Industrial vessels of various types are used extensively in the processing of chemicals, petrochemicals, and pharmaceuticals. Applications commonly involve storage or process tanks, drums, blenders, reactors, kettles, mixers, fermenters or shipping containers. In addition, reusable totes and intermediate bulk containers (IBCs) provide for convenient and cost-effective storage and transport. The cleaning of this essential equipment, however, has long been a challenge.
In this Chemical Processing special report learn more about:
How modern impingement cleaning technologies improve safety and sustainability
How one chemical company profits from faster cleaning turnarounds and fully clean totes
Are you feeling challenged by the task of improving your heat exchanger efficiency? Do you have questions about fluids allocation and more efficient tube cleaning?
This report sponsored by NLB takes a look at how manufacturers are meeting these challenges. Download this special report for insights and strategies including:
- Pick the Right Side: Allocating fluids in a tubular exchanger demands care.
- Clean Tube Bundles Efficiently: High-pressure automated water jetting speeds cleaning and reduces downtime.
Are you feeling stressed about your steam systems? Feeling challenged by issues such as energy loss, hot surfaces, plant downtime and personal injury risks?
This Chemical Processing eHandbook takes a look at how to keep your cool when things get hot in your steam system management. Download this Chemical Processing eHandbook to discover insights and information on:
• Improving Insulation: Hot surfaces can lead to significant energy losses and pose personal injury risks.
• Don’t Get Steamed: Avoid plant downtime and potential injuries by addressing steam-generation chemistry issues.
• Changing Your Approach to Steam System Management: Improve plant productivity and reduce unplanned downtime with this three-step process.
From process engineers to plant managers, it is critical that everyone plays a role in implementing and adhering to energy efficient practices and exploring ways to improve energy efficiency. This special report takes an in-depth look at how organizations can increase profitability by educating and training their staff to understand the importance of energy. Topics covered include:
- Energy Saver- Educate Your Peers
- Train Your Operators on Energy Efficiency
- Train Your Project Manager on Energy Efficiency
- Train Your Plant Manager on Energy Efficiency
- Some training courses are worth the price
- Energy Saver: Do Your Own Stream Survey
- Direct Stream Injection Hot Water Systems for Jacketed Heating
- Innovation in Direct Stream Injection Heaters Since 1945
Being armed with the knowledge on how to best care for your equipment can produce a myriad of desirable results –improved reliability of that equipment, improved quality of your production and safety for your workforce to name a few. For chemical processors and all manufacturers the benefits for proactively caring for your equipment can translate in to gains in financial performance as a result of decreasing unexpected breakdowns, downtime and maintenance costs. In this Chemical Processing Special Report we take an in-depth look at how to successfully implement an operator care program focused on caring for your plant’s equipment. We also delve deeply into rotary impingement technology and the benefits it brings to manufacturers tasked with tank cleaning to ensure reliable, uncontaminated, quality batches during production.08/25/2015
According to a U.S. Department of Energy survey, steam accounts for one-third of all the energy used in process plants. Monitoring and optimizing the cost of your steam system can yield big rewards. Ignoring inefficient operation easily could drain profits.
Operating and maintaining a reliable steam system is vital to chemical processing plants and can have significant cost impact on a plant's annual budget. Typical profit drainers in operating and maintaining a steam system include excessive fuel cost, inefficient steam generation, less-than-optimal steam utlilization and poor condensate recovery. This Chemical Processing Steam eHandbook presents strategies for reducing cost associated with using and generating steam, a 4 step approach for improving efficiency and insight on heat exchanger selection criteria. Specifically:
- Control Steam System Energy Costs - Steam system losses can silently drain profits
- Optimize Your Steam System - A simple four-step approach can improve steam efficiency
- Head Off Exchanger Errors - Selecting the most-appropriate heads for a shell-and-tube unit is crucial
Learn how to generate savings through steam use and generation. Download your copy of this Chemical Processing Steam eHandbook now.06/29/2015
Thermogravimetric analyzers (TGAs) deliver valuable information about a material’s response to temperature. But while the information they deliver is critical, TGAs themselves tend to be bulky and difficult to use, and can cost tens of thousands of dollars. This paper explores how you can gather the same data as a TGA using an instrument which is considerably easier to use, more durable, and less expensive: the Computrac MAX 5000XL. The materials examined in this paper are certain flue gas desulfurization byproducts—gypsum, calcium sulfite hemihydrate, and calcium hydroxide—but the principles in question can apply to all manner of materials, from biofuels to pet food to landfill waste.
