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 utlization and poor condensate recovery. Ensuring adequate supply of steam often results in excessive capacity usage, expensive fuel choices or condensate draining to grade, leading to compromised efficiency levels and higher steam cost. Because steam systems dependency is unavoidalbe, addressing those three issues is crucial to minimizing steam costs. This Chemical Processing Steam eHandbook presents an overview, steam technologies and strategies for reducing cost associated with using and generating steam including:
Controlling steam system energy costs
Real-time monitoring - how wireless devices help cut energy losses by detecting failed steam traps
Learn how to generate savings through steam use and generation. Download your copy of this Chemical Processing Steam eHandbook now.
Energy consumption remains one of the largest controllable costs in oil refineries. Heat exchanger fouling can have a significant impact on energy efficiency and production loss. Asphaltene Precipitation is caused when refiners blend incompatible crudes. This is a major source of fouling and leads to performance limitations within days. Heat exchanger fouling is a major challenge for refinery operations. With the increase in crude blending from opportunity crudes such as tight oil, the traditional “manual” monitoring approach may no longer be effective. This White Paper discusses how on-line monitoring and analysis can enable refineries to:
Better Understand Accelerated Fouling Due to Crude Incompatibilities
Learn How to Use Online Monitoring to Detect Fouling
Identify Which Tube Bundles Require Cleaning
Chemical Processing Special Report: How to Succeed with VFDs
Medium voltage variable frequency drives (VFDs) are often the best choice to capitalize on opportunities to significantly reduce the operating and maintenance costs associated with relatively large rotating equipment. Even a seemingly modest energy savings of a few percent of the operating load can translate into significant energy savings. In this special report we take a look at how to make the most of VFDs: how optimum performance depends upon proper installation and control; how controlling the speed of VFDs can help eliminate waste and promote efficiency, reliability and quality and; considerations for changing drive speed over pumps. Download now.
Chemical facilities are under mounting pressure to process ever larger quantities of wastewater to increasingly higher standards while staying within a variety of cost constraints. Plant operators face the dilemma of how to maintain treatment throughput at reasonable cost even when the plant reaches design capacity. Potential changes to production mixes can compound the challenge. Fortunately, adopting the latest wastewater-treatment technology can inject new life into a plant, extending useful asset life without heavy upfront capital investment. In this Chemical Processing Wastewater eHandbook we take a look at how to boost wastewater improvement efforts including:
An exploration of an innovative system that enables wastewater capacity expansion
Why chemical makers are increasingly focusing on water-related risks and opportunities
Download your copy of this Chemical Processing Wastewater eHandbook now.
eHandbook: Target Energy Efficiency
Rising fuel costs have a direct impact on a chemical processors’ bottom line. How can chemical processors reduce their energy consumption thus reducing their cost to produce? It’s believed that the chemical industry potentially can vastly decrease energy use AND greenhouse gas (GHG) emissions with the help of game-changing technology and strong support from policymakers. In this Chemical Processing Energy eHandbook, we take a look at global, and more local, technologies and strategies for improving energy efficiency at chemical plants including:
A roadmap that aims to catalyze better energy efficiency – learn about a international initiative that foresees catalytic processes playing a key role in cutting consumption and emissions
Saving energy by optimizing boiler loads
How the right emission control system can help meet compliance and reduce energy costs
Steam injection heating systems
Learn how improve your plants energy efficiency. Download your copy of this Chemical Processing Energy eHandbook now.
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 makers increasingly are focusing on water-related issues. In particular, concern over availability is spurring leading operating companies to implement a host of novel strategies and technologies to optimize water use. Chemical makers are implementing strategies and solutions to scale back on their overall usage of water, reuse water and put clean water back in to circulation. In this ChemicalProcessing Water Optimization eHandbook we take a look at how chemical companies are dealing with water challenges
Download your copy of this Chemical Processing Water Optimization eHandbook now.
CP eHandbook: Use Energy Effectively
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.
Heating Water by Direct Steam Injection
Direct steam injection provides a solution where large volumes of hot water at precise temperatures are required, and saving space and energy are factors in the system design.
