Control System Security: Interacting with IT
Operations staff and plant engineers also have a keen interest in the security of control networks. They are responsible for the reliability, availability, safety and integrity of the process. Their facilities are the ones producing products and earning revenues, so their concerns, priorities and knowledge must also be considered when determining security options.
Continuous Valve Monitoring for Product Loss Prevention, Emission Reduction and ROI
One of the challenges that companies have faced in implementation of continuous monitoring systems is the lack of infrastructure for sensing and data collection. The devices to be monitored are widely dispersed throughout plants with large areas, have no existing power or signal transmitting wire infrastructure, so the capital costs associated with the power and communication services have historically prohibited continuous monitoring. This white paper will unearth best practices to prevent product loss, reduce emissions and ensure ROI.
Continuous PHA Revalidation
A process hazard analysis must be revalidated every five years. This paper discusses the merits of a new approach aimed at increasing the effectiveness of PHAs, called Continuous PHA revalidation.
There are a host of enterprise resource planning (ERP) and supply chain management applications available to chemical manufacturersthe challenge is selecting the right one that offers a baseline product with industry-specific functionality. Many ERP applications available today are not industry-specific enough for chemical manufacturers and require major modifications, or, one must select from an industry template that may or may not fit specific needs.
There is also the chance that the software provider may not exist in two to three years (e.g., it may be acquired and the products future may become unknown), or the provider may not be financially secure, adding long-term risk.
Closed System Technology Drives the Trend Toward Safer, More Cost-Efficient Chemical Dispensing
In dozens of industries and in millions of applications around the world, dangerous chemicals are transferred from their original shipping containers into smaller jugs or buckets or applied to other end-use processes. Historically, the predominant dispensing method in many of these applications has been through an open system where the liquid is poured out of the container. With a poured system, the container is often flipped on its side and the liquid is poured into a secondary container.
The user then just carries the bucket to wherever it needs to go. A mental image of this technique quickly reveals its potential dangers and inefficiencies.
Colder Products Company
Clean-in-place operation for thin-cake filtration technologies
This article discusses the choice of thin-cake (2 25 mm) separation technologies and their benefits to optimizing the effectiveness of the production process. The paper continues with a
discussion of clean-in-place operations to meet current Good Manufacturing Practices (cGMP) guidelines including riboflavin test and validations.
Clean Compressed Air
Good air preparation should consider the energy consumption of the system and air treatment equipment.
Choosing the Right Emissions Control Option
Determining the most economical option to control airborne emissions during chemical process operations presents several unique challenges. As with any add-on control system, the goal is to minimize the annualized total costs while maintaining proper operation. In this white paper, learn the different options that are available and which ones fit your process the best.
Increasingly stringent clean air standards and heightened concerns over greenhouse gas emissions are driving technology enhancements in the chemical processing industry. This white paper explains some of the abatement challenges this industry faces and demonstrates how many chemical processors are integrating newer, more efficient emission control technologies for the destruction of Volatile Organic Compounds (VOCs) and Hazardous Air Pollutants (HAPs).
The paper also includes a case study, demonstrating how one Pure Terephthalic Acid (PTA) plant saved nearly one million dollars by upgrading to a newer thermal oxidizer technology.
Spikes in energy costs or unplanned-for capital improvement expenses can put organizations in tricky financial situations. To solve them, they often select the option with the lowest upfront cost which leads to the “pay me now or pay me later” dilemma. Over time it’s discovered that these lower-priced alternatives cost much more due to higher failure rates, wasted energy and more intensive maintenance. This Chemical Processing Steam eHandbook presents steam technologies and strategies for reducing cost associated with using and generating steam including:
How a Texas-based plant pared steam consumption - Thinking differently about energy management lead to substantial savings
Steam trap selection - A life cycle analysis approach can help reduce maintenance and prolong steam trap life
Reduce consumption with a simple formula to determine the proper steam demand for DSI heaters
Learn how to generate savings through steam use and generation. Download your copy of this Chemical Processing Steam eHandbook now.
