Procjena pomorstvenih karakteristika neoštećenog i oštećenog broda

Martić, Ivana (2014) Procjena pomorstvenih karakteristika neoštećenog i oštećenog broda. = Evaluation of seakeeping characteristics of intact and damaged ship. Master's thesis (Bologna) , Sveučilište u Zagrebu, Fakultet strojarstva i brodogradnje, UNSPECIFIED. Mentor: Degiuli, Nastia.

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Abstract (Croatian)

Odziv broda na valovima važno je predvidjeti već u fazi projektiranja broda. Usko je vezan uz postizanje i održavanje brzine napredovanja, potrebne snage te potrošnje goriva. Kako bi brod imao dobre pomorstvene karakteristike amplitude gibanja te ubrzanja moraju biti u prihvatljivim granicama, a dodatni otpor na valovima ne smije značajno utjecati na pad brzine broda. U ovom radu proračunat je odziv broda na pravilnim valovima u pramac te za definirana stanja mora u određenom frekvencijskom rasponu pri različitim brzinama plovidbe. Proračun je proveden u programskom paketu HydroSTAR (Bureau Veritas). Obzirom da je često nakon pomorskih nesreća oštećeni brod potrebno ukloniti s mjesta nesreće, proračunate su i pomorstvene karakteristike oštećenog broda. Oštećenje je simulirano pomoću dva modela: kao povećana masa istisnine broda te naplavljeni tank u sredini broda. Osim odziva broda na valovima proračunate su i sile dodatnog otpora broda uslijed plovidbe na valovima. Proračun je temeljen na linearnoj teoriji potencijalnog strujanja, a dodatni otpor određen je preko sile zanošenja kao valnog optrećenja drugog reda. Kvadratna prijenosna funkcija QTF koja opisuje niskofrekventna valna opterećenja drugog reda aproksimirana je samo nultim članom odnosno silom zanošenja na pojedinim frekvencijama nailaznih valova. Amplitude odziva broda prikazane su pomoću prijenosnih funkcija. Dana je usporedba pomorstvenih karakteristika neoštećenog i oštećenog broda. Rezultati proračuna pokazuju kako se odziv oštećenog broda s naplavljenim tankom neznatno razlikuje od odziva oštećenog broda s povećanom masom istisnine.

Abstract

It is necessary to predict ship response to waves already during the design phase. It affects the ship's ability to achieve and maintain speed, the necessary power and fuel consumption. In order to have good seakeeping characteristics of ship, motion amplitudes and accelerations must be within acceptable limits, and added resistance in waves should not have significant affect on the decrease in ship speed. In this paper the response of the ship in regular bow waves was calculated. The ship response was calculated at defined sea states in certain frequency range and at different forward speeds. Calculations were conducted using software package HydroSTAR (Bureau Veritas). Since after maritime accident damaged ship should be often removed from the place where accident occurred, seakeeping characteristics of damaged ship were also calculated. The damage was simulated using two models: as an increase of ship displacement mass and as flooded tank within midship area. In addition to the ship response to waves, the added resistance of ship in waves was calculated. Calculations are based on linear potential flow theory, and added resistance was determined by the wave drift force as the second order wave load. Quadratic transfer function QTF which describes low-frequency second order wave loads was approximated by its zeroth term only, i.e. by the drift load at incoming wave frequencies. Response amplitudes of the ship were presented using transfer functions. Seakeeping characteristics of the intact and damaged ship were compared. The calculation results show that response amplitudes of the damaged ship with flooded tank differ slightly from the response amplitudes of the damaged ship with increased displacement.

Item Type:	Thesis (Master's thesis (Bologna))
Uncontrolled Keywords:	potencijalno strujanje; pomorstvenost; odziv broda; dodatni otpor na valovima; kvadratna prijenosna funkcija
Keywords (Croatian):	potential flow, wave load, seakeeping, ship response, added resistance in waves, quadratic transfer function, drift force
Subjects:	TECHNICAL SCIENCE > Shipbuilding
Divisions:	600 Department of Naval Engineering and Marine Technology > 610 Chair of Hydromechanics of Marine Structures
Date Deposited:	01 Dec 2014 09:21
Last Modified:	16 Oct 2015 12:45
URI:	http://repozitorij.fsb.hr/id/eprint/3058

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