heat recovery technology Articles

  • Heat recovery from wastewater

    Heat recovery from gray water is particularly important in water-intensive industries such as pulp and paper plants, dairies and breweries. Rather than flushing used water down the drain, consider whether a heat exchanging system can help you put that energy to work in your process again. Most plant operators arc aware of the need to save money and reduce the environmental impact of their plant ...


    By DDI Heat Exchangers Inc.

  • LATEST TECHNOLOGY: Low NOx PAINT BOOTH & INDUSTRIAL OXIDIZERS with Heat Recovery

    SOIL-THERM’s patented Jet-THERM direct fire Thermal and Catalytic Oxidizer technology provides many benefits to our customers not found anywhere else:  (1) Lower NOx emissions, (2) Very energy efficient and lower fuel usage with or without H.E. Recuperator,  (3) VERY SMALL FOOTPRINT - -  usually 1/4th the size of others, and (4) SIMPLE and EASY operating and monitoring ...


    By Soil-Therm Equipment, Inc.

  • LATEST TECHNOLOGY: Small PAINT BOOTH OXIDIZERS with Heat Recovery

    SOIL-THERM’s patented Jet-THERM direct fire Thermal and Catalytic Oxidizer technology provides many benefits to our customers not found anywhere else:  (1) Lower NOx emissions, (2) Very energy efficient and lower fuel usage with or without H.E. Recuperator,  (3) VERY SMALL FOOTPRINT - -  usually 1/4th the size of others, and (4) SIMPLE and EASY operating and monitoring ...


    By Soil-Therm Equipment, Inc.

  • Heat Recovery for Reuse in Proofing Ovens: Buttercup Bakeries

     By collaborating with a major tertiary research institution, RMIT University, Buttercup Bakeries has been able to apply new heat recovery technology suitable for bakery and other industrial applications. The initiative has resulted not only in cost and energy savings but more efficient oven heating boiler operations. Background Buttercup Bakeries is part of the ...


  • LATEST TECHNOLOGY: Low Fuel Cost PAINT BOOTH & INDUSTRIAL OXIDIZERS with Heat Recovery

    SOIL-THERM’s patented Jet-THERM direct fire Thermal and Catalytic Oxidizer technology provides many benefits to our customers not found anywhere else:  (1) Lower NOx emissions, (2) Very energy efficient and lower fuel usage with or without H.E. Recuperator,  (3) VERY SMALL FOOTPRINT - -  usually 1/4th the size of others, and (4) SIMPLE and EASY operating and monitoring ...


    By Soil-Therm Equipment, Inc.

  • Study of available exhaust gas heat recovery technologies for HD diesel engine applications

    Diesel engines reject a considerable amount of energy to the ambience through the exhaust gas. Significant reduction of engine brake-specific fuel consumption (bsfc) could be attained by recovering a significant part of exhaust gas heat. Various techniques have been proposed in the past to recover exhaust energy: mechanical, electrical turbocompounding and Rankine Bottoming Cycles. In the present ...


    By Inderscience Publishers

  • Application of Membrane Technology for the Recovery and Reuse of Water

    Abstract As water and sewer costs are expected to increase over the next decade, membrane technology will continue to be a viable and economical option in the recovery and reuse of water. This paper describes the mechanism of membrane effected separation (specifically reverse osmosis, ultrafiltration and microfiltration), membranes commercially available, membrane element configurations, and how ...


  • Heat recovery and energy efficiency, improves profitability and reduces CO footprint

    Using latest technology in combustion of oil and gas can provide significant savings in overall energy consumption. Modern oxygen control that compensates changes in ambient temperature and fuel qualities can increase energy efficiency up to 3%. By adding the usage of hot combustion air another 2-3% can be saved. Modern burner technology without mechanical linkage, operating with accurate ...


    By Oilon Oy

  • Maximum possible efficiency for energy recovery from low-grade heat sources

    Gas-to-gas heat exchangers are increasingly being used to recover low-grade heat (or cooling) to reduce energy requirements for space heating, drying and other applications. The efficiency of heat recovery is often limited by practical considerations which could – in principle – be reduced or eliminated by development of new materials and technology. However, this paper posits a fundamental ...


