Producers in the specialty and fine chemical market face many challenges. Research driven innovation and the rapid introduction to market of products to meet your customer’s needs is the key to profitability. Additionally, you must also be looking into the future to meet the requirements for products and solutions for your customers tomorrow.
Yokogawa has long served customers in the specialty and fine chemicals market. With a market leading batch solution that offers the best in class reliability and flexibility as well as industry experts who understand the complex requirements in designing a batch solution, you can be assured that in your partnership with Yokogawa you will have a system that will enable you to produce products that meet your customers’ needs in the future while maintaining safety and regulatory compliance.
Chemical companies specify strict requirements regarding not only the quality of their products but also the necessary production processes. Amongst other things, this applies to the design, installation and automation of the process plants used in these "regulated" branches of the chemical industry.
Specialty and fine chemicals are typically produced by batch processes. The production systems at such plants must be flexible to accommodate a wide range of products. With its ISA-88 based batch functionality, Yokogawa’s comprehensive control solution, the CENTUM VP integrated production control system, matches up well with this requirement. For analysis of process and product quality, batch performance data must be stored in a readily accessible format. The ISA-88 based Exaquantum/Batch information management system collects, saves, displays, and reports current and historical performance data on batch production, equipment, and recipes. Also, the Exapilot online navigation tool helps operators reliably execute non-routine procedures such as plant shutdown and startup.
Production Control System: CENTUM VP Batch
Chemical batch processes require batch operation and some of them are multipurpose which allow multiple products to be manufactured. This necessitates the use of a comprehensive batch control system. CENTUM VP, integrated production control system supplies batch functions based on the ISA-88 Batch standard.
Process Information Management System: Exaquantum/Batch
Batch production and control records need to be maintained in complete manner and to be readily available for inspection. These information also will be utilized for decision support, production planning, process analysis, process improvement, quality assurance purposes. Exaquantum/Batch is an intelligent ISA-88-based Information System. It provides verified analysis and reporting facilities that collect, store and display current and historical data from batch production, equipment and recipe viewpoints.
Operation Efficiency Improvement: Exapilot
Exapilot is an online navigation tool that guides operators step by step through plant operating procedures.
Using Exapilot, Standard Operating Procedures (or SOPs) are created in a standardized form. SOPs improve efficiency and reduce the total cost of ownership by reducing or eliminating human errors.
The procurement costs and availability of energy forms such as electricity, steam or compressed air are subject to constant fluctuations, particularly in large-scale plant; at the same time, they are critical parameters for energy efficiency management (EEM).
Clear recommendations for action
The Plant Energy Efficiency Management System (PEEMS), Yokogawa's well thought-out, holistic EEM solution, allows specific courses of action to be recommended based on a plant's energy consumption.
This is clearly illustrated in the related diagram, which also shows starting points where Yokogawa solutions can help improve your EEM.
From the field level (provision of energy meters) through the process level (provision of control systems or compact, customized information systems) to the MES level (analysis and evaluation of energy consumption), Yokogawa delivers holistic energy solutions along the automation pyramid.
However, there are four essential conditions for identifying and realizing cost-cutting potential at plant level in the process industry:
1.A sufficiently large and qualified database
2.Intelligent data analysis and interpretation
3.Clearly visualized results
4.Meaningful, transparent recommendations for action
Overview of all relevant energy flows
The aim is to automate the derivation of optimal energy use strategies as far as possible by evaluating raw data. These strategies must then be communicated to the operators concerned in a structured form. It is an advantage here to address plant operators on the familiar process graphics level and provide them with a readily graspable overview of energy flows. Additional indicators are required for this purpose, similar to the arrows in a Sankey diagram.
Detailed supplementary information can be provided in cascading menus. Intuitive colour schemes, a clear screen layout and simple icons enable critical analysis results to be assimilated quickly and accurately. Ease of understanding was a top priority for the development team responsible for Yokogawa's new "Plant Energy Efficiency Management System" (PEEMS).
Customized information filter
When a company decides to implement an EEM system, account simultaneously needs to be taken of that system's ability to "grow" as the plant expands and becomes increasingly complex. Something that – in extreme cases – begins with a small, recorder based system may progress to control with a standalone PLC and culminate in the introduction of a process control system. The structure of the EEM process – and hence often the all-important levers for energy optimized operation – remains intact, so that it makes sense to preserve and extend this know-how.