Download the white paper now.05/12/2015
For chemical processors industrial safety is a top concern. Industrial accidents can lead to lost production, injury and in some cases even death. This special report examines how organizations can reduce risk, prevent incidents and ensure safety and compliance in hazardous environments with improved processes. Topics covered include:
- How to Achieve Effective Process Safety Management (PSM) -- Senior managers play an important role in improving PSM. Their efforts should be visible and their leadership felt to ensure success.
- Getting To The Root Of Accidents -- Accident investigations usually focus on operator error or technical failures. However, applying systems thinking may provide greater insights on underlying causes and, in the long run, prevent more incidents.
- Optimizing Safety and Efficiency Through Modern Design-- This ignition protection method helps ensure accuracy, safety and compliance in hazardous environments
Optical Dissolved Oxygen Measurement in Power and Boiler Applications
Over the past decade a few trends have started to gain pace within the industry, driving a change in instrumentation requirements for operations managers and plant chemists:
- Maintenance and operations budget cuts have resulted in fewer plant personnel, forcing plant staff to optimize their workload even further
- As the cost of building new power and boiler systems increase, many operators now look to plant life extensions as a solution to bridge gaps in production capacity at a lower investment premium
These trends have changed the requirements in these applications. Starting from these trends, this article analyzes the options for oxygen measurements that are precise, reliable, stable, and above all require low to zero maintenance.04/27/2015
Process Safety Management (PSM), driven by the OSHA 1910.119 standard, aims to prevent the unwanted release of hazardous chemicals. This whitepaper presents an overview of PSM, explains the requirements of a Mechanical Integrity (MI) program, and illustrates how PSM and MI can be established within an asset management framework.04/21/2015
Eastman Chemicals, one of the world’s largest chemical companies, recently decided to strengthen their information security and reliability, as well as develop a path forward to lower software maintenance costs. This Case Study shows how Eastman achieved their goals by globally standardizing on Bentley's ProjectWise software in order to replace an aging, but critical, in-house records management system. The ProjectWise solution has enabled Eastman to significantly reduce their IT costs, and is helping them achieve greater security of their vital plant information while providing a modern data-centric environment to move beyond engineering records into asset performance improvement.04/14/2015
Reliability programs are now standard business practice in companies that rely heavily on machines, equipment and other physical assets. However, plants are continually challenged 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 eHandbook we take a look at proactive approaches for improving reliability and maintenance in today’s processing plant including:
- Rotating equipment - how to take advantage of improved internals and better seals
- Meeting process requirements and protecting equipment with strainers
- Insights from surface temperature measurements and the critical role IR thermography is to maintenance
Download your copy of this Chemical Processing Reliability eHandbook now.11/14/2014
Increasingly precise process control strategies, often linked to computer control, have accelerated the use of sophisticated on-line chemical composition analyzers in plant applications. Instruments such as gas and liquid chromatographs, ion chromatographs, laser optic instruments, atomic absorption instruments and specific ion analyzers, which were rarities in laboratories ten years ago, are now found routinely in plant settings.
While continuing miniaturization and “rugged-ization” of the electronics are making the instrumentation circuitry more tolerant of the plant environment, the level of contamination in plant samples compared to laboratory samples continues to plague the process. This white paper reviews the factors in plant operation that may affect the deliverability of acceptable samples and provides guidelines for addressing these factors.11/04/2014
In the decade before Stuxnet attacked process control systems in Iran, there were just five known supervisory control and data acquisition (SCADA) vulnerabilities for all control systems in the world, according to the U.S. Department of Homeland Security's Industrial Control Systems Cyber Emergency Response Team (ICS-CERT). In 2011, the year after Stuxnet, that vulnerability count jumped to more than 215. Last year, it reached 248. No surprise then that Chemical makers are increasingly focusing on protecting their process control systems from intrusion both from the inside and outside. In this Chemical Processing Special Report: Protect Process Control Systems, we take a look at:
- How to better protect your control system - "Defense in depth" is crucial, and new and maturing technologies may help
- Cyber Security Challenges - learn about countermeasures to protect control systems
- Case Study: A vulnerability assessment reveals critical gaps in the security of a natural gas pipeline
- How to mitigate security risks in legacy process control systems - several steps can help protect against threats and extend the life of legacy equipment
Learn how to secure your process control systems - and your plant. Download your copy of this Chemical Processing Special Report: Protect Process Control Systems now.10/29/2014