    By Inderscience Publishers

  • Technology for heavy oil and bitumen recovery with low water cut

    The core of the technology resides in the reduction of oil viscosity and the respective production rate increase under the condition of oil layer heating. It is known, for example, that the heating of the layer with heavy oil up to 100°C theoretically leads to a 15 to 20 times production rate increase. The technology works on the principle of controlled automated continuous pumping of highly ...


    By Inderscience Publishers

  • Assessing Feasibility of Direct Drive Technology for Energy Recovery from Digester Biogas

    ABSTRACTThe Regional Municipality of Waterloo completed a study, with support from Environment Canada, to evaluate the feasibility of using direct drive technology to recover energy from digester biogas. The study identified that a 150 HP engine, operating at 54 % load, could be supported by the estimated gas production of 1560 m3/d with 63 % methane by volume. ...

  • Chemical recovery - Recycle Fluid Technologies, Inc. - case study

    Application Recycle Fluid Technologies, Inc., of Richland Michigan recovers ethylene glycol of higher purity and greater volumetric yield. The recovered product must meet stringent General Motors and ASTM Standards. Waste Description The used ethylene glycol contains inhibitor salts, ash, dissolved metals, organic acids, motor oils and other variable ...


  • Power Positive Resource Recovery

    Using laws of thermodynamic analysis to evaluate the energy and power characteristics of wastewater and beneficial uses of biogas offers greater insight into best business practices and what is achievable. Growing numbers of waste-water treatment plants (WWTP) are striving to produce more power onsite. In recent years, there’s even been a race among WWTP operators to see who can ...


    By BioCycle Magazine

  • Energy conservation in aluminium foundries by waste heat recovery from solidifying molten metal

    This paper presents a unique attempt to preheat the raw materials by recovering the waste heat from solidifying molten metal in shape castings of aluminium using sand moulds. Finite element analysis of the problem using ANSYS has also been done, results of which show satisfactory agreement with the experimental results. By using this preheating method, it is proved that around 16% of heat ...


    By Inderscience Publishers

  • First State-funded cleanup using electrical resistivity heating technology

    The Remediation and Redevelopment Division (RRD) completed remediation at a former dry cleaning facility in the city of Owosso using electrical resistivity heating (ERH) technology. Electrical resistivity heating is an in­situ electrical heating technology that uses electricity and applies it into the ground through electrodes. The resistance of the electricity traveling through the ground ...


    By TRS Group, Inc.

  • Case study - Maximizing heat recovery from your oxidizer and reducing operating costs

    More and more, companies operating air pollution control equipment today realize that the initial capital cost of an oxidizer system can be rapidly eclipsed by continued operating expenses if careful attention is not periodically given to the system. Below are ten tips to ensure your oxidizer is operating at peak performance. The first five tips focus on parameters end-users should know about ...

  • Heat From Wastewater

    When it comes to using wastewater heat from channels, provision and evaluation of hydraulic and thermal wastewater data is urgently needed prior to planning and implementation of facilities. Knowing the wastewater temperatures as well as the flow rates - particularly as dry weather discharge – is an indispensable component. It is therefore essential to carry out preliminary measurements ...


    By NIVUS GmbH

  • Cryogenic Treatment Unit (TU-51) Technology for Recovery of VOCs from Highly Contaminated Environment

    A Cryogenic Treatment Unit or TU-51 Technology was developed to apply a cryogenic air treatment process to recover persistent vapor phase volatile organic compounds (VPVOCs) having extremely low boiling points.  These would include explosive compounds present in the vapor ...


    By IWA Publishing

  • Basin Electric - wind and waste heat

    Location: Waste Heat Recovery projects in Culbertson, MT and Garvin, MN – Wind Projects Located in South Dakota and North Dakota Project Start Dates: 2009 – 2011 Element Markets is helping Chevrolet meet its CO2 reduction goal, and simultaneously helping a large Midwest power cooperative earn revenues needed to support its clean energy projects. This ...


    By Element Markets LLC

  • Combined Heat and Power (CHP) essentials

    'CHP essentials' introduces the concept of power and heat 'production possibility sets', starting at the cradle of CHP, i.e., the thermal power generation plant. The latter always occasions 'fatal' heat that is either recovered (the 'merit' of CHP) or wasted (condensing). This split paves the way to defining the production possibility sets of CHP plants, shown for steam turbines, internal ...


    By Inderscience Publishers

Need help finding the right suppliers? Try XPRT Sourcing. Let the XPRTs do the work for you