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Fuel Consumption Measurement in I.C. Reciprocating Engines Utilizing Manifold Pressure and Engine RPM
ISSN: 0148-7191, e-ISSN: 2688-3627
Published April 16, 2002 by SAE International in United States
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An electronic instrument for the measurement of fuel consumption in reciprocating internal combustion engines for light aircraft has been designed, manufactured and tested.
The operating principle of the measuring device is based on the simple, theoretically supported and experimentally verified observation that the fuel mass flow rate is almost exactly proportional to the product of the intake manifold air pressure “pc” and the engine revolution speed “n”.
Therefore, only two sensors are needed, and no fuel pipe cutting is required for installation and operation. This feature represents a major point in favor of simplicity, reliability and safety.
The aim of the instrument is to provide a fuel consumption indication which can be used during cruising. The instrument is not intended as a replacement for the usual on-board fuel level gauge, but can be used to integrate the flight information with the overall and instantaneous fuel consumption data. The instrument also displays the engine revolution speed, the air pressure and temperature in the intake manifold.
The measuring equipment was tested on a reciprocating engine running on a dynamometer bench, while further flight tests, like those already carried out with a former version of the instrument without temperature correction, will be performed in a subsequent phase of the research. In the present modified version of the instrument, instead, the effect of the air temperature at the engine inlet is also taken into account, thanks to an RTD (Resistance Thermal Detector) placed in the intake manifold, thus improving the fuel consumption calculation made by the electronic instrument.
The main component of the instrument is a microprocessor which calculates the reference ratio “γ” between the current value of the product “pc·n” and the maximum value “(pc·n)max” obtained along a typical propeller load curve. For this purpose, a preliminary calibration of the instrument is necessary, and a three-piece straight-line law has been recorded in the micro-controller memory.
The measuring accuracy obtained so far is lower than 2%, thanks to the temperature correction technique here employed.
|Progress In Technology||Continuously Variable Transmission (CVT)|
|Ground Vehicle Standard||Class B Data Communications Network Interface|
|Technical Paper||MERCEDES-BENZ DB-601A AIRCRAFT ENGINE - (Design Features and Performance Characteristics)|
CitationNuccio, P., Mussino, F., and Marzano, M., "Fuel Consumption Measurement in I.C. Reciprocating Engines Utilizing Manifold Pressure and Engine RPM," SAE Technical Paper 2002-01-1511, 2002, https://doi.org/10.4271/2002-01-1511.
Data Sets - Support Documents
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- Morelli P. Nuccio P. “Sulla misura del consumo di carburante nei motori alternativi ad accensione comandata” XLVII Congresso Nazionale ATI Parma (Italy) 15-18 Settembre 1992
- Morelli P. Nuccio P. “A new instrument for fuel consumption measurement in light aircraft and motor-gliders” XXV OSTIV Congress Durance (France) 3-11 July 1997
- Marzano, M. R. Nuccio P. “A New Instrument for Fuel Consumption Measurement in Light Aircraft” Comparison of Different Correction-Factors”. Proceedings of 2 nd International Conference on Control and Diagnostics in Automotive Applications Genoa (Italy) 29-30 October 1998
- Cipolla G. Cioffi V. Nuccio P. “Influence of Atmospheric Conditions on S.I. Engine Performance and Comparison of Different Correction-Factors” Proceedings of 2 nd International Conference on Control and Diagnostics in Automotive Applications Genoa (Italy) 29-30 October 1998
- Fossati L. “Progetto di uno strumento elettronico per la misura del consumo di carburante in motori alternativi ad accensione comandata” Tesi di Laurea; Politecnico di Torino