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Experience from ISM Code as Implementation Model for the Maritime Labour Convention, 2006

Igwe¹,

Ogbonnaya²,

Ajoko³

et al. 2019

EJERS

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The International Safety Management Code (ISM Code) and the Maritime Labour Convention (MLC), 2006 are international regulatory instruments to provide standards for the safe management and operation of ships, protection of marine environment, and setting fort minimum working requirements for the welfare and working conditions of seafarers. For the ISM Code, its effective implementation depends mostly on the competence and continued commitment and motivation of individuals at all levels, and the outcome envisages the enhancement of a safety culture throughout the shipping industry. This paper attempts to establish correlations between the ISM Code and the MLC, 2006 in the provisions on objectives, legislative requirements, Flag State responsibilities, Port State responsibilities, health and safety protection, accident prevention and safety management, regular inspections and analysis of non-conformities and qualifications of seafarers. Based on these, a model to enhance the implementation of the MLC, 2006 by the relevant stakeholders in the maritime sector is developed patterned on the multi-stage model of the workings of the ISM Code developed by Trapford (2009). Although not very exhaustive, the literature reviewed on the experience of the ISM Code and the model proposed could reasonably apply for MLC, 2006 as the notions, goals and objectives of the both codes are anchored on the development of a safety culture – one emphasizing safe management culture and the other safe working conditions and welfare of the seafarers.

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Analysis and Design of Steel a Floating Pontoon Jetty for Use in the Coastal Waters of Nigeria

Igwe¹,

Ajoko

²

2020

EJENG

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Floating pontoons are semi-permanently moored structures on a water body to provide boarding access to commuters. The decision to develop such structures was informed by the need to provide berthing access to river crafts that operate on the coastal waters of Bayelsa State, Nigeria. In this project, a floating pontoon, a gangway, and other supporting structures like scantlings and spud pillars, were designed to meet the needs and environmental requirements of the area. Standards consulted are the DNV Rules for the classification of ships; DNV Rules for the classification of Floating Docks; ABS Rules for Building and Classing Steel Barges; and other relevant Nigeria and Imo standards. The pontoon designed has dimensions: 13 x 12 x 4.8 m; gross tonnage of 15 tonnes; 2nos. of dry tanks of capacity 17.2 m³ and 6nos. of manholes of 450 x 550 mm. The strength of materials analysis was limited to the floating pontoon for limitations of space for this paper. The pontoon and scantling design has been done based on the worst condition of design pressure which is for the maximum submersion draft. Normal grade steel of yield strength 235 MPa is chosen for all members except the pontoon girders, frames and pillars. This is to reduce the material scantlings and to ensure higher strength with lesser scantlings. Longitudinal framing is adopted in the pontoons as the pontoon structure needs more strength in the longitudinal direction.

show abstract

Analysis and Design of Steel a Floating Pontoon Jetty for Use in the Coastal Waters of Nigeria

Igwe¹,

Ajoko²

2020

EJERS

1

0

View full text Add to dashboard Cite

Floating pontoons are semi-permanently moored structures on a water body to provide boarding access to commuters. The decision to develop such structures was informed by the need to provide berthing access to river crafts that operate on the coastal waters of Bayelsa State, Nigeria. In this project, a floating pontoon, a gangway, and other supporting structures like scantlings and spud pillars, were designed to meet the needs and environmental requirements of the area. Standards consulted are the DNV Rules for the classification of ships; DNV Rules for the classification of Floating Docks; ABS Rules for Building and Classing Steel Barges; and other relevant Nigeria and Imo standards. The pontoon designed has dimensions: 13 x 12 x 4.8 m; gross tonnage of 15 tonnes; 2nos. of dry tanks of capacity 17.2 m³ and 6nos. of manholes of 450 x 550 mm. The strength of materials analysis was limited to the floating pontoon for limitations of space for this paper. The pontoon and scantling design has been done based on the worst condition of design pressure which is for the maximum submersion draft. Normal grade steel of yield strength 235 MPa is chosen for all members except the pontoon girders, frames and pillars. This is to reduce the material scantlings and to ensure higher strength with lesser scantlings. Longitudinal framing is adopted in the pontoons as the pontoon structure needs more strength in the longitudinal direction.

show abstract

Experience from ISM Code as Implementation Model for the Maritime Labour Convention, 2006

Igwe

¹

,

Ogbonnaya

²

,

Ajoko

³

et al. 2019

EJENG

1

0

View full text Add to dashboard Cite

The International Safety Management Code (ISM Code) and the Maritime Labour Convention (MLC), 2006 are international regulatory instruments to provide standards for the safe management and operation of ships, protection of marine environment, and setting fort minimum working requirements for the welfare and working conditions of seafarers. For the ISM Code, its effective implementation depends mostly on the competence and continued commitment and motivation of individuals at all levels, and the outcome envisages the enhancement of a safety culture throughout the shipping industry. This paper attempts to establish correlations between the ISM Code and the MLC, 2006 in the provisions on objectives, legislative requirements, Flag State responsibilities, Port State responsibilities, health and safety protection, accident prevention and safety management, regular inspections and analysis of non-conformities and qualifications of seafarers. Based on these, a model to enhance the implementation of the MLC, 2006 by the relevant stakeholders in the maritime sector is developed patterned on the multi-stage model of the workings of the ISM Code developed by Trapford (2009). Although not very exhaustive, the literature reviewed on the experience of the ISM Code and the model proposed could reasonably apply for MLC, 2006 as the notions, goals and objectives of the both codes are anchored on the development of a safety culture – one emphasizing safe management culture and the other safe working conditions and welfare of the seafarers.

show abstract