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Florence, Italy

Riccardo Bagagli

USPTO Granted Patents = 16 (Patent Applications = 8)

CIPO Patents = 13 (Patent Applications = 5)

EPO Patents = 18 (Patent Applications = 26)

Average Co-Inventor Count = 2.8

ph-index = 4

Forward Citations = 65(Granted Patents)

Location History:

Firenze, IT (2019)
Florence, IT (2015 - 2024)

Company Filing History:

Nuovo Pignone Srl

Nuovo Pignone Spa

Nuovo Pignone Tecnologie Srl

4. 1 out of 832,880

Other

patents

Years Active: 2015-2024

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16 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 12044150 - Plant based upon combined Joule-Brayton and Rankine cycles working with directly coupled reciprocating machines (2024-07-23),

2. 11306707 - Method for reducing the pulsation level in a multi-compressor plant employing reciprocating compressors (2022-04-19),

3. 10830231 - Positive drive actuated valve for reciprocating compressor and method (2020-11-10),

4. 10711776 - Reciprocating compressors having timing valves and related methods (2020-07-14),

5. 10578091 - Fluid flow adapter for a cylinder of a reciprocating compressor (2020-03-03),

6. 10563645 - Devices and methods for actuating valves (2020-02-18),

7. 10267308 - Crosshead-piston rod assembly for a reciprocating compressor (2019-04-23),

8. 10253765 - Valves with valve closing member attached to the actuated counter-seat and related methods (2019-04-09),

9. 10253760 - Adjusting opening times of a cam actuated valve, reciprocating compressor and method (2019-04-09),

10. 10184464 - Electromagnetic actuator and inertia conservation device for a reciprocating compressor (2019-01-22),

11. 10030638 - Electromagnetic actuator for a reciprocating compressor (2018-07-24),

12. 9874286 - Differential pressure valve with reduced spring-surge and method for reducing spring surge (2018-01-23),

13. 9790932 - Translo-rotating actuated rotary valves for reciprocating compressors and related methods (2017-10-17),

14. 9765770 - Automatic valve with a spring holder ring (2017-09-19),

15. 9297373 - Differential pressure valve with parallel biasing springs and method for reducing spring surge (2016-03-29),

Title: Riccardo Bagagli: Innovator in Waste Heat Recovery Systems

Introduction

Riccardo Bagagli is a prominent inventor based in Florence, Italy, known for his significant contributions to the field of energy recovery systems. With a total of 16 patents to his name, Bagagli has made remarkable advancements in the integration of various thermodynamic cycles.

Latest Patents

One of his latest patents is titled "Plant based upon combined Joule-Brayton and Rankine cycles working with directly coupled reciprocating machines." This invention focuses on a waste heat recovery cycle system that operates by combining a Brayton cycle with a Rankine cycle. The system is designed to recover waste heat from exhaust gases by circulating an inert gas, which is heated and then used to heat a second fluid in a heat exchanger. This innovative approach allows for efficient energy recovery and utilization.

Another notable patent is the "Method for reducing the pulsation level in a multi-compressor plant employing reciprocating compressors." This method addresses the challenge of pulsation levels in multi-compressor systems by synchronizing the motors of each compressor with a specified phase shift. This synchronization helps to minimize pulsation and improve the overall efficiency of the system.

Career Highlights

Throughout his career, Riccardo Bagagli has worked with notable companies such as Nuovo Pignone Srl and Nuovo Pignone Spa. His experience in these organizations has allowed him to develop and refine his innovative ideas in energy systems.

Collaborations

Bagagli has collaborated with esteemed colleagues, including Leonardo Tognarelli and Alberto Babbini. Their combined expertise has contributed to the successful development of various projects and patents.

Conclusion

Riccardo Bagagli stands out as a key figure in the field of energy recovery, with a strong portfolio of patents that reflect his innovative spirit and technical expertise. His work continues to influence advancements in waste heat recovery systems, showcasing the importance of innovation in sustainable energy solutions.

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