BS ISO 15016:2015
$215.11
Ships and marine technology. Guidelines for the assessment of speed and power performance by analysis of speed trial data
| Published By | Publication Date | Number of Pages |
| BSI | 2015 | 96 |
The primary purpose of speed and power trials is to determine a ship’s performance in terms of ship’s speed, power and propeller shaft speed under prescribed ship’s conditions and thereby verify the satisfactory attainment of a ship’s speed stipulated by EEDI regulations and/or contract.
This International Standard defines and specifies the following procedures to be applied in the preparation, execution, analysis and reporting of speed trials for ships, with reference to the effects which may have an influence upon the speed, power and propeller shaft speed relationship:
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the responsibility of each party involved,
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the trial preparations,
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the ship’s condition,
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the limiting weather and sea conditions,
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the trial procedure,
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the execution of the trial,
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the measurements required,
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the data acquisition and recording,
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the procedures for the evaluation and correction,
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the processing of the results.
The contracted ship’s speed and the ship’s speed for EEDI are determined for stipulated conditions and at specific draughts (contract draught and/or EEDI draught). For EEDI, the environmental conditions are: no wind, no waves, no current and deep water of 15°C.
Normally, such stipulated conditions are unlikely to be experienced in part or in full during the actual trials. In practice, certain corrections for the environmental conditions such as water depth, surface wind, waves, current and deviating ship draught, have to be considered. For this purpose, during the speed and power trials, not only are shaft power and ship’s speed measured, but also relevant ship data and environmental conditions.
The applicability of this International Standard is limited to ships of the displacement type.
In this International Standard, it was decided that the unit to express the amount of an angle should be “rad” (radian) and that the unit of speed should be “m/s” (metres per second). Nevertheless, “°” (degree) as a unit for an angle and “knots” as a unit for speed may be used. However, the units for the angles and speeds which appear in calculation formulas are to be “rad” and “m/s” without exception. Moreover, for the convenience of the users of this International Standard, numerical values using the units of degree and knots are stated jointly at appropriate places.
If it is physically impossible to meet the conditions in this International Standard, a practical treatment is allowed based on the documented mutual agreement among the Owner, the Verifier and the Shipbuilder.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 7 | Foreword |
| 8 | Introduction |
| 9 | 1 Scope |
| 10 | 2 Normative references 3 Terms and definitions |
| 12 | 4 Symbols and abbreviated terms 4.1 Symbols |
| 16 | 4.2 Abbreviated terms 5 Responsibilities 5.1 Ship builders’ responsibilities |
| 17 | 5.2 The Trial Team 6 Trial preparations 6.1 Step 1: Installation and Calibration |
| 18 | 6.2 Step 2: S/P trial agenda and pre-trial meeting |
| 19 | 7 Ship’s condition 7.1 Displacement 7.2 Trim 7.3 Hull and propeller 8 Trial boundary conditions |
| 20 | 8.1 Location 8.2 Wind 8.3 Sea state |
| 21 | 8.4 Water depth |
| 22 | 8.5 Current 9 Trial procedures 9.1 Parameters that shall be recorded 9.2 Parameters measured during each run |
| 23 | 9.3 Parameters measured at the speed trial site 9.4 General information 9.5 Tank test information |
| 24 | 9.6 Scope and conduct of the measurements 9.6.1 Ship track and speed over ground 9.6.2 Torque 9.6.3 Wind 9.6.4 Water depth 9.6.5 Waves |
| 25 | 9.6.6 Temperature and density 9.6.7 Current 10 Conduct of the trial 10.1 Initiation 10.2 Ship’s track during trial |
| 26 | 10.3 Run duration and timing 10.4 Trial direction 10.5 Steering 10.6 Approach 10.7 Number of speed runs 10.7.1 ‘Iterative’ method |
| 27 | 10.7.2 ‘Mean of means’ method 11 Data acquisition |
| 28 | 11.1 General data 11.2 Data on each run |
| 29 | 11.3 Acquisition system 11.3.1 Minimum data 11.3.2 System requirements |
| 30 | 11.3.3 Location 11.4 Manual data collection |
| 32 | 12 Analysis procedure 12.1 General remarks 12.2 Description of the analysis procedure |
| 33 | 12.2.1 Resistance data derived from the acquired data 12.2.2 Evaluation of the acquired data |
| 34 | 12.2.3 Evaluation based on Direct Power Method |
| 37 | 12.2.4 Correction of the measured ship’s speed due to the effect of current |
| 38 | 12.2.5 Correction of the ship’s speed due to the effects of shallow water 12.2.6 Correction of the ship’s performance due to the effects of displacement 12.2.7 Conversion of power curve from trial condition to full load/stipulated condition 13 Processing of the results |
| 39 | 14 Reporting |
| 40 | 15 Example of speed trial data analysis |
| 42 | Annex A (normative) General information and trial log sheet |
| 43 | Annex B (normative) Beaufort scale for wind velocity |
| 46 | Annex C (normative) Resistance increase due to wind |
| 56 | Annex D (normative) Resistance increase due to waves |
| 69 | Annex E (normative) Effect of water temperature and water density |
| 70 | Annex F (normative) Effect of current |
| 74 | Annex G (normative) Effect of shallow water |
| 75 | Annex H (normative) Effect of displacement |
| 76 | Annex I (normative) Conversion from trial condition to other stipulated load conditions |
| 78 | Annex J (normative) Derivation of load variation coefficients |
| 83 | Annex K (informative) Analysis of direct power method |
| 93 | Bibliography |
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BS ISO 15016:2015 – TC:2020 Edition
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