a customer in an ethylene plant and developed a solution based on AI analysis. Using AI analysis based on customer feedback, we identified several factors from numerous sensor parameters and created an AI model that can grasp the plant status and detect any signs of abnormalities. This paper introduces a case study of AI analysis carried out in an ethylene plant and the new value that AI technology can offer to customers, and then describes how to extend the solution business with AI analysis.

Read more at Yokogawa Technical Report

Scalable reinforcement learning for plant-wide control of vinyl acetate monomer process

📅 Date:

✍️ Authors: Lingwei Zhu, Yunduan Cui, Go Takami, Hiroaki Kanokogi, Takamitsu Matsubara

🔖 Topics: Reinforcement Learning, Autonomous Production, Factorial Kernel Dynamic Policy Programming

🏭 Vertical: Chemical

🏢 Organizations: Nara Institute of Science and Technology, Yokogawa


This paper explores a reinforcement learning (RL) approach that designs automatic control strategies in a large-scale chemical process control scenario as the first step for leveraging an RL method to intelligently control real-world chemical plants. The huge number of units for chemical reactions as well as feeding and recycling the materials of a typical chemical process induces a vast amount of samples and subsequent prohibitive computation complexity in RL for deriving a suitable control policy due to high-dimensional state and action spaces. To tackle this problem, a novel RL algorithm: Factorial Fast-food Dynamic Policy Programming (FFDPP) is proposed. By introducing a factorial framework that efficiently factorizes the action space, Fast-food kernel approximation that alleviates the curse of dimensionality caused by the high dimensionality of state space, into Dynamic Policy Programming (DPP) that achieves stable learning even with insufficient samples. FFDPP is evaluated in a commercial chemical plant simulator for a Vinyl Acetate Monomer (VAM) process. Experimental results demonstrate that without any knowledge of the model, the proposed method successfully learned a stable policy with reasonable computation resources to produce a larger amount of VAM product with comparative performance to a state-of-the-art model-based control.

Read more at Control Engineering Practice