References
- 1. Paszota Z.: Energy-saving structures of hydrostatic drives for ship deck machines. Polish Maritime Research, Vol. 7, No 1, 2000, pp. 3-9.
- 2. Paszota Z.: Energy efficiency of hydraulic cylinders in servo-mechanism. Conference proceedings. International XIX Scientific Conference of Naval Architects and Marine Engineers “Marine Technology on the Theshold of XXI Century - Marine Technology 2000”. May 4-6, 2000, Szczecin-Dziwnowek, Poland. Szczecin Technical University, Pol. Acad. Sci., Soc. Pol Naval Arch. Marine Eng. KORAB. 2000, pp. 139-147.
- 3. Paszota Z.: Hydraulic proportional control of the cylinder with a variable pressure overflow valve - a model of the energy efficiency of the system. Chapter in the monograph: “Research, design, manufacturing and operation of hydraulic systems”, Edward Palczak editor, “Cylinder” Library (in Polish), Centrum Mechanizacji Gornictwa „Komag”, Gliwice 2001, pp. 55-67.
- 4. Paszota Z.: Energy - Saving Supply Structures of the Throttling Directional Control Valve in the System of Proportional Control of the Linear Hydraulic Motor. [Proceedings] Viertes Deutch - Polnisches Seminar “Innovation und Fortschritt in der Fluidtechnik”, Sopot, 20-21 September 2001, Technische Universitat Warszawa, Fakultat fur Mechatronik, Institut fur Automatik und Robotik, pp. 90-100.
- 5. Paszota Z.: Energy aspects of hydrostatic drives. Polish Maritime Research, Vol. 10, No 2 2003, pp. 18-20.
- 6. Paszota Z.: An Energy Behaviour Comparison of two Kinds of Hydrostatic Drive of Ship Deck Machines. Brodogradnja - Journal of Naval Architecture and Shipbuilding Industry, Brodarski Institut Zagreb, Vol. 52, No 3, 2004, pp. 213-222.
- 7. Paszota Z.: Model of losses and energy efficiency of a hydraulic system with proportional control of the cylinder fed by a constant capacity pump in a variable pressure system. Chapter in the monograph: ”Research, design, manufacturing and operation of hydraulic systems”, Edward Palczak editor, “Cylinder” Library (in Polish), Centrum Mechanizacji Gornictwa „Komag”, Gliwice, 2005, pp. 145-162.
- 8. Paszota Z.: Energy Saving in a Hydraulic Servomechanism System - Theory and Examples of Laboratory Verification. Brodogradnja, Journal of Naval Architecture and Shipbuilding Industry, Zagreb, Vol. 58, No 2, 2007, pp. 146-157.
- 9. Paszota Z.: Power of energy losses in the hydrostatic drive system elements - definitions, relations, change ranges, energy efficiencies. Part II - Conduits, throttling control assembly, pump, Chapter in the monograph: “Research, design, manufacturing and operation of hydraulic systems”, Andrzej Meder and Adam Klich editors, “Cylinder” Library (in Polish), Centrum Mechanizacji Gornictwa „Komag”, Gliwice, 2007, pp. 121-139.
- 10. Paszota Z.: Graphical presentation of the power of energy losses and power developed in the hydrostatic drive and control system elements. Part I - Systems with the series throttling control of the hydraulic rotational motor speed, Chapter in the monograph: “Research, design, manufacturing and operation of hydraulic systems”, Adam Klich, Edward Palczak and Andrzej Meder editors, “Cylinder” Library (in Polish), Centrum Mechanizacji Gornictwa „Komag”, Gliwice, 2008, pp. 121-139.
- 11. Paszota Z.: Losses and energy efficiency of hydraulic motors and drive systems (in Polish). Drive and Control, No. 5, 2013, pp. 82-90.
- 12. Paszota Z.: Losses and energy efficiency of drive motors and systems. Replacement of the Sankey diagram of power decrease in the direction of power flow by a diagram of power increase opposite to the direction of power flow opens a new perspective of research of drive motors and systems. Polish Maritime Research, Vol.20, No 1 (77), 2013, pp. 3-10.
- 13. Paszota Z.: Energy losses in hydrostatic drive. Monography, LAP Lambert, Acadamic Publishing, 2016.
- 14. Skorek G.: Energy characteristics of the hydraulic system with proportional control of cylinder, fed by a constant capacity pump in a constant pressure and variable pressure system (in Polish). Doctor dissertation. Gdansk University of Technology, Faculty of Ocean Engineering and Ship Technology, 2010.
- 15. Skorek G.: Energy efficiency of a hydrostatic drive with proportional control compared with volumetric control. Polish Maritime Research, Vol. 20, No 3 (79), 2013, pp. 14-19.
- 16. Quan Z., Quan L., Zhang J.: Review of energy efficient direct pump controlled cylinder electro-hydraulic technology. Renewable and Sustainable Energy Reviews, Elsevier, Vol. 35, 2014, pp. 336-346.