What are the issues when using Solar Cells in Ocean Environments?

AI Thread Summary
Using solar cells in ocean environments presents unique challenges, particularly in maintaining effective power extraction from surface areas due to factors like orientation towards the sun and potential obstructions from salt accumulation and debris. Mechanical stresses from storm conditions also pose risks to the durability and longevity of solar systems on buoys. The efficiency loss of solar cells in ocean settings compared to land is a key concern, with inquiries about how long these systems can maintain their efficiency. Some insights suggest that with proper techniques, solar power can be effectively utilized in autonomous ocean-based systems. Overall, while there are practical issues to consider, the consensus leans towards the feasibility of solar power in marine applications.
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This question would perhaps be an ocean engineering question, but since we don't have a forum for that, I thought mechanical engineers would have some idea about this. My background is electrical engineering, and I have little knowledge about the mechanical issues when operating at the surface in the ocean.

I am wondering how practical it is to use solar power in automomous, ocean-based systems like buoys. In particular, how much effective power can be extracted from a given surface area? Also, I'm wondering what practical issues there are. My questions are not related to the electrical side of things since I have a good idea of the operation and efficiency of solar cells; and, what I don't know, I can readily look up. The things that seem harder for me to figure out are the limitations due to difficulty of facing the cells toward the sun, and the likelyhood of salt-accumulation or bird "stuff" blocking the light. Also, I wonder about stresses in storm conditions, and how a system would survive for extended periods.

Can anyone address some of these issues, or any others issues I may not have thought of? Basically, I'm trying to figure out what net efficiency loss there is when using solar cells on the ocean surface compared to on land; and, for what period of time, the resulting efficiency could be maintained.
 
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These guys make some very good ones http://www.carmanah.com/Applications/Marine.aspx
I was talking to one of their engineers at a trade show once about all the work they did to test the panels batteries for that environment.
 
Thank you both for the information. The solar powered boat is very interesting and the solar panel information is useful if I get to the point of needing to do my own tests.

I was able to track down one paper (see attachment) that provided some hints about the information I'm searching for. See the section on "Solar Power System" if interested.

Does anyone have any more informaton like this? According to this paper, the use of solar power is very straightforward on an automonous buoy if some basic techniques are used. I'm curious if this is the general consensus, or has anyone experienced serious reliability and efficiency limitations in ocean applications?
 

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Thread 'Bubble formation in 4 mm gap vessel'

How did you find PF?: Via Google search Hi, I have a vessel I 3D printed to investigate single bubble rise. The vessel has a 4 mm gap separated by acrylic panels. This is essentially my viewing chamber where I can record the bubble motion. The vessel is open to atmosphere. The bubble generation mechanism is composed of a syringe pump and glass capillary tube (Internal Diameter of 0.45 mm). I connect a 1/4” air line hose from the syringe to the capillary The bubble is formed at the tip...
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Thread 'Physics of Stretch: What pressure does a band apply on a cylinder?'

Thread 'Physics of Stretch: What pressure does a band apply on a cylinder?'

Scenario 1 (figure 1) A continuous loop of elastic material is stretched around two metal bars. The top bar is attached to a load cell that reads force. The lower bar can be moved downwards to stretch the elastic material. The lower bar is moved downwards until the two bars are 1190mm apart, stretching the elastic material. The bars are 5mm thick, so the total internal loop length is 1200mm (1190mm + 5mm + 5mm). At this level of stretch, the load cell reads 45N tensile force. Key numbers...
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Thread 'Find 3D Printer & Software Resources for Prototype Creation'

I'd like to create a thread with links to 3-D Printer resources, including printers and software package suggestions. My motivations are selfish, as I have a 3-D printed project that I'm working on, and I'd like to buy a simple printer and use low cost software to make the first prototype. There are some previous threads about 3-D printing like this: https://www.physicsforums.com/threads/are-3d-printers-easy-to-use-yet.917489/ but none that address the overall topic (unless I've missed...
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