A Methodology for Assessing Inlet Swirl Distortion
This Aerospace Information Report (AIR) addresses the subject of aircraft inlet-swirl distortion. A structured methodology for characterizing steady-state swirl distortion in terms of swirl descriptors and for correlating the swirl descriptors with loss in stability pressure ratio is presented. The methodology is to be considered in conjunction with other SAE inlet distortion methodologies. In particular, the combined effects of swirl and total-pressure distortion on stability margin are considered. However, dynamic swirl, i.e., time-variant swirl, is not considered. The implementation of the swirl assessment methodology is shown through both computational and experimental examples. Different types of swirl distortion encountered in various engine installations and operations are described, and case studies which highlight the impact of swirl on engine stability are provided. Supplemental material is included in the appendices.
This AIR is issued to bring together information and ideas required to address the inlet-swirl problem for which common industry practice has yet to be established. This document should foster the tests and analyses necessary to mature the ideas proposed by the committee to a recommended practice. These tests and analyses must include information that justifies three main features of the proposed swirl methodology: (1) swirl descriptors for correlating inlet swirl and stability pressure ratio loss, (2) computational techniques for analyzing compression systems (inlets, fans, compressors), and (3) test protocols (instrumentation and test techniques). The committee anticipates serving the industry by using such information to establish the consensus necessary for issuance of an SAE recommended practice.
Rationale: SAE document ARP1420 (as supplemented by SAE AIR1419) provides guidelines and extensive background for treating inlet spatial total-pressure distortion. Follow-on efforts by the S-16 Turbine Engine Inlet Flow Distortion Committee have resulted in the release of reports on temperature distortion (SAE AIR5867), inlet planar waves (SAE AIR5866), statistical stability assessment (SAE AIR5656), and distortion synthesis/estimation techniques (SAE AIR5826). Since the publication of these documents, additional information on inlet swirl and its destabilizing effects has become available. This Aerospace Information Report addresses the subject of aircraft inlet-flow angularity, known as swirl, and provides a methodology for assessing swirl distortion that can be used in conjunction with SAE document ARP1420.