As the security threat landscape continues to evolve, so must your response. With increasing numbers of attempted intrusions, cautionary tales of security breaches and the potential for resulting damages at your site, application whitelisting can be an important addition to your security arsenal.
Precise process control strategies have accelerated the use of on-line chemical composition analyzers in plant applications. Contaminants in plant samples are the most frequent cause of problems with on-line analyzers. Trace contaminants can rapidly build up and cause instrument failure.
Chemical, petrochemical, and oil-reﬁning plants are process-intensive operations with regulatory requirements to protect the surrounding water and air from the effects of industrial pollution. This paper reviews activated carbon adsorption, the reactivation process, liquid phase and vapor phase adsorption design guidelines, and typical applications of the technology in industrial/environmental treatment.
The purpose of installing a flowmeter system is to accurately measure flow in a reliable manner. Issues related to physical properties, process parameters, electronic features, interconnections can all affect the flowmeter performance. This Chemical Processing eHandbook takes a look at technologies and solutions affecting flow as well as the impact of specific regulations on flowmeter systems including:
Specifying the right slurry seal – understanding dual-seal and water-management options
Ground EMFs with Virtual Reference - New grounding method eases electromagnetic flowmeter installation and minimizes costs
Determine Boiler Size Using a Flowmeter - An inline vortex meter reveals the proper steam usage, resulting in significant savings and improved energy efficiency.
The purpose of installing a flowmeter system is to accurately measure flow in a reliable manner. Issues related to physical properties, process parameters, electronic features and interconnections are often given much consideration. Relatively little emphasis, however, is given as to how well the flowmeter will perform its intended purpose. Adding to the confusion are the differences in how performance is expressed and the incomplete nature of the available information. Nevertheless, the quality of flow measurement should be a concern. This Chemical Processing eHandbook takes a look at technologies and solutions affecting flow including:
* Coriolis meters - steps you can take optimize performance when faced with entrained gas
* Magmeters -- why you should consider using them
* How to achieve effective flow control with centrifugal pumps
One of the trickiest materials to process, solids are comprised of powders or particulates, a continuous gaseous phase (usually air) and, almost always, a liquid component. Processors that handle solids know only too well the types of throughput problems that come up on a recurring basis. Clumping; effective, economical and safe slurry mixing; dust management and dust explosion risk mitigation are all very real challenges faced by processors of solids. In this Chemical Processing Powder eHandbook, we take a look at how to effectively handle solids including:
Clumping – the 10 most common sources of agglomeration in bulk solids and how to effectively manage them
Strategies for optimal slurry mixing
Level management detection in storage vessels
Dust explosion risks – how to identify and mitigate when processing solids
Managing solid cohesiveness with flow strategies
Download your copy of this Chemical Processing Powder eHandbook now.
The technology advances in control systems and open systems have afforded us improved efficiency, productivity and the ability to advance our operations. However, these improved technology advances have also come with risks that threaten these efficiencies. Viruses; an increased dependency on uptime, availability and reliability; operator errors and increased regulations are just some of the threats today's manufacturers need to contend with when managing their operations. In this Putman Media Special Report, we take a look at the cyber security issues today's manufacturers need to contend with; identify control systems vulnerabilities and offer a three-step approach for building better cyber security at your operations.
"Migration could be the biggest single issue facing automation end-users today," stresses a report from the ARC Advisory Group. ARC estimates that installed automation systems worth about $65 billion are reaching the end of their useful lives. Distributed control systems (DCSs) more than 20 years old will need replacement within the next ten years. In this Chemical Processing Special Report: Migration we cover:
Updating process control systems – understanding the challenges and missteps to avoid
Case Study: FMC Corporation – we look at the production processes, operational challenges and automated solutions this diversified global chemical company chose when migrating their DCS
Case Study: PRALCA – control systems migration for a petrochemicals facility
The business case for control systems migration - strategies for protecting investments, improving business results and reducing risks
For the latest strategies on how to set an effective reliability program, download this Special Report: Cost-Justify Your Reliability Initiatives.
In this report youll find:
Predictive tools and technologies for enhanced equipment reliability
The four things a plant manager can do that maximize reliability
Critical equipment for an effective maintenance program
For chemical processors, the use of water in their processing can correlate to significant costs. Cost, coupled with an increasing focus on the environmental impact of both water usage and wastewater creation, are challenging processors to take a closer look at both their consumption of water and production of wastewater. Wide-ranging water optimization efforts, from fixing pipe leaks to minimizing cooling tower blowdown, are providing significant savings to chemical makers, but there’s more. In this ChemicalProcessing Water/Wastewate eHandbook we take a look at how to deal with water challenges including:
• Reducing water consumption and increase recycling – including examples of achievement and strategies from BASF, Air Products, Eli Lilly & Co, and Pfizer • RO Membranes: proactive steps can maximize life and performance for water purification • More!
