The food and beverage industry must produce safe, high-quality foods and beverages for consumers. In addition to quality control, the manufacturing processes include many challenges such as managing ingredients, improving efficiency and handling global environmental issues. Yokogawa leverages its decades of technological expertise to help customers build and operate the ideal factory.
Beer Brewing Process Diagram
Beer Brewing Applications
Yokogawa helps leading-edge Beer Brewing plants through automation solutions that enable plant-wide integration and lifecycle optimization. Here is a quick list of Beer Brewing units and applications for which Yokogawa has a global network of experts at your service, providing comprehensive automation solutions.
Raw Material Handling
Raw Material Handling
CIP(Cleaning In Place)
CIP(Cleaning In Place)
CIP(Cleaning In Place)
Sugar Production Process Diagram
Sugar Production Applications
Yokogawa helps leading-edge Sugar Production plants through automation solutions that enable plant-wide integration and lifecycle optimization. Here is a quick list of Sugar Production units and applications for which Yokogawa has a global network of experts at your service, providing comprehensive automation solutions.
Raw Sugar Affiniated Sugar Melt
Filter Machine Control
Ionic Exchange Resin Control
Concentrate and Crystallization
Vacuum Pan Control
Yokogawa has a wealth of experience within all areas of the Food and Beverage industry. We can work with you to find the perfect solution for your needs from beer to chocolate production.
More Food and Beverage Capability
Spirits and Wine Production
Carbonated / Non-Carbonated Beverage Production
Isomerized Sugar Process Control
Flour Milling Process Control
US Bioterrorism Act
Hazard analysis and critical control point (HACCP)
Shree Renuka Sugars Limited (SRSL) is a global agribusiness and bio-energy corporation. The company is one of the world’s largest sugar producers and refiners.
- Yokogawa provided control solutions for expansion project in sugar and bio-energy plant.
- Consolidated central control room was designed for safe, comfortable, and efficient work environment.
The introduction of eServ has resulted in a centralized system of facility information. The reason for the loss of production opportunities has become clear, and it has become possible for all members to follow up the progress of the measures.
S&B Sankyo uses the GX20 Paperless Recorder to monitor temperature and pressure in a food processing plant's sterilization process.
Rousselot Ghent won Belgium Factory of the Future Award. Yokogawa has supported Rousselot with automation systems since 1993.
Data of 20,000 tags gathered by Exaquantum helped to find the ideal production parameters.
The TC 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.
- The new package software running on the CENTUM CS 3000 has enabled flexible configuration and data settings for greater productivity.
- The CENTUM CS 3000 features a standard long-term trend function that can store a year's worth of data on more than 200 tags that are sampled at 2 minute intervals.
In the past, the boiler feed tank systems in sugar factories had to be checked several times a day to make sure there were no sugar solution leaks. This was a very laborious process and, as continuous monitoring was not possible, monitoring results were not reliable. When a leak occurred, recovery operations were very costly and time-consuming. (AN10D01K01-02E)
One of the critical control points in the brewing process is the monitoring of the progress of the fermentation stage. The DM8 Vibration Type Liquid Density Meter offers high sensitivity and stability, realizes precise control, reduces workload, and reduces instrument costs.
- For remote monitoring (of temperature, pressure, and flow volume), installing the SMARTDAC+ GM in the plant and the SMARTDAC+ GX in the office provides for a scalable, pc-free on-site data monitoring solution.
- You can centralize management of large quantities of data by automatically transferring acquired data to a FTP server.
Skim milk is what remains after cream is removed from raw milk. Cream is removed to bring the fat content of the skim milk as close as possible to the lower limit of a designated range. For this purpose, control of the fat content in the cream and the skim milk is essential. The fat content in the cream and the milk has a direct relationship to their density and is controlled by the measurement thereof.
Brewery is facility to produce beer. Breweries process is the manufacturing process of beer, which is a fermented beverage with low alcohol content made from various types of grain. Wheat, maize and other grains can be used for this. Brewing process starts from malted barley that is to form a mash by milling and mixing with hot water. The malt starches are converted to sugars during this process. This sugar rich water is then strained through the bottom of the mash and will be called as "wort". Then the wort will be brought to boil by bringing to the brew kettle. For bitterness or aroma hops are to be added at different times during the boil. Then the wort is cooled and aerated. And brewers yeast is added for fermentation. From the sweet wort the yeast produces carbon dioxide, alcohol and other byproducts. The GREEN BEER undergoes maturation after fermentation. Filtaration and carbonation are the last steps. Finally the beer will be stay in holding tank until it is bottled or kegged.
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.
Monitoring of Soundness of Power Supply Bus Bar (In-vehicle Lithium-ion Battery Applications)
SMARTDAC+ GX series records the clean room temperature, humidity, atmospheric pressure, door openings and closings, etc.
Milk should be processed within 4 to 6 hours of production to make it fit for human consumption. Temperature is a very important parameter which has to be monitored at different stages of milk processing.
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.
Fish perform all their bodily functions in water. Because fish are totally dependent upon water to breathe, feed and grow, excrete wastes, maintain a salt balance, and reproduce, understanding the physical and chemical qualities of water is critical to successful aquaculture. To a great extent water determines the success or failure of an aquaculture operation.
The paperless recorder DX series automatically calculate the Fo value from the heating temperature and are useful in managing the sterilization process by displaying and recording the value together with the heating temperature.
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 food industry, the control of concentrations on the production line is critical to product quality, determining, among other things, how good the food tastes. One such procedure for doing this involves taking a sample from the production process and measuring its specific gravity (density) with a hydrometer.