Chemical Processing’s Process Safety eHandbook: Tips for Safer Processing
Major accidents with multiple fatalities continue to occur worldwide in theprocess industries, causing distress to those involved and massive costs to companies. Almost daily, facilities in the process industries face a number of specific major accident hazard scenarios depending upon the nature of the substances they handle and their processing activities. These are caused by known initiating events such as failure of hardware or control systems, or errors by operating or maintenance staff. In this Chemical Processing Process Safety eHandbook, we provide tips for safer processing including:
>> The role of senior management including six important steps senior management should take to insure safer processing
>> Process safety documentation – strategies for ensuring that your documentation is up-to-date and readily accessible
Chemical Processing’s Powder eHandbook: Tips for Successful Powder Processing
Powders and the dust they create have a tendency to create a myriad of material handling headaches. For example, dust can wreak havoc on the performance and accuracy of many level sensors, rendering them inaccurate and unreliable. Powder particles under the influence of gravity can become compacted resulting in inter-particle friction that may prevent flow movement. In this Chemical Processing Powder eHandbook, we offer a few tips for optimizing powder processing.
Chemical Processing’s Powder eHandbook: Process Powders with Ease
Processing powders can be tricky. During processing, powder properties can be affected by many different factors including if the materials are stored for long periods, if the materials are exposed to moisture, and by fluctuations in the mechanical processes that handle powders. In this Chemical Processing Powder eHandbook, we take a look at technologies and strategies for handling powders including:
Options for large drivers – with a focus on variable-speed electric motors
Innovative level measurement technologies
How shear cell instruments and relative humidity tests can determine a powders flow behavior
Indoor flameless venting – how modern technology can help eliminate the risk of damage and reduce maintenance costs
Learn how to process powders with ease. Download your copy of this Chemical Processing Powder eHandbook now.
Chemical Processing’s Powder eHandbook: Optimize Powder Processing
Some chemical makers are missing opportunities to reduce operating costs and increase profits because they aren’t striving to re-engineer and streamline their processes. A plant often can achieve substantial benefits through simplified steps that do more and work better with less complexity. In this Chemical Processing Powder eHandbook, we take a look at strategies and solutions for optimizing powder processing including:
• Streamlining the chemical processing process – enhancing operations by removing complexities that creep in over time
• Suppression systems – How a properly designed and engineered suppression system offers many advantages including explosion aversion
• Mitigating the impact of uncertainty - how the correct weighing system and a proper maintenance schedule can ensure accuracy
Learn strategies for optimizing your powder processing. Download your copy of this Chemical Processing Powder eHandbook now.
Powders developed to meet certain product performance targets often suffer from inconsistent and unpredictable flow. The reasons for this are many. A material's characteristics - adhesiveness, cohesiveness, aeratability, pressure-sensitivity - often change during processing and can cause flow problems to crop up. Couple this with changes in the processes themselves and costly downtime can be the result. In this Chemical Processing Powder eHandbook, we take a look at strategies and solutions for overcoming powder processing challenges including:
Making the most of flow additives - understand their impact on overall powder behavior to optimize flow
Improving performance of gravimetric feeders - tips to avoid poor accuracy and frequent downtime
Protecting against combustible dust explosion - economical approaches for protecting spray dryer processes and solutions
Make the most of your powder processes. Download your copy of this Chemical Processing Powder eHandbook now.
Chemical Processing’s Level eHandbook: Best Practices for Level Management
Level measurement, which is the detection of the phase split between vapor/liquid, liquid/liquid, vapor/solid and even liquid/solid, is a key parameter in the operation and control of modern industrial processes. A reliable outcome depends on the phase conditions being relatively consistent under all process conditions. Unfortunately, the importance of level control isn’t always understood. Failure to measure level reliably has resulted in some of the most serious industrial accidents, including those at the Buncefield, U.K., fuel storage depot and BP’s Texas City refinery. In this Chemical Processing Level Management eHandbook, we discuss best practices for level management including:
How to Select the Right Liquid Level Sensor - It’s important to consider a variety of factors when choosing the type of technology
Properly Measure Liquid/Liquid Interfaces - Follow a simple rule for location of level gauge nozzles
Improve Reactor Vessel Measurement - Non-contact radar level meter speeds production and boosts worker safety
Download your copy of this Chemical Processing Process Level Management eHandbook now.