Reliability programs are now standard business practice in companies that rely heavily on machines, equipment and other physical assets. But, in today’s lean economy, companies have fewer resources than ever to manage and maintain these assets. Plants face challenges in identifying new and cost-effective ways to ensure their assets are performing and that they are managing to minimize operational risks. In this Chemical Processing Reliability/Asset Management eHandbook we take a look at proactive approaches for improving reliability and maintenance in today’s processing plant including:
• Equipment rotation: identify damaged and worn components before they cause problems • Backflush strategies: flow reversal can remove fiber buildup in heat exchangers • Advanced Reliability Management: key steps for leveraging limited resources and critical assets • Predictive Maintenance: detailed analysis of maintenance records can further improve equipment reliability • More!
Effective energy management can help achieve more efficient use of energy without reducing production levels, product quality or employee morale, and without compromising safety and environmental standards. It should not only address higher efficiency generation, energy conversion, distribution and utilization, but also explore lower-cost energy alternatives. Simply put, energy management is optimizing the energy cost per unit of product output. In this Chemical Processing Energy Efficiency eHandbook, we take a look at how to achieve effective energy management including:
• Energy management programs – the roles and responsibilities needed to create an effective energy management program
• Internal and external resources needed for an effective energy management program including what to expect from top management
• Energy management basics – the five key activities to help reduce energy use
• Compression dryers – a review of three alternatives: heat, desiccant and refrigerant. Understanding whether the purchase “cost” outweighs the “value” in terms of energy consumption and production levels.
As many chemical processors know, processing powders can be tricky. Powder properties can be affected if the materials are stored for long periods. Powders can be compressed, vibrated, aerated and exposed to moisture. And specific processes like granulation, blending, drying, milling, lubricating and compression put requirements on how powders can be handled. In this Chemical Processing Powder eHandbook, we take a look at how to effectively process powder including:
Compression dryers – the case for choosing a solution that produces optimal air quality and low energy consumption
GHS – understanding the requirements and what it means to chemicals processors
Predicting powder flow behavior
Vibratory screen cleaning methods
Fine powder flushing - eliminating a common bin-afflicting problem caused by trapped air
Tubular Drag Conveying Technology – an alternative to pneumatic conveying
One of the trickiest materials to process, solids are comprised of powders or particulates, a continuous gaseous phase (usually air) and, almost always, a liquid component. Processors that handle solids know only too well the types of throughput problems that come up on a recurring basis. Effective, economical and safe slurry management; flowability during processing, accurate inventory and volume level management are all very real challenges faced by processors of solids. In this Chemical Processing Powder eHandbook, we take a look at how to effectively handle solids including:
Properly accounting for how bulk solids actually will flow in a vessel or overall process -- we take a look at some simple parameters that can often provide a good sense of flowability
Strategies for avoiding slurry trouble
Mitigating pipe segment force imbalances with Reactor Excursion and Leakage Analysis Program
Acoustics-based level measurement for accurate powder measurement in bins, tanks and silos
Explosion protection methods including suppression, isolation and venting
The U.S. Occupational Safety and Health Administration’s Process Safety Management (PSM) Standard [29 CFR 1910.119(j)] require plant management to identify and address hazards. Further challenging plant management, the mechanical integrity (MI) element of the PSM has been difficult for many facilities to implement. In fact, PSM audits by OSHA have consistently demonstrated that MI accounts for a large number of citations at most facilities. In this Chemical Processing Special Report, we take a look at how to effectively implement strategies to comply with PSM standards including:
Common piping, hoses and valves hazards – what PHA (Process Handling Analysis) teams should look for to improve the quality of the hazard evaluation
MI element of PSM – an in-depth look at the stated MI requirements, the perceived interpretation of these requirements and further considerations for identifying your plant’s compliance strategy
MI implications – the impact MI has on plant’s written procedures, training, inspection & testing, and how equipment deficiencies and quality assurance programs are managed
As companies and industries increasingly rely on technology, security risks become greater. With growing numbers of Windows machines and increased scarcity of skilled technical resources, a “perfect storm” of cyber threats in production facilities is looming.
The dangers posed by combustible dusts are no longer being swept under the rug. Tougher regulations and greater corporate resolve are making dust hazard management an increasingly important topic for every manufacturing sector including the chemical, food and pharmaceutical industries.
This Special Report, brought to you by Chemical Processing details the dangers posed by combustible dusts and includes:
the latest thinking on both hazard identification and mitigation; it identifies how to mitigate dust hazards in oral solid dosage facilities; it takes an in-depth look at regulations and the thinking behind suppression technologies as a result of past activity; more!
Hazardous locations have or could potentially have high concentrations of flammable gases, vapors, combustible dusts, etc. A small spark can lead to a horrific explosion dangerous to equipment and workers in the area. Equipment located in hazardous areas must be specifically designed to prevent ignition and explosion.