☆ 4.7 Review

MILD Combustion of Solid Fuels: Its Definition, Establishment, Characteristics, and Emissions

ENERGY & FUELS (2023)

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A pilot-scale experimental study on MILD combustion of sawdust and residual char solid waste blend using low-temperature preheating air

Fan Hu et al.

Summary: The experimental study on the incineration treatment of sawdust and residual char blend in a tubular-furnace reactor and a 200-kW pilot-scale furnace is conducted. The influence of temperature and oxygen concentration on NO release characteristics is examined, indicating that the released NO mainly originates from fuel-NO under medium temperature and low oxygen environments. The results demonstrate that stable combustion and emission reduction can be achieved through MILD combustion of the solid waste blend.

FUEL (2023)

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Article Energy & Fuels

Numerical and Chemical Kinetic Analyses on the Formation of CO and CO2 for C1-C4 Hydrocarbon Alkanes in a Hot Co-Flow under MILD Combustion

Subrat Garnayak et al.

Summary: Computational fluid dynamics and chemical kinetic analysis were conducted to explore the formation of CO and CO2 for fuel jet with different hydrocarbon alkanes in a MILD combustion environment. The results showed that the formation of CO was highest for case 3 and lowest for case 1, while the reverse trend was observed for CO2 formation. Acetylene was found to play a vital role in CO formation, while the formation of CO2 was mainly influenced by the reaction between CO and OH.

ENERGY & FUELS (2023)

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Article Thermodynamics

Experimental investigation on co-firing residual char and pulverized coal under MILD combustion using low-temperature preheating air

Fan Hu et al.

Summary: This study investigates the co-firing of residual char and bituminous coal under moderate or intense low-oxygen dilution (MILD) conditions. The results show that MILD co-combustion through an asymmetrical single nozzle achieves the lowest peak temperature and the most uniform distributions of temperature, heat flux, and gas compositions in the furnace. It reduces NO emissions by 57% compared to swirl low-NO flame co-combustion and achieves a burnout rate of 94%. Overall, this study expands the fuel flexibility of MILD combustion, even for residual char fuel blends.

ENERGY (2022)

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Article Chemistry, Applied

MILD combustion of co-firing biomass and pulverized coal fuel blend for heterogeneous fuel NO and PM2.5 emission reduction

Fan Hu et al.

Summary: This study experimentally investigates the performance of a sawdust and bituminous coal blend under MILD combustion conditions and measures the PM2.5 emissions. The results show that MILD combustion of the blend can reduce fuel-NO emissions by at least 45.5% compared to conventional swirl flame combustion. Additionally, the PM2.5 emissions are decreased by over 37%. The findings suggest that MILD combustion is an effective method to utilize biomass fuel blends on a large scale.

FUEL PROCESSING TECHNOLOGY (2022)

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Article Green & Sustainable Science & Technology

Nitrogen evolution, NOX formation and reduction in pressurized oxy coal combustion

Zia Ur Rahman et al.

Summary: Pressurized oxy-combustion is a solution for reducing CO2 emissions from coal-fired power plants, but the generation and reduction of NOx need to be addressed. This review examines the formation and abatement of NOx in pressurized oxy-coal combustion and provides recommendations for future research.

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Review Energy & Fuels

Moderate and Intense Low-Oxygen Dilution (MILD) Combustion of Liquid Fuels: A Review

Feifei Wang et al.

Summary: This article reviews the progress made in the research of liquid fuel MILD combustion, summarizing findings from studies on open fuel jet flames and enclosed furnace combustion. It discusses the characteristics of burning liquid fuels and evaluates the challenges in operating with different types of liquid fuels. The article concludes by suggesting future research directions for combustion, computational fluid dynamics modeling, and comprehensive design methods.

ENERGY & FUELS (2022)

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Article Energy & Fuels

Computational Study on Cocombustion Characteristics of Pulverized Coal Blending with NH3 under Moderate or Intense Low- Oxygen Dilution Combustion Mode

Zewu Zhang et al.

Summary: This study proposes an advanced moderate or intense low-oxygen dilution (MILD) combustion technology for pulverized coal/NH3 cocombustion to overcome the issues of unstable flame and high NOx emissions. The results show that a high NH3 proportion is preferred for achieving a pulverized coal/NH3 MILD combustion regime, leading to decreased furnace temperatures and improved heat transfer. Furthermore, MILD combustion has the potential to reduce NOx conversion during pulverized coal/NH3 cofiring.

ENERGY & FUELS (2022)

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Additional criteria for MILD coal combustion

Hang Zhou et al.

Summary: Theoretical basis for Moderate or Intense Low-oxygen Dilution (MILD) coal combustion was proposed based on turbulent scalar energy spectra, with experimental datasets confirming the importance of smallest mixing length scales being on the order of or smaller than the particle diameter. Poor mixing of species with small Schmidt numbers around small particles leads to high luminous intensity in the reactor, and the effects of inlet velocity and jet diameter on mixing length scales were analyzed. The proposed criterion can guide experimental design to achieve MILD conditions for coal combustion.

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MILD Combustion and Biofuels: A Minireview

Pino Sabia et al.

Summary: Despite the rapid growth of renewable energy sources, advanced combustion processes continue to play an irreplaceable role in the energy market. The coupling of appropriate combustion technology with locally available biofuels offers an effective solution to the decarbonization challenge.