An EMM system is not an autopilot that takes the place of a plant operator. On the contrary, a whole series of other parameters such as safety, the combination of available raw material quality and specified product quality or productivity and production capacity requirements also have a crucial influence. The system is more accurately described as an operator assistance tool that integrates the following key functions:
1.Compare current and energy optimized operation
2.Explain to the plant operator how much energy could be saved by switching to a different mode of operation
3.If necessary, help the operator complete the transition from the existing to the optimized mode of operation
Finally, in order to master these tasks, several conditions clearly need to be satisfied: a reliable, meaningful database, structured and prioritized interpretation of this data, transparent and easy-to-understand visualization of the results and one or more recommended courses of action.
Provided these requirements are met, Yokogawa EEM systems can contribute to maximizing the efficiency increase and cost reduction while minimizing the extra burden on the plant operator.
Process plants are often built to last for several decades. In many cases, the original automation technology lags behind the latest state of the art. Much valuable potential is wasted by plant owners in this way.
We help you mobilize these efficiency reserves - with over 40 years experience automating the chemical and pharmaceutical industries.
There are plenty of good reasons to modernize a plant, e.g.:
•Increased productivity and competitiveness
•Energy efficient production processes that protect the environment and natural resources
•Cutting-edge, safety oriented concept tailored to actual needs
•User friendly operation
•Greater information transparency through horizontal and vertical integration
•Innovative plant asset management for higher plant availability
•More flexible production
We do all of this in moderation - by preserving what has already been tried and tested, pinpointing and removing obstacles, optimizing structures and minimizing downtime with the help of simulations and virtual plant training.
We subject the old system concept to a throughout scrutiny by carrying out a "comparative effectiveness analysis". Using our own benchmarking procedure, we determine the most suitable measures for adding value to your plant, starting with the design stage.
In the framework of a risk analysis, we identify critical modernization aspects early on and prioritize our planned measures accordingly.
Professional obsolescence management in accordance with DIN EN 62402 or NAMUR NE 121 is your guarantee of a workable and sustainable solution that continues to offer excellent value for money throughout the life of your plant.
Modernization is more than simply migration. We provide a full range of services on your path to modern, efficient process automation - either individually or as part of a package - from the initial idea until the plant starts operation.
Ube Corporation Europe and Yokogawa co-created the Field Assistant mobile solution.
Field Assistant innovates inspection patrol, supervisory management, and O&M efficiency in the plant.
MGC Mizushima Plant selected Yokogawa's PDA to achieve one of its improvement activities.
MGC has successfully stabilized the process and reduced the operator work load.
Taiyo Nippon Sanso Corp. was looking for a system that could be easily adopted to its plant architecture. For the following reasons, Yokogawa's STARDOM system with the FCN autonomous controller and the VDS Web-based SCADA software was selected as their control system for a Water-18O plant and other facilities.
As the demand for food is increasing worldwide, fertilizers are playing an essential role in improving agricultural productivity. OCI Nitrogen (hereinafter OCI) is a leading producer of mineral fertilizers and the world's largest producer of melamine, which is used to make adhesives and resins for a wide range of applications, such as furniture panels, laminate flooring, coatings, paints, and plastics.
The UT series of temperature controllers is perfect for controlling the heating temperature of sealing parts and the temperature of sealing rolls (pre-heating) in a variety of different wrapping machinery.
This introduces a system that uses Ethernet communications to acquire measured values, target values, and control output values from a controller installed on site into a PLC at high speed (ten units' worth within one second).
In the plants of food and beverage manufacturers, there are times when monitoring and recording of production equipment is necessary inside clean rooms. This is an introduction to monitoring and recording in clean rooms using paperless recorders.
The ADMAG AXR is the world's first 2-wire magnetic flow meter which employs the unique "Dual Frequency Excitation Method," achieving 0.5% of rate of best-in-class accuracy and excellent stability for process measurement. In addition, the newly developed AXR key technologies," achieves the same level of noise immunity as 4-wire type under the fluid condition change and delivers enough performance to meet the requirement to apply in the control loop.
In the manufacturing process of Pharmaceutical, Chemical and Food & Beverage industries, the cleaning and sterilization of tanks and piping are done with various cleaning solutions, fresh or hot water and steam after manufacturing products. Clean-In-Place (CIP) is the system designed for automatic cleaning and disinfecting.
Control of sodium chloride (NaCl) concentration at a salt dissolver where solid salt is dissolved in water, is highly important because of the electrolysis efficiency. A conventional way of measuring the concentration of supersaturated NaCl solution had been performed by using non-contact type sensors (e.g., γ-ray density meter) since NaCl, impurities, and precipitates are in the solution.
There are various methods for continuous fabric dyeing as well as dye fixing. When dye is directly applied, steaming (heat treatment) is required. At present the pad-steam method is widely used for continuous dyeing. To ensure stable product quality, the humidity in the steamer is kept at a constant level.
