Process Engineering White Papers

on 'Energy Efficiency'

21-40 of 36 < first | | next | last >
  • 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.

    Gates
    09/23/2010
  • Chemical Processing Special Report: Compressed Air

    Chemical manufacturers today are looking at all aspects of their business to conserve energy and decrease costs. Compressed air is often over looked in these efforts as many people do not fully understand compressed air equipment, their own system, or what it costs to produce compressed air power. In this Special Report, we review compressed air and provide insights on how to understand equipment and identify potential areas for savings.

    Atlas Copco
    04/07/2010
  • 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.

    PdMA Corp.
    03/08/2010
  • How Automated Water Jetting Improves Tube Bundle Cleaning Efficiency

    Heat exchanger efficiency is a critical factor in processing productivity, and tube bundles must be kept clear of deposits to maintain that efficiency. Automated high-pressure water jetting systems, with flexible or rigid lances, remove deposits 75% to 90% faster than manual methods and are more operator-friendly.

    NLB Corp.
    12/14/2009
  • Special Report: Energy Efficiency

    Reducing energy consumption and your plant’s 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.

    Gates Corporation
    10/01/2008
  • Clean Compressed Air

    Good air preparation should consider the energy consumption of the system and air treatment equipment.

    Norgren
    11/27/2005
  • Energy Efficiency - The Other Alternative Fuel

    Proven methods for industry to reduce energy consumption and environmental impact are already at hand. These cost-effective solutions promise substantial return-on-investment now and in the future, without sacrificing performance or quality. For most companies and organizations, the answers to maintaining a competitive edge in this era of rising energy costs are readily available. By applying a suite of cost-effective power and automation solutions from technology leaders like ABB, these facilities can achieve substantial energy savings today without waiting for the "alternative fuels" of the future.

    ABB
    09/27/2005
  • Accurate Steam Mass Measurement

    Vortex meters are ideal for measuring saturated steam flow, and now can be used to measure mass flow with integrated temperature sensor and controller software. These meters can also be integrated into a Foundation Fieldbus industrial network system.

    10/15/2004
  • Understand Heat-Transfer-Fluid Maximum Temperature Rating

    Manufacturers of heat transfer fluids assign a maximum temperature rating to each fluid. This rating must be considered to ensure the safe and efficient operation of the fluid. This paper explains the basis of the rating, how fluids degrade, and how the temperature profile in a heat transfer system affects fluid performance and life.

    Therminol
    10/11/2004
  • Properly Clean Organic Heat Transfer Fluid Systems

    Maintaining peak performance of organic heat transfer fluids can require removal of dirt and pipe scale, oxidation, thermal degradation, and process contamination. This paper describes the appropriate cleaning techniques for dealing with solids; sludge, high-viscosity fluid and residues; process contamination; and hard coke.

    09/10/2004
21-40 of 36 < first | | next | last >