ENERGY & FUELS (2021)

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Article Energy & Fuels

Alcohols as Energy Carriers in MILD Combustion

Giovanni B. Ariemma et al.

Summary: Alcohols play a crucial role in decarbonizing the energy conversion chain, with increasing attention on their use in stationary power generation systems. Experimental results demonstrate the feasibility of thermochemical conversion of low-molecular-weight alcohols and highlight the key factors controlling NOx emission levels through reactor and flame simulations.

ENERGY & FUELS (2021)

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Nonpremixed Flameless Combustion in a Furnace: Influence of Burner Configuration

Guochang Wang et al.

Summary: This study investigates the influence of burner configuration on nonpremixed flameless combustion of propane in a cylindrical furnace through experiments and CFD simulations. Results show that as the global equivalence ratio increases, reducing the separation between fuel-oxidizer nozzles can decrease the maximum temperature and NO emissions. It is suggested that the preferable configuration for nonpremixed flameless combustion burners should integrate a central fuel nozzle with multiple oxidizer nozzles distributed uniformly, with the smallest possible distance between them.

ENERGY & FUELS (2021)

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Nonpremixed Air/Oxygen Jet Burner to Improve Moderate or Intense Low-Oxygen Dilution Combustion Characteristics in Oxygen-Enriched Conditions

Shunta Xu et al.

Summary: The study investigates the characteristics of a nonpremixed air/oxygen jet burner design under oxygen-enriched conditions, showing that it outperforms a premixed burner in reducing NO emissions. Increasing oxygen jet velocity improves oxygen-enriched MILD combustion and NO emission behaviors.

ENERGY & FUELS (2021)

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Comparative Study between Flameless Combustion and Swirl Flame Combustion Using Low Preheating Temperature Air for Homogeneous Fuel NO Reduction

Cuijiao Ding et al.

Summary: This study compares flameless combustion and conventional swirl flame combustion for homogeneous fuel NO reduction. It is found that flameless combustion can significantly reduce fuel NO emissions compared to swirl flame combustion. A recommended Phi value of 0.8 is suggested for achieving minimum emissions of fuel NO and CO in flameless combustion. Additionally, reaction pathway analysis shows how fuel NO is formed and reduced in flameless combustion.

ENERGY & FUELS (2021)

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Review Energy & Fuels

Review on MILD Combustion of Gaseous Fuel: Its Definition, Ignition, Evolution, and Emissions

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Summary: The article summarizes the research progress of gaseous-fuel MILD combustion, focusing on its definition, ignition, evolution, and NOx emissions. It highlights the high efficiency and ultralow emissions characteristics of MILD combustion technologies, as well as discussions on relevant terminologies, existing problems, and further fundamental issues.

ENERGY & FUELS (2021)

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Article Energy & Fuels

Effect of the staged secondary air on NOx emission of pulverized semi-coke flameless combustion with coal preheating technology

Ziqu Ouyang et al.

Summary: The study demonstrates the potential of coal self-preheating combustion technology in reducing NOx emissions, especially with specific jet nozzles. Preheated fuel can achieve flameless combustion, resulting in significantly lower NOx emissions.

FUEL (2021)

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Article Energy & Fuels

Experimental and Numerical Study on Moderate or Intense Low-Oxygen Dilution Oxy-Combustion of Methane in a Laboratory-Scale Furnace under N2, CO2, and H2O Dilutions

Jicang Si et al.

Summary: This study investigates the effects of different diluents and oxygen concentrations on MILD oxy-combustion, finding that CO2 and H2O dilutions are more beneficial for flameless combustion, while N2 is superior for stable combustion at low oxygen levels. N2 dilution leads to high NOx emissions, while CO2 and H2O dilutions result in lower emissions and more uniform heat transfer characteristics. Additionally, the criteria for flameless MILD combustion proposed by Cavaliere and de Joannon and Wiinning and Wiinning are found to apply under CO2 and H2O dilutions but not under N2 dilution for high oxygen concentrations.

ENERGY & FUELS (2021)

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A New Global Mechanism for MILD Combustion Using Artificial-Neural-Network-Based Optimization

Jicang Si et al.

Summary: The GM-ANN mechanism is a new global combustion mechanism optimized by artificial neural network for MILD combustion, demonstrating better performance than traditional mechanisms in various cases.

ENERGY & FUELS (2021)

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Bituminous coal deep regulated ultra-low NOx flameless combustion with fluidized self-preheating fuel: A 2 MWth experimental study

Jingzhang Liu et al.

Summary: This study utilized advanced combustion techniques to achieve original ultra-low NOx emissions and high combustion efficiency.

FUEL (2021)

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Flow and reaction characteristics at different oxygen concentrations and inlet velocities in pulverized coal MILD combustion

Yucheng Kuang et al.

Summary: Numerical simulations were conducted to analyze the performance of pulverized coal MILD combustion under different inlet conditions. Results showed that oxygen concentration has a greater impact on chemical reactions, while inlet velocity is more influential on flow dynamics.

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Optimization of the Global Reaction Mechanism for MILD Combustion of Methane Using Artificial Neural Network

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Re-Recognition of the MILD Combustion Regime by Initial Conditions of Tin and XO2 for Methane in a Nonadiabatic Well-Stirred Reactor

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