Skip to main content
OSTI.GOVU.S. Department of Energy Office of Scientific and Technical Information
U.S. Department of Energy
Office of Scientific and Technical Information
 

Thermodynamic analysis of heat transfer reduction in spark ignition using thermal barrier coatings

Journal Article · · Proceedings of the Institution of Mechanical Engineers. Part D, Journal of Automobile Engineering
 [1];  [2];  [2];  [2]
  1. Clemson University, Greenville, SC, USA; OSTI
  2. Clemson University, Greenville, SC, USA
+ Show Author Affiliations

This work uses a 0D thermodynamic engine model coupled to a 1D surface temperature solver to study the potential of low thermal inertia thermal barrier coatings (TBCs) on combustion chamber surfaces to increase the efficiency of spark ignition engines. Under ideal conditions, coating the piston crown, head, and valve faces with a TBC with a thermal inertia of 640 J/m2 K s1/2resulted in less than a 1% relative improvement in efficiency. Despite using a low thermal inertia coating to avoid open cycle charge heating, the reduction in closed cycle heat transfer, which is the pathway to increasing efficiency, increased knock propensity. Therefore, any efficiency gain through closed cycle heat transfer reduction in spark ignition is offset by the need to retard spark timing to counter knock. An exergy analysis of completely blocking heat transfer for a 10 crank-angle degree window showed that on a low compression engine, like those used for stoichiometric gasoline spark ignition, the maximum efficiency gain achievable was limited compared to a higher compression ratio engine. Furthermore, the high gas temperatures of stoichiometric operation mean that even state-of-the-art TBCs cannot elevate surface temperatures enough purely through temperature swing to achieve a significant reduction in heat transfer near top dead center, where work availability is highest. Overall, these results indicate that low thermal inertia TBCs are ill-suited for achieving an efficiency benefit in spark ignition through a heat transfer reduction pathway. Instead spark ignition TBC research should explore ways to use low thermal inertia TBCs to achieve open cycle charge cooling to reduce knock propensity.

Research Organization:
Solution Spray Technologies, LLC, Storrs, CT (United States)
Sponsoring Organization:
USDOE Office of Science (SC)
DOE Contract Number:
SC0019865
OSTI ID:
2421384
Journal Information:
Proceedings of the Institution of Mechanical Engineers. Part D, Journal of Automobile Engineering, Journal Name: Proceedings of the Institution of Mechanical Engineers. Part D, Journal of Automobile Engineering; ISSN 0954-4070
Publisher:
SAGE
Country of Publication:
United States
Language:
English

References (29)

Enhancing the efficiency benefit of thermal barrier coatings for homogeneous charge compression ignition engines through application of a low-k oxide journal June 2020
An Investigation of Metal and Ceramic Thermal Barrier Coatings in a Spark-Ignition Engine journal October 2010
Development of a Postprocessing Methodology for Studying Thermal Stratification in an HCCI Engine journal August 2012
Evaluation on combustion and lean-burn limit of a medium compression ratio hydrogen/methanol dual-injection spark-ignition engine under methanol late-injection journal November 2020
Modeling of HC Emissions Due to Crevice Flows in Premixed-Charge Engines conference September 1989
Analysis of the effects of wall temperature swing on reciprocating internal combustion engine processes journal July 2017
A parametric modeling study of thermal barrier coatings in low-temperature combustion engines journal January 2022
Burn angles and form factors for Wiebe function fits to mass fraction burned curves of a spark ignition engine with variable valve timing journal October 2009
A predictive model for knock onset in spark-ignition engines with cooled EGR journal November 2014
Effect of Elevated Piston Temperature on Combustion Chamber Deposit Growth conference March 1994
Numerical and experimental investigation of a piston thermal barrier coating for an automotive diesel engine application journal November 2019
Performance of Thin-Ceramic-Coated Combustion Chamber with Gasoline and Methanol as Fuels in a Two-Stroke SI Engine conference October 1994
A review of thermal barrier coatings for improvement in thermal efficiency of both gasoline and diesel reciprocating engines journal December 2020
Flow in the Piston-Cylinder-Ring Crevices of a Spark-Ignition Engine: Effect on Hydrocarbon Emissions, Efficiency and Power conference February 1982
The Determination of Thermal Properties of Engine Combustion Chamber Deposits conference March 2000
A Methodology to Mimic Cycle to Cycle Variations and to Predict Knock Occurrence through Numerical Simulation conference April 2014
A Universally Applicable Equation for the Instantaneous Heat Transfer Coefficient in the Internal Combustion Engine conference October 1967
Experimental assessment of new insulation coatings for lean burn spark-ignited engines journal January 2020
Limits of compression ratio in spark-ignition combustion with methanol journal August 2021
The Effect of Thin Ceramic Coatings on Spark-Ignition Engine Performance conference April 1990
EGR Effects on Boosted SI Engine Operation and Knock Integral Correlation journal January 2012
Lean flammability limit of high-dilution spark ignition with ethanol, propanol, and butanol journal February 2021
Some Factors Which Affect Octane Requirement Increase conference February 1975
Experimental and Numerical Analyses for the Characterization of the Cyclic Dispersion and Knock Occurrence in a Small-Size SI Engine conference September 2010
Some Insights on the Stochastic Nature of Knock and the Evolution of Hot Spots in the End-Gas During the Engine Cycle from Experimental Measurements of Knock Onset and Knock Intensity conference October 2017
Advances on strategies for searching for next generation thermal barrier coating materials journal May 2019
Heat Insulation of Combustion Chamber Walls — A Measure to Decrease the Fuel Consumption of I.C. Engines? conference February 1987
Influence of thermal barrier coating on partially premixed combustion in internal combustion engine journal November 2021
Low Heat Capacitance Thermal Barrier Coatings for Internal Combustion Engines conference April 2019

Similar Records

Impact of Thermal Barrier Coatings on Intake and Exhaust Valves in a Spark Ignition Engine
Journal Article · 2023 · SAE Technical Paper Series · OSTI ID:1997413
Low thermal inertia thermal barrier coatings for spark ignition engines: An experimental study
Journal Article · 2023 · International Journal of Engine Research · OSTI ID:1997414
Assessing the Impact of a Novel TBC Material on Heat Transfer in a Spark Ignition Engine through 3D CFD-FEA Co-Simulation Routine
Journal Article · 2022 · SAE Technical Paper Series · OSTI ID:1997418

Related Subjects

Engineering
Transportation