In flue gas desulfurization systems that use magnesium hydroxide (Mg(OH)2) slurry, the consumption of the desulfurization agent (Mg(OH)2) is controlled by using online pH analyzers. A great concern in the pH measurement is heavy staining of the pH electrodes by the Mg(OH)2 slurry. To ensure accurate measurement, frequent cleaning of the electrodes with an acid is required, adding to both maintenance workload and cost.
Recently, air pollution legislations such as the Clean Air Act to reduce the amount of air pollution are increasing worldwide. The Clean Air Act address numerous air quality problems. One of these problems is acid rain caused by sulfur dioxide and nitrogen oxide emissions from fossil-fueled power plants and other industrial and transportation sources.
Caustic soda is an important basic material in the chemical industry and is mainly produced by the electrolysis of soda. In the electrolysis process to make concentrated caustic soda, the DM8 Liquid Density Meter ensures high product quality through accurate measurement of liquid density.
One of the most common applications for differential pressure transmitters is flow measurement. DPharp differential pressure transmitters have some unique signal conditioning features to eliminate instability at low flow rates.
Process liquid analyzers such as pH meters, conductivity meters, ORP meters, and density meters play an important role at electrolysis plants in the control of concentrations of various process solutions. This requires both precision and stability under harsh conditions that include highly corrosive substances, high temperatures, and many impurities.
Level transmitter configuration can be very time consuming. DPharp transmitters with advanced software functionality eliminate this time consuming task. With maintenance shops getting smaller, finding equipment that allows us to do more with less becomes a priority.
Many different types of gases are consumed in industries as varied as chemicals, food & beverages, and medical. These gases are normally delivered in liquid form by trucks and dispensed at the customer site. Although the flow volume of cryogenic liquefied gas is used for billing purposes, it is not easy to accurately measure this because the gas is always at saturation temperatures.
Reverse osmosis (RO) is a separation process that uses pressure to force a solution through a membrane that retains the solute on one side and allows the pure solvent to pass to the other side. More formally, it is the process of forcing a solvent from a region of high solute concentration through a membrane to a region of low solute concentration by applying a pressure in excess of the osmotic pressure.
The CX1000/CX2000 offers an average value computation function making it ideal for controlling temperature and other fluctuating phenomena. The operating status can be controlled in real time, providing operating cost reductions.
The discharge of improperly treated industrial chemicals and fuel gas can have a major impact on the environment, posing a serious threat to public health. Concurrent with the global growth of manufacturing operations to keep pace with market trends, many countries are taking measures to deal with environmental problems.
Controls temperature in, and acquires data from, various internal components of plastic film manufacturing equipment. An easy to use, high cost-performance data acquisition and monitoring system can be assembled by using Ethernet compatible instruments and DAQWORX package software.
Industrial Combustion sources such as thermal cracking furnaces and, process heaters play a critical role in the process industry.
In limestone-gypsum flue gas desulfurization systems, the consumption of a desulfurization agent (lime) is controlled using online pH analyzers.
For safe and efficient operation, the quality of feedwater, steam, and condensate in boiler plants must be controlled and maintained in the most favorable conditions.
Operators must receive diagnostic information before a line block leads to a malfunction. Yokogawa provides predictive diagnostics based on trend analysis of the blocking factor, which improves maintenance efficiency and reduces maintenance costs.
Steam is still one of the most popular methods of providing an energy source to a process and its associated operations. The more accurate and reliable measurements that are made, the more informed decisions can be taken that affect costs and product quality.
In the course of more than twenty years as an engineer involved directly in utility related projects in a number of industries, I have seen a great variety of energy efficiency projects and programs covering the entire spectrum of efficacy. The Deer Park, Texas, plant of the Rohm and Haas Company has a unique energy management program that has proven to be highly successful. This program has resulted in a 17 percent reduction in energy use on a per pound of product basis, saving 3.25 trillion btus and $15 million each year! This article discusses this program, its history, successes, and the unique characteristics that have contributed to those successes.
The REPSOL company had in mind the improvement of the control on one of their chemical reactors. A feasibility study for the implementation of an Advanced Control technique (Predictive Control for temperature control for chemical Reactors - PCR) for a batch reactor for Polyols production has been performed. The proposed technique PCR is based on a dynamic model of the unit which makes the prediction of the process variables behaviour.
After a feasibility study, Repsol YPF decided to apply a model-based predictive controller to a batch reactor producing polyols. The predictive controller for reactors (PCR) is a set of control modules that are designed to face most of the reactor configurations. The important increase of production is a consequence of the better handling of the reactor temperature. Here's a description of the unit and control objectives, methodology, project steps, results and the corresponding benefits.
