Rising fuel and electric costs, along with global warming concerns have changed the way industrial facilities view energy consumption. Process equipment and air pollution control systems that were installed several years ago may not reflect the energy conscious designs available today, analyzing these systems to determine energy reduction opportunities can be a very valuable practice. Recovering waste heat is one of the easiest and most utilized means of reducing energy demands at industrial facilities.
Dürr MEGTEC’s industry-leading experience in air handling, drying, heating, cooling, process and combustion control can help improve the operating efficiency of your facility and maximize the performance of your equipment. By analyzing current process energy usage, we can offer solutions to reduce your energy consumption.
Reduction of perating costs: The increased energy costs over the last years have made investments towards heat recovery solutions not only cost effective but profitable. With the support and input of our employees and our technical know how, are improvements and solutions concerning heat recovery become feasible.
Collect valuable biogas from anaerobic digestion systems with a GTI gas collection cover. In waste-to-energy projects, the collected biogas can be used as a renewable fuel to generate process heat or electricity, helping to offset energy costs.
Optical instruments called fluorometers can very easily detect and measure dissolved petroleum hydrocarbons in water, and at very low concentrations. As shown in the study below, TD-4100 series monitors are able to measure xylene continuously over four consecutive weeks with a direct correlation coefficient of 0.9967 compared to GC grab sample analysis.
Processes that create a synthetic gas (syn gas) in a gasification process for waste reduction, electricity generation, or steam production (CHP – combined heat and power processes) – commonly benefit from custom heat recovery systems.
Numerous technologies and products were evaluated for this application. A monitor with no moving parts, no significant effect from turbidity, and the ability to detect the lube oil at less than 1 ppm was determined to be the best solution. Fast, reliable, and accurate detection of lubricating oil in the water was needed.
Thermal Energy’s GEM steam traps and FLU-ACE heat recovery technologies have wide applications in the food and beverage industry. From breweries and bottling operations, to food processing, packaging, and other food and beverage operations, we can help you reduce your energy costs while lowering your greenhouse gas emissions.
Steam enhanced oil recovery burns fossil fuel to generate steam to inject in production wells to boost oil output. CSP can be used to generate steam for this use. Hyperlight uses the lowest cost materials, manufacturing method, and installation technique of any CSP technology yet deployed for industrial process heat and can be deployed at the smaller scale needed for commercial and industrial customers.
Turboden ORC can produce electricity by recovering heat from industrial processes, reciprocating engines and gas turbines. The power of Turboden units generally ranges between 200 kW and 15 MW electric.
Decades of experience pay off, especially in the field of oleochemistry. Through the use of our technologies, high-quality products can be produced with a wide variety of raw materials, taking into account individual requirements. Product purity, environmental compatibility and minimal energy consumption are the focus. Therefore, innovative systems for energy recovery and sophisticated process links are a matter of course.
Thermal Energy International has helped several well-known pharmaceutical companies in North America and Europe reduce their energy costs and carbon dioxide emissions. Our FLU-ACE heat recovery system recycles the heat normally lost through the boiler flue gas exhaust – reducing energy consumption on most boilers by 10% to 20%.
All lines can be blocked over in time by bacteria in the water that is used for heat exchange during liquefaction and gasification processes, in LNG Terminals. And this can lead to an increase in costs due to the inefficient heat exchange.
A nuclear reactor produces and controls the release of energy from splitting the atoms of certain elements. The energy released from continuous fission of the atoms of the fuel is utilized as heat in either a gas or water to produce steam. The steam is used to drive the turbines that drive electricity generators. Both boiling water reactors (BWR) and pressurized water reactors (PWR) require secondary separation or “steam drying” as the final stage of water separation within the reactors. In addition,...
Whether providing high-efficiency, low emissions auxiliary boilers to coal or otherwise fired power plants across the United States, or heat recovery steam generators to natural gas fired turbine plants you will find Superior Boilers serving the needs of power generation customers for years to come.
Geothermal power plants use heat from production wells to drive turbines to make power. CSP augments the heat from the wells to boost power production. Hyperlight uses the lowest cost materials, manufacturing method, and installation technique of any CSP technology yet deployed for this purpose.
The range of supply of biogas to electricity solutions is from 10 kW to 1 MW. All the components of the solution are provided with matching capacities.
It comprises the biogas digester system of the desired capacity, gas storage, biogas cleaning system to get rid of H2S from the gas, and the biogas genset. In the digester system, one may have a pre-digester or a feed mixing chamber or both. On the post-digester side, liquid from the slurry is separated and is recycled for feed preparation. It reduces the overall...
Körting condensers, steam jet and water jet vacuum ejectors are established components in steam power plants. There have been innovative developments over the past decades and continously upgraded aggregates to lower energy consumption by optimising heat revovery in power stations.
HydroThane BSP technology is the best method for H2S removal combining deep H2S removal, a very high reliability and availability, and low lifecycle costs. The clean biogas can be used to produce electricity or to replace natural gas in a boiler.