More than 25% of maintenance done today is unnecessary and can introduce additional failure risks. Developing and implementing predictive maintenance strategies and practices can lead to improved safety and reduced operating costs. In this Chemical Processing eHandbook, we take a look at strategies and solutions for overcoming predictive maintenance challenges including:
- Asset management software - identifying the most relevant and accurate data on which to build maintenance and repair strategies
- The importance of maintenance on smaller component - using gauges as early warning devices can improve uptime, safety and profits
- Uncovering important insights from your data and the use of statistics such as regression analysis for emulating pump curves or control valves
Download your copy of this Chemical Processing Predictive Maintenance eHandbook now.09/26/2014
During industrial manufacturing, many companies use a wide variety of chemicals from methanol, acetone and benzene to foodstuffs like wine and edible oils stored in large tanks at different points in the manufacturing process. In a technique called “chemical tank blanketing,” or “padding” nitrogen is commonly applied to protect chemicals stored in tanks against contamination, degradation or chemical change as well as to prevent fire or explosions. This white paper first discusses blanketing basics and benefits. It reviews considerations for tank blanketing systems and discusses a newer approach, which is typically more cost effective for most applications, is that of generating nitrogen on-demand in the plant itself.09/12/2014
Research Paper: Investigating the Relationship between Gypsum Purity and Hydrogen Sulfide Production under Anaerobic Conditions
Calcium Sulfate (CaSO4) more commonly known as gypsum is a naturally occurring white crystalline mineral that has many different uses and applications. Gypsum in its hydrated form (CaSO4•2H2O) is used in the construction industry for fire resistance in buildings. Outside of the construction industry, gypsum is used in the food and fertilizer industry for calcium and sulfate fortification respectively. When gypsum is no longer usable, it is deposited in construction and demolition(C&D) landfills where anaerobic (low oxygen) conditions and the presence of sulfate-reducing bacteria promote the decomposition of wallboard/gypsum into hydrogen sulfide gas (H2S). Due to local and state regulations on odor control, these C&D sites monitor their fill for hydrogen sulfide gas. This paper will couple two methods of analysis to observe the relationship between the purity of gypsum (calcium sulfate dihydrate) and hydrogen sulfide concentration as a sample is fermented by sulfate-reducing agents (e.g. bacteria). The scope of this research may be beneficial for industrial hygienists concerned with C&D landfill H2S levels or for incoming gypsum processing plants who suspect poor quality gypsum.09/12/2014
The debate over the virtues of DCS vs. PLC has been ongoing since these two architectures came into existence 40 years ago. For certain industries, a distributed control system (DCS) provides substantially more value as the basis for automating the plant than a programmable logic controller (PLC)-based system. As functionality differences narrow and price points align, the debate over these virtues is getting more intense and the arguments for and against each system are getting more and more murky. This white paper discusses the “Top Ten” issues to consider when evaluating a DCS vs. building your own “DIY” distributed control system using a PLC-based architecture.07/15/2014
Corrosion, leak detection and mitigation, flow pressure and volume are all factors that maintenance managers and other decision makers need to contend with as they manage flow at their chemical processing plants. In this Chemical Processing Flow eHandbook, we delve in to solutions and strategies for managing these challenges including:
- Leak management - treat them as calls for action against the underlying problem
- VFDs for centrifugal pumps - such drives may provide energy savings and avoid operating problems
- Dealing with corrosion - piping made of high-performance plastic provides unmatched performance and longevity
- Ceramic in electromagnetic flow meters - material used for measuring tubes offers high performance, longevity and a host of other benefits
Learn more about these best flow practices. Download your copy of this Chemical Processing Flow eHandbook now.04/16/2014
In the decade before Stuxnet attacked process control systems in Iran, there were just five known supervisory control and data acquisition (SCADA) vulnerabilities for all control systems in the world, according to the U.S. Department of Homeland Security’s Industrial Control Systems Cyber Emergency Response Team (ICS-CERT). In 2011, the year after Stuxnet, that vulnerability count jumped to more than 215. Last year, it reached 248 (Figure 1). No surprise then that Chemical makers are increasingly focusing on protecting their process control systems from intrusion both from the inside and outside. In this Chemical Processing Special Report: Secure plan(t), we take a look at:
How to better protect your control system - “Defense in depth” is crucial, and new and maturing technologies may help
Cyber Security Challenges – learn about countermeasures to protect control systems
Case Study: A vulnerability assessment reveals critical gaps in the security of a natural gas pipeline
How to mitigate security risks in legacy process control systems - several steps can help protect against threats and extend the life of legacy equipment
Learn how to secure your process control systems – and your plant. Download your copy of this Chemical Processing Special Report: Secure plan(t) now.12/17/2013