From engineering to installation, commissioning, operations, and maintenance, FOUNDATION fieldbus offer significant cost reductions of 30 percent or more versus conventional analog systems. Many of these cost reductions come from the advanced functions that fieldbus offers versus analog technology.
The automation suppliers that will be successful in the long term will be those that effectively address application or industry specific problems for end users with a value proposition that cannot be ignored. These problems exist throughout the process industries today, and they won't be solved by simply offering a product, but through a combination of hardware, software, services, application expertise, and knowledge.
In ARC's view, customers need a compelling business value proposition to justify investment in any kind of automation. Vigilance and VigilantPlant were created with this in mind. Yokogawa's vision with VigilantPlant is to create an environment where plant personnel and operators are well informed, alert, and ready to take action.
Yokogawa has come a long way in making its message clear to the world of process automation. Last year, the company embarked on a full-scale global marketing campaign to make customers aware of the company's focus on system reliability, security, dependability, and robustness. Dubbed "Vigilance", the campaign created a unified message for the company and greatly helped expand awareness of the Yokogawa brand and corporate philosophy.
Process automation end users are under more pressure than ever to do more with less. The current economic climate means that many automation capital projects are on hold. With capital budgets tighter than ever, users instead focus on operational budgets (where cost cutting is also a key concern), or on automation investments with a very rapid return on investment.
In today's dynamic industrial marketplace, the only constant is change. Raw material costs, energy costs, market demands, environmental and safety regulations, technology, and even the nature of the labor force itself are constantly changing, and not always in predictable directions.
Yokogawa is helping a large chemicals site in China manage product transfer by road, ship and pipeline.
ISA S88.01 provides great benefit to users and vendors by solidifying batch operating models and standardizing batch control terminology. On the other hand, as befits an industry-wide standard, ISA S88.01 leaves great flexibility for individual users to apply their own project practices and implementation methodology. Even when utilizing ISA S88.01 models and terminology, many pitfalls remain for those who implement batch controls and recipe management without thinking ahead. Real-world project experience has demonstrated a number of design and implementation "lessons" which might be overlooked to the eventual grief of the batch engineer.
The S88.02 draft standard defines a means for depicting procedural control in master and control recipes. This depiction method is called a Procedural Function Chart (PFC). This standard depiction is based on the requirements of S88.01, technical report ISA-TR88.0.03-1996, user requirements, previous standards and commonly used procedure depiction methods in use today. PFCs can provide a common basis for the exchange of recipes, reduce the learning curve between control systems, and establish a common ground for improved human communication. This paper provides a brief overview of the development of PFCs, the rules for their use and some of the benefits expected by their adoption in the industry.
The case study in this paper illustrates the value of integrating front-end scheduling with a batch control system. Recipe changes, and addition of recipes, occur frequently in the target process. However, since both scheduler and batch packages were designed with the ISA-S88.01 model in mind, these packages could be tightly coupled (well integrated) – and, as a result, it is easy to add or change recipes. The front- end scheduler is not limited to performing scheduling; it also provides an easy-to-grasp real-time production status display which can help enhance efficiency and productivity.
As batch processes are automated, it is common to leave certain less essential field devices without automatic actuators. Thus, the initial control design must accommodate both automated and manual activities. Later, the manual field devices may be automated, either one-at-a-time or in related groups as equipment modules. These field changes, often occurring over a period of years, each require rework of the batch control logic, which can easily exceed the cost of the actuator. In response to this undesirable situation, a technique has been developed which permits the batch design to automatically modify itself, or evolve, to accommodate changes in field automation.
Six Sigma is a quality improvement methodology applied to improving any type of process. It is a methodology endorsed by and heavily integrated into several major chemical companies.
Key Performance Indicators (KPIs) are used in batch processing industries as measurements of production performance. Their use is one element in the current trend of real-time performance management. A single KPI used as the primary measurement of production can cause other dimensions of production performance lose importance. When multiple KPIs are used to measure a batch's production performance it can be difficult to reconcile differences between them for individual batches or for groups of batches. KPIs based upon meeting a target, or specification, measure absolute performance yet do not provide relative information regarding how a batch performed against its peers. The peer comparisons are important for monitoring variability of production performance, which is a critical factor in documenting ROI.
The application of DCS-based "advanced controls" is a common method of achieving enhanced performance from continuous processes such as refinery units. However, it is less widely recognized, but nonetheless true, that modern DCS systems can include other software tools for the significant improvement of batch plant productivity, product quality, and economic performance. Due to the fundamental processing differences between the two types of plants, unique batch "advanced control" features are required which are different from those used for continuous plants.
ARC believes that by implementing procedural automation, many process plants can minimize variability to help ensure smooth, efficient, and safe state transitions.
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