Re 29.Synthetic Fiber Ropes [97]Nitrocefin web Figure 30.Deadweight [98]Figure 31.Drag Anchors [99]Figure 32.Plate
Re 29.Synthetic Fiber Ropes [97]Figure 30.Deadweight [98]Figure 31.Drag Anchors [99]Figure 32.Plate Anchors [100]Figure 33.Pile Anchors [10109]Figure 34.Anchors [100] O’Loughlin, 2014 soil and is installed in unique methods. -Cylindrical with an open finish and made of steel. Pile Anchors Energies 2021, 14, 6988 -Can penetrate in to the soil by using a diverse [10109] installation procedure.20 ofFigureEnergies 2021, 14, x FOR PEER REVIEWEnergies 2021, 14, x FOR PEER REVIEW21 ofFigure Zon op Zee (Solar-at-Sea). Figure 20. 20. Zon op Zee (Solar-at-Sea).Figure 21. HelioFloat offshore platform. Figure 21. HelioFloat offshore platform. Figure 21. HelioFloat offshore platform.Figure22. Floating Solar Park. Figure 22. Floating Solar Park. Figure 22. Floating Solar Park.Energies 2021, 14,21 ofFigure 22. Floating Solar Park. Figure 22. Floating Solar Park.Figure 23. Figure 23. SolarSea. Figure 23. SolarSea. SolarSea.nergies 2021, 14, x FOR PEER REVIEWFigure 24. Ocean Figure 24. OceanSun. Figure 24. Ocean Sun. Sun.22 oFigure 25. Catenary mooring system.Figure 25. Catenary mooring system.Energies 2021, 14,Figure 25. Catenary mooring method. Figure 25. Catenary mooring method.22 ofFigure 26. Taut mooring technique.Figure 26. Taut mooring method.Figure 26. Taut mooring technique.Energies 2021, 14, x FOR PEER REVIEW23 ofFigure 27.27. Hybridmooringsystem. Figure Hybrid mooring program. Figure 27. Hybrid mooring program.Figure 28. (a) Stud-link chain and (b) Studless Figure 28. (a) Stud-link chain and (b) Studless chain. chain.Energies 2021, 14,23 ofFigure 28. (a)(a) Stud-link chain and (b) Studless chain. Figure 28. Stud-link chain and (b) Studless chain.Figure 29. Wire rope. Figure 29. Wire rope. Figure 29. Wire rope.021, 14, x FOR PEER REVIEW24 ofFigure 30. Synthetic fiber ropes. Figure 30. Synthetic fiber ropes. Figure 30. Synthetic fiber ropes.Figure 31. Deadweight anchors.Figure 31. Deadweight anchors.Energies 2021, 14,24 ofFigure 31. Deadweight anchors. Figure 31. Deadweight anchors.Figure 32. (a) Drag anchor and (b) vertical load anchor. anchor. Figure 32. (a) Drag anchor (b) (b) vertical load Figure 32. (a) Drag anchor andand vertical load anchor.Energies 2021, 14, x FOR PEER Overview Figure 33. Plate anchor. Figure 33. Plate anchor.25 ofFigure 33. Plate anchor.Figure 34. Pile anchor, torpedo anchor, and screw oror helicoidal anchor respectively [101]. (a) Pile Figure 34. Pile anchor, torpedo anchor, and screw helicoidal anchor respectively [101]. (a) Pile anchor, (b) torpedo anchor, and (c) screw or helicoidal anchor respectively. anchor, (b) torpedo anchor, and (c) screw or helicoidal anchor respectively.For PV modules, according to IRENA [88], further development on the solar PV market will probably be largely due to lowering the balance of systems (BoS), which can be the primary cause for just about the complete total installed program price, and has essentially the most possible to lessen the price. To achieve this, lower cost cell components, MNITMT manufacturer decreasing the cost for making cells, and growing cell efficiency levels, have to all be integrated. In this field, the technologies hasEnergies 2021, 14,25 ofFor PV modules, according to IRENA [88], further development in the solar PV business might be largely as a result of decreasing the balance of systems (BoS), which can be the key purpose for practically the entire total installed system price, and has one of the most potential to lessen the price. To attain this, decrease price cell components, decreasing the cost for producing cells, and growing cell efficiency levels, ought to all be i.
