Flue gas energy storage heat transfer oil

Mitigating low-temperature corrosion in flue-gas heat

In the operation of geothermal power plants, flue gas heat exchangers play a crucial role by extracting thermal energy from geothermal fluids for power generation [1].However, a significant challenge encountered in this process is low-temperature corrosion (LTC), a type of corrosion that occurs at the colder sections of the heat exchanger [2].This corrosion is

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Carbon Capture From Flue Gas and the Atmosphere: A Perspective

For example, through exhaust gas recycling, in which flue gas from natural gas boiler (containing ∼4% Co2) is recycled and used in place of air for the fuel combustion, Co2 concentration in the flue gas can be enriched up to ∼8%, making Co2 capture less thermodynamically challenging (Vaccarelli et al., 2014).

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Design and dynamic simulation of flue gas-molten salt heat

The results showed that the molten salt heat storage scheme with the advantages of stable operation, good economy and an energy conversion rate higher than 80 % as using flue gas to heat molten salt. For these reasons, the paper focuses on the technical routine that CFPP integrated with the molten salt TES system by using flue gas as the

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Silica aerogel nanoparticle-stabilized flue gas foams for

A three-dimensional physical simulation study was conducted to evaluate the thermal insulation effect and enhanced oil recovery of aerogel-stabilized flue gas foam in three-dimensional oil reservoirs. The experimental setup is illustrated in Fig. S7. The model consists of a 400 mm × 400 mm x 150 mm stainless steel box representing a quarter 5

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A novel strategy to reduce carbon emissions of heavy oil thermal

Steam condensation heat transfer coefficients with and without flue gas were tested, and oil recovery factor and heat transfer for steam flooding assisted by flue gas in a sandpack were studied. Finally, the flue gas treatment and injection process for the steam injection well was designed and applied in the oilfield.

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Dynamic characteristics and real-time control of flue gas-molten

Currently, there are fewer studies on flue gas as a heat source for energy storage, and more studies focus on system integration and energy/exergy analysis under static conditions. Flue gas temperature variations in the boiler can seriously affect the heat transfer efficiency of the flue gas-molten salt exchanger, leading to the

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1. FUELS AND COMBUSTION

fuel oil is readily pumpable. Specific Heat Specific heat is the amount of kCals needed to raise the temperature of 1 kg of oil by 1°C. The unit of specific heat is kCal/kg°C. It varies from 0.22 to 0.28 depending on the oil specif-ic gravity. The specific heat determines how much steam or electrical energy it takes to heat oil

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A novel strategy to reduce carbon emissions of heavy oil thermal

At the end of the sandpack flooding, the flue gas storage reached 0.26 PV, which means that 46.4% of the injected flue gas was stored in the sandpack. The storage of flue gas can be divided into two parts: the flue gas dissolved in the residual heavy oil and the flue gas trapped in the porous media. Download : Download high-res image (162KB)

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Enhancing the thermal response of a latent heat storage system

Semantic Scholar extracted view of "Enhancing the thermal response of a latent heat storage system for suppressing temperature fluctuation of dusty flue gas" by Song-Zhen Tang et al. Effectiveness of direct contact PCM thermal storage with a gas as the heat transfer fluid. M. Belusko Shane Sheoran F. Bruno. Engineering, Environmental

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Experimental Study on the Cyclic Steam Stimulation Assisted by Flue Gas

Normally, the recovery effect of a heavy-oil reservoir gradually deteriorates after multiple rounds of cyclic steam stimulation (CSS). However, the injection of flue gas can effectively increase the utilization degree of steam heat energy, which improves the recovery effect. In this paper, an experimental method for CSS using an energy storage container was established.

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Flue Gas

1.8.2.2 Flue gas/multiple thermal fluids–cyclic steam stimulation process. Flue gas is a mixture of N 2 and CO 2. Therefore, a flue gas–based thermal recovery process usually combines the advantages of both N 2 and CO 2. In 2009, a flue gas-CSS process was first applied to improve the performance of CSS wells in the Shengli oil field, China.

