Published at Wednesday, June 06th 2018. by beky audrey in Cruise Ship Cabins.
My wife and I were in a standard stateroom with a balcony (one of the Category B staterooms on the ship). Upon entering the stateroom we had two initial impressions. First of all the curved walls gave the room a very unique look (unlike typical cruise ship staterooms which are almost always rectangular with straight walls). The second thing we noticed is that the stateroom didn`t have a bathroom... well at least not in the traditional sense. You entered the stateroom through a door between a shower stall and a toilet stall (each with a heavily frosted enclosure). A curtain separated these areas from the main part of the stateroom which among other things included the bed a couch storage closets / cabinets and a sink. The advantage of having the sink outside of the toilet and shower area is that one occupant can use the sink while another is using the shower or toilet (a convenience that you don`t often find in traditional cruise ship staterooms). In addition the unique design of the stateroom provided much more storage space than is typically found in a conventional stateroom of similar dimensions. However despite that I found the stateroom to be very tight (particularly in the cabins that have the bed nearer to the entrance door than to the balcony door) and overall I must admit that I would have preferred a more conventionally designed stateroom configuration or one of the larger deluxe balcony (Category D) staterooms on the Epic).
This is a well built little `Pocket Cruiser.` At just over 320` in length overall it is a small cruise ship. Many experienced cruise passengers prefer smaller more intimate cruise ships for a variety of reasons. This ship can go places where the big cruise ships cannot reach such as shallow draft ports and even many rivers. It has an omni-directional bow thruster and can turn on a dime (relatively speaking of course). I have carefully examined this ship from the engine log to the ultrasound hull report. This is a sound and safe little cruise ship. It is also a very fuel efficient and economical ship. My first time on this ship was in the middle of the summer in Greece when it was very hot outside. The ship is fully air conditioned and it was cool and comfortable inside the ship. I checked the engine room to see how many generators were running. I am happy to report that all the electric and air-conditioning requirements can be met by running just one of the three Daihatsu generators. These generators are very economical to operate in terms of fuel consumption and maintenance.
For comparison purposes it is noteworthy that you have expenses in land based housing too. Those expenses include property taxes homeowners insurance maintenance and repairs yard care and utilities. Additionally you have transportation costs and of course food costs. Most people also spend money on entertainment too. When these expenses are added up the maintenance fees for living aboard a ship are comparable.
There is a company called Kiteship that has developed and produces kites for racing sailboats. These sailing kites do not require a mast. The kites fly high above the vessel attached by cable and controlled from the vessel. Dave Culp of Kiteship has done a technical feasibility study on fitting a very large kite onto a conventional cruise ship. This would dramatically reduce fuel consumption. It would convert a fuel guzzler to a green machine. This is tantamount to converting a powerboat into a sail boat. The design of a cruise ship limits the amount of sail that a conventional ship can safely accommodate. A cruise ship lacks the ballast of a sail boat. If used in addition to the main engine(s) the kite will increase fuel efficiency. If the kite is used to pull the ship with the main engines shut down the ship`s speed will be reduced substantially. However in this case not only would the ship save IFO (main engine fuel) but also save MDO (generator engine fuel). If the kite were pulling the ship unassisted by the ship`s engines then the propellers could be used to propel the ship`s generators without firing up the diesel generator engines. Even if the ship were traveling very slowly in the water the propellers would turn in reverse if freed from the main engines. This is a very simple and easy task for the ship`s engineer to accomplish. In other words the ship can be pulled by the kite and that motion will push the ship`s propellers providing power to produce electricity and power the air-conditioning without using any fuel. The trade-off is a loss of speed and also some tacking is required further reducing actual speed. What`s the rush? Why not go for maximum fuel savings? The salient point is that a high flying large kite can pull a cruise ship. If I were a co-owner of a cruise ship I would hope to find like minded co-owners who would be receptive to using such state-of-the-art technologies to save fuel.
After acquiring the ship it will require some more investment to put it into service. At this point the joint owners will need to reach some agreements on many points. The cost of putting a cruise ship into service as a megayacht (very large private yacht) is much less than putting the ship into commercial service. However if you can afford to buy a ship can easily meet SOLAS 2010 requirements and can afford to flag and register it as a commercial ship then you can use the ship commercially to produce income and ROI (return on investment).
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