By using the Multibatch function (an option added with SMARTDAC+), you can efficiently record data from multiple devices onto a single SMARTDAC+.
With advances in process automation comes a greater need for level measurement and control. As pressure on at the bottom surface of a liquid is proportional to the height of the liquid's surface, you can measure pressure using a differential pressure transmitter to detect the level of the liquid, acquire the data on the UT75A Digital Indicating Controller, and use the measurements to control the tank level.
Using the custom display function that comes standard with DXAdvanced means that you can combine the recorders, displays, and switches used in various kinds of equipment.
Using the batch name + lot number system, past measured data can be recalled for reference by batch name.
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.
- Universal inputs provide support for thermocouple, RTD, voltage, and a variety of other input signals.
- Lineup of models for up to 450 inputs.
Allows multipoint monitoring and recording on a single unit.
- Easily enables network-based data management.
file transfers, Web monitoring, and alarm e-mail
By using the computation function of the SMARTDAC+ series Paperless recorder GX/GP, computation option computes the "F-value," or sterilizing value for the sterilization process, so that the computation results can be recorded in the form of data.
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.
With industrial and economic development comes increasingly large and advanced power plants and factories. Nevertheless, we find many cases where the original cables, cable tunnels, and other components of the power infrastructure have languished under continuous operation.
The sterilization temperature prior to the filling process is monitored in the field or office. The temperature data is recorded in an external storage medium.
- Temperature monitoring at a tank farm
- Temperature and pressure monitoring in tank jungles, three vertical monitoring points.
To defray energy costs, many industrial plants have their own boilers to generate steam in order to produce a portion of their energy needs. In addition to generating power, the steam may also be used directly in plant processes or indirectly via heat exchangers or steam jacketed vessels.
After extraction from sugar cane or sugar beets, juice must be purified to remove the many other organics and minerals that accompany it. The processing to accomplish this is heavily dependent on reliable pH measurement and control as illustrated.
One of the primary applications for high purity water is for boiler feed water. The measurement of pure water pH can be one of the quickest indicators of process contamination in the production or distribution of pure water. Effective chemical treatment of the feed water is vital in maintaining the useful operating life and minimizing maintenance costs of the boiler.
Industry:Power, Pharmaceutical, Common
The lifetime of a pH sensor has a significant impact on the overall annual costs of a pH measuring loop. Optimizing four key factors will decrease these costs and optimize process control and overall plant efficiency.
A plant manager’s guide to selecting and implementing a cloud-based asset performance management solution.
This technical white paper will discuss Yokogawa's CENTUM VP DCS (Distributed Control System) product, hereafter referred to as "CENTUM VP", and the extent of its compliance with Part 11 of Title 21 of the Code of Federal Regulations, (21 CFR Part 11), the Electronic Records / Electronic Signatures Rule.
Sugar and alcohol market are increasing, due humanity needs to find alternatives for fossil fuels dependence. Brazil joins climactic and technologic features to place itself at the forefront of this industry.
The worlds of process automation and production management have been converging for some time. What once used to be islands of automation and production management functionality connected through highly proprietary integration schemes that were costly to maintain have developed into integrated platforms that provide seamless data exchange between the world of automation and the plant floor, the functions of production and operations management, and integration with business level systems.
The world of process automation is governed by procedures. While we like to refer to the process industries as being largely "continuous", this could not be further from the truth. Process manufacturing is constantly in flux.
This document describes the operation and data flow of the Yokogawa Print Wave software using the DX-P Reporter. It will provide a detailed explanation of the Advanced Alarm Reporter functions. The functions described in this paper were first released in Print Wave version 5.5.
Discovering your Baseline with OT Security Risk Assessment
Honeywell and Yokogawa have both been producing Distributed Control System (DCS) platforms for decades, and both are very active in this area. In 1975, Honeywell introduced its TDC2000 platform and Yokogawa brought out CENTUM. These two competing systems emerged from a similar place, oil refining and petrochemical industries, so they started out with similar basic concepts and use cases in mind.
Assets and operations will have human-like learning and adaptive capabilities, allowing responses without operator interaction to situations within a secure, bounded domain.
- EU_UK Declaration of Conformity FU20 2022-11-14 (170 KB)
- EU_UK Declaration of conformity SC42 2022-11-14 (158 KB)
- EU_UK Declaration of conformity SX42 2022-11-14 (152 KB)
- EU_UK Declaration of Conformity SC29 2022-11-14 (146 KB)
- EU_UK Declaration of Conformity SM23 2022-11-14 (121 KB)
- EU_UK Declaration of Conformity PR10 2022-11-14 (140 KB)
- EU_UK Declaration of Conformity SC21 2022-11-14 (146 KB)
The Yokogawa business vision states that the company endeavors to achieve Net-zero emissions, ensure the Well-being of all, and make a transition to a Circular Economy by 2050.
YOKOGAWA will contribute to technology evolution particularly in measurement and analytical tools to help build a world where researchers will increasingly focus on insightful interpretation of data, and advancing Life Science to benefit humanity.
YOKOGAWA creates autonomous operations with high-efficiency automation and optimization that allows growth with minimal deployment of manpower.
Our approach is to leverage state-of-the-art technologies for real-time monitoring and predictive control that allow virtual environments where "digital twin" processes can provide distinct advantages.
- Highly reliable and scalable -
- For improved agility in implementing control system projects -
- Optimizes the supply chain and operations by enabling plant personnel to work more efficiently -
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