Productivity Improvement with Wireless Steam
When steam traps leak or fail, energy is lost and there could also be steam equipment failure or damage and potential safety hazards. A major food manufacturer improved their steam trap program and enhanced their ongoing leak repair campaign with remote steam trap monitoring using Smart Wireless Solutions from Emerson.
Reducing Water Consumption in Compressed Air Systems
Compressed air systems are sometimes called the "4th Utility" due to their presence in almost all industrial processes and facilities. As US water consumption continues to increase, compressed air systems provide an opportunity for energy managers to reduce associated cooling water consumption and costs. In this white paper, we focus on the opportunity to reduce the water consumption of compressed air systems. Understanding the costs and the alternative types of cooling systems is an important first step. This white paper provides background on US water consumption in both the public and industrial sectors; it provides detail on industrial water consumption -- including industrial cooling water -- and its associated costs; it also details six different types of cooling systems available.
Training Your Staff About Energy Efficiency -- A Chemical Processing Special Report
Certainly over the last few years, how plants consume energy has made an impact on that plant's efficiency and profitability. But is everyone at your plant doing their part? From Process Engineers to Plant Managers, everyone can have a role in implementing and adhering to energy efficient practices and exploring ways to improve energy efficiency. Chemical Processing has taken an in-depth look at just how this can been accomplished and compiled a comprehensive Special Report titled: Training Plant Staff About Energy Efficiency. Now available for download, this informative Special Report covers such topics as training operators, available energy tools, assessing equipment and more.
Energy Savings From Synchronous Belt Drives
Approximately one-third of the electric motors in the industrial and commercial sectors use belt drives. If the efficiency of these systems were improved by just 5%, plants would see tremendous energy savings. Such savings are not out of reach. Synchronous belt drives operate so efficiently that they enable savings across many industrial applications.
The Green Solution
The ever present emphasis on technological efficiency is just one of several forces behind the pressure on companies to "go green" despite a trying economy. The ultimate criterion that determines whether a motor is truly green is energy efficiency. Technology, long the key to efficiency, can help resolve this issue.
Unwelcome oxygen Tank blanketing is the process of filling the headspace in storage vessels and reactors with an inert gas to prevent its contents from exploding, degrading or polymerizing and to protect equipment from corrosion. A blanketing system is normally designed such that it operates under higher than atmospheric pressures, therefore preventing outside air from entering the vessel. As oxygen and moisture in the air can be undesired in numerous processes and applications, blanketing is done in a wide range of industries, varying from (petro)chemical to food and beverage, pharmaceutical to pure water.
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.
Durr Systems Inc.
Special Report: Energy Efficiency
Reducing energy consumption and your plants environmental impact is a hot topic. In this Special Report we take a look at the organizational obstacles to avoid, how to enroll your employees in the quest, and the steps you need to take in order to manage your energy costs.
We also delve in to practical energy efficient applications such as recovering exhaust heat in air conditioned facilities and the use of carbon synchronous belts.
Improving Plant Production with Wireless Condition Monitoring
Mechanical failure of motors, drives and other vital electromechanical equipment are among the most common reasons for production stoppages. Fortunately, recent advancements in vibration monitoring and data analysis have lead to condition monitoring systems that can accurately detect a problem before failure, thus reducing costly machine shutdowns and maximizing production output. These systems are installed on the monitored equipment and are typically networked back to a central computer for data analysis and alarm annunciation. Because the machines may be in remote locations where network infrastructure is not available, or on moving platforms where hardwired network connectivity is not practical, wireless communications is a networking alternative that offer installation cost savings, quicker deployment and even improved reliability in certain situations.
Jim Ralston, Wireless Sales Engineer, ProSoft Tech...
Environmental Health and Safety Compliance in Biotech Companies: Common Deficiencies Encountered During Audits
Environmental health and safety (EH&S) compliance programs for companies that house laboratories are complex and not easily maintained. Even the most basic plan involves keeping a variety of permits up-to-date, performing regular employee training, conducting inspections, complying with a myriad of chemical storage and handling requirements, and keeping a number of contingency plans current and complete. This white paper identifies the most common pitfalls and four simple steps to keeping your EH&S program current.