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Modular energy recovery and storage solution could turn flue gas

Modular energy recovery and storage solution could turn flue gas waste heat into profit. project manager at Altek explains: "Heat pipe heat exchangers transfer energy from a hot waste heat stream to a cooler stream. Our technology differs from other heat exchangers in the sense that the heat is transferred through a number of heat pipes

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High-temperature PCM-based thermal energy storage for

Heat transfer enhancement in medium temperature thermal energy storage system using a multitube heat transfer array Renew Energy, 35 ( 2010 ), pp. 198 - 207, 10.1016/j.renene.2009.03.010 View PDF View article View in Scopus Google Scholar

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Experimental Study on the Cyclic Steam Stimulation Assisted

Keywords: ﬂue gas, cyclic steam stimulation, heat transfer, oil recovery factor, physical simulation Edited by: Kalpit V. Shah, RMIT University, Australia the Steam-Flue Gas Ratio. Front. Energy Res. 8:599370. doi: 10.3389/fenrg.2020.599370 an energy storage container was established. On this basis, a one-

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Analyzing flue gas properties emitted from power and industrial

Carbon capture, utilization, and storage (CCUS) is expected to mitigate CO 2 emissions significantly since CO 2 is captured from the flue gas emitted by power and industrial processes and then either used in manufacturing processes or sequestrated into geographical formations. CO 2 capture is an energy-intensive process, and its energy consumption is

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Numerical Simulation of Scrap Preheating with Flue Gas in EAF

It is of great significance to recover the waste heat of flue gas for improving energy efficiency . Brandt et al. designed a tube bundle heat exchanger driven by heat transfer oil for recovering the waste gas heat, In the scrap storage bin, the accumulational scrap is continuously heated by the bottom-top high-temperature flue gas with

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A structured procedure for the selection of thermal energy storage

The plots show the time variation of the storage temperature, the flue gas temperature at the outlet of the gas-to-oil heat exchanger and the instantaneous charging efficiency. The initial temperature of the storage medium is 200 °C for the fully mixed and stratified tank, which is the minimum storage temperature assumed in the preliminary design.

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Combining Steam and Flue Gas as a Strategy to

Steam injection enhances oil recovery by reducing the viscosity of crude oil, improving oil mobility and facilitating its extraction. The utilization of flue gas in steam injection processes has a significant impact on oil recovery and energy

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Boiler Efficiency and Combustion

The gross calorific value of the fuel includes the energy used in evaporating this water. Flue gases on steam boiler plant are not condensed, therefore the actual amount of heat available to the boiler plant is reduced. Sophisticated electronic control systems that monitor all the components of the flue gas, and make adjustments to fuel and

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Flue gas

Flue gas from London''s Bankside Power Station, 1975. Flue gas is the gas exiting to the atmosphere via a flue, which is a pipe or channel for conveying exhaust gases, as from a fireplace, oven, furnace, boiler or steam generator often refers to the exhaust gas of combustion at power plants.Technology is available to remove pollutants from flue gas at power plants.

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Enhancing the thermal response of a latent heat storage system

The integrated structure is divided into a heat storage section and a heat transfer section. HITEC molten salt (7% NaNO 3 + 53% KNO 3 + 40% NaNO 2) is used as a heat storage material (PCM) and filled in the tubes of the heat storage section. The flue gas flows across the tube bundle and transfers heat with the PCM.

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Mathematical modeling and experimental study of a two-stage

Besides, the heat transfer rate in packed beds can be expressed by the effective conductivity and total heat transfer coefficient [2]. Experimental investigation and modeling of the application of latent heat energy storage method from hot gases has been done by Yagi and Akiyama [6]. In this study the working fluid was nitrogen and the range of

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About Flue gas energy storage heat transfer oil

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Flue gas energy storage heat transfer oil

Mitigating low-temperature corrosion in flue-gas heat

Carbon Capture From Flue Gas and the Atmosphere: A Perspective

Design and dynamic simulation of flue gas-molten salt heat

Silica aerogel nanoparticle-stabilized flue gas foams for

A novel strategy to reduce carbon emissions of heavy oil thermal

Dynamic characteristics and real-time control of flue gas-molten

1. FUELS AND COMBUSTION

A novel strategy to reduce carbon emissions of heavy oil thermal

Enhancing the thermal response of a latent heat storage system

Experimental Study on the Cyclic Steam Stimulation Assisted by Flue Gas

Flue Gas

Modular energy recovery and storage solution could turn flue gas

High-temperature PCM-based thermal energy storage for

Experimental Study on the Cyclic Steam Stimulation Assisted

Analyzing flue gas properties emitted from power and industrial

Numerical Simulation of Scrap Preheating with Flue Gas in EAF

A structured procedure for the selection of thermal energy storage

Combining Steam and Flue Gas as a Strategy to

Boiler Efficiency and Combustion

Flue gas

Enhancing the thermal response of a latent heat storage system

Mathematical modeling and experimental study of a two-stage

About Flue gas energy storage heat transfer oil

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