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系統識別號 U0026-1907201800015800
論文名稱(中文) 發展印尼小島觀光的雙體船初步設計
論文名稱(英文) Preliminary Design of Passenger Catamaran for Developing Small Island Tourism in Indonesia
校院名稱 成功大學
系所名稱(中) 系統及船舶機電工程學系
系所名稱(英) Department of Systems and Naval Mechatronic Engineering
學年度 106
學期 2
出版年 107
研究生(中文) 李漢生
研究生(英文) Dave Hansel
學號 P16057018
學位類別 碩士
語文別 英文
論文頁數 94頁
口試委員 指導教授-陳政宏
口試委員-王治平
口試委員-扶正
口試委員-吳炳承
中文關鍵字 none 
英文關鍵字 Catamaran  Development  Marine Tourism  Preliminary Design  Small Islands 
學科別分類
中文摘要 印尼擁有大約17,508個島嶼,其中10,000個島嶼是小島嶼,海岸線長達81,000公里,海域面積約310萬平方公里,珊瑚礁約50,875平方公里,印尼具有發展海上旅遊的巨大潛力。海洋旅遊潛力的發展對海洋文化,多業務,區域經濟發展和加強社區參與具有戰略意義。在一個小島上旅遊可以為當地人民帶來一個很好的機會。增加旅遊目的地和投資的數量,使旅遊業成為貨幣收入的關鍵點,創造就業機會,促進生活質量,發展業務和該地區基礎設施的普遍改善。為了支持政府的計劃和上述所有想法,需要雙體船客船。雙體船船將幫助人們和遊客到達小島,作為海洋旅遊的主要支持。在收集數據後,我們根據船舶設計方法和概念計算並確定相關島嶼(Derawan島 - Kakaban島 - Maratua島)的雙體船需求。初步設計的船舶將容納7名乘員和80名乘客,在配備玻璃底的船體側幫助乘客欣賞水下風景海景。該船的主要尺寸為Lwl = 20 m,B = 7.3 m,H = 2.4 m,Draft = 1.105 m,航速20節。根據分析,這艘雙體船客船的建築總成本為259.220美元或約7.924.369新台幣。
英文摘要 Indonesia, which has about 17,508 islands where 10,000 of them are small islands, with the coastline along 81,000 km, sea area reaching about 3.1 million km2, and coral reef about 50,875 km2, Indonesia has huge potential for the development of maritime tourism. The development of marine tourism potential has a strategic significance in the development of maritime culture, multi-sector business, regional economy and strengthening community participation. Tourism on a small island can bring a good opportunity for the local people in that area. Increasing the number of destination and investment in tourism, make the tourism as a key point for money income, creating a job opportunity, contribute to a general improvement in the quality of life, development business, and infrastructure for that area. To support the government’s program and all the idea above, catamaran passenger ship is needed. The catamaran ship will help people and tourist to reach the small island as the main support for the marine tourism. After we collect data, we calculate and decide the catamaran requirements for the related island (Derawan Island – Kakaban Island – Maratua Island) according to the ship design method and concept. The preliminarily designed ships will accommodate 7 crews and 80 passengers, at the hull side equipped with a glass bottom to help passenger enjoying the underwater scenery sea view. This ship main dimension is Lwl = 20 m, B = 7.3 m, H = 2.4, Draft = 1.105 m and Service speed 20 knots. Based on the analysis the total building cost production of this catamaran passenger ship is 259.220 US$ or about 7.924.369 NTD.
論文目次 TABLE OF CONTENTS
摘要 iii
ABSTRACT iv
ACKNOWLEDGMENTS v
TABLE OF CONTENTS vi
LIST OF FIGURES ix
LIST OF TABLES xi
NOMENCLATURE xii
CHAPTER ONE INTRODUCTION 1
1.1 Research Background 1
1.2 Problem Identification 4
1.3 Objective 4
1.4 Benefits 5
1.5 Hypothesis 5
CHAPTER TWO LITERATURE REVIEW 6
2.1 Indonesia Needs to Improve and Developing Marine Island Tourism 6
2.2 The Statistic Data about Amount of Foreign Tourist in Indonesia 7
2.3 Catamaran 9
2.4 Glass Bottom Catamaran Boat 11
CHAPTER THREE RESEARCH METHOD 13
3.1 Ship Design Method 13
3.2 Designing Catamaran 15
3.3 Design Procedure 17
3.4 Introduction to the Target Islands 19
3.5 Rules and Regulations 22
CHAPTER FOUR RESEARCH RESULTS 24
4.1 Catamaran Passenger Ship Requirements 24
4.2 Main Dimension Calculation 26
4.3 Resistance Calculation 29
4.4 Power and Engine Calculation 30
4.4.1 Ship’s Power Calculation 30
4.4.2 Main Engine and Generator Set Selection 32
4.5 Catamaran Design 35
4.5.1 Lines 35
4.5.2 General Arrangement 38
4.5.3 3D Model 42
4.5.4 Hydrostatic Curve 46
4.6 Stability Calculation Using Maxsurf 49
4.6.1 Trim Result in Normal Condition 49
4.6.2 Trim Result in Extreme Condition 51
4.6.3 Stability Analysis Criteria Checking by GZ Curve 54
4.7 Resistance Prediction Analysis Using Holtrop Method in Maxsurf 58
4.8 Safety Plan Regulations 62
4.8.1 Life Saving Appliances 62
4.8.2 Fire Control Equipment 66
4.8.3 Fire Detection Equipment 67
4.9 Building Cost, Operation Cost, and Investment Calculation 68
4.9.1 Estimating Building Cost Production 68
4.9.2 Operation Cost 70
4.9.3 Investment Feasibility Analysis 71
CHAPTER FIVE CONCLUSION & RECOMMENDATION 73
5.1 Conclusion 73
5.2 Recommendation 74
REFERENCES 75
APPENDICES 79
A.1 Compared Boat 80
A.2 Linear Regression 80
A.3 Coefficient Calculations 82
A.4 Resistance Calculations 84
A.5 Engine Power Calculations 87
A.6 Deadweight and Lightweight 89
A.7 Trim Calculation 90
A.8 Operational Cost Calculation 92
A.9 Trip Scheduling and Ticket Price 94
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