MHI-MME and Wärtsilä put technologies together to boost EEDI

DECEMBER 12, 2017 — Under the terms of a recently signed MOU, Mitsubishi Heavy Industries Marine Machinery & Equipment Co. (MHI-MME) and Wärtsilä plan to combine innovative technologies from both companies to produce greater power generation capacity and higher propeller propulsion for marine vessels.

By integrating MHI-MME’s waste heat recovery and energy saving power generation system (WHRS) with Wärtsilä’s operational control technology for shaft generator systems, the new solution results in more energy efficient ship navigation and an improved Energy Efficiency Design Index (EEDI).

A notable innovation is the combining of a power take off/take in (PTO/PTI) shaft generator system with WHRS to improve the stability of the WHRS. Depending on the load of the main engine and the ship’s network, the WHRS sometimes produces electrical energy in excess of that needed by the network. That energy can be utilized via the PTO/PTI generator to drive the propeller shaft. At full load, the surplus energy can be used to assist the ship’s drive by being applied directly to the propeller shaft. At low main engine load, the WHRS can be operated in parallel with a diesel generator set. Parallel operation with a shaft generator via PTO operation is also easily implemented.

The patented design connects the WHRS generator into the DC link circuit of the PTO/PTI shaft generator rather than directly into the mains. This allows operation of the WHRS at reduced speed to create higher efficiency of the turbine system at part load. In so doing, it avoids the necessity of speed regulation valves, which cause throttle or bypass losses.

MHI-MME has various energy saving technologies and all of those fit for this new solution. One example is integration with MHI-MME’s power turbine generator and this combination enables to supply electricity across a range from approximately 500 to 2,000 kilowatts (kW), driven by gas extracted from a two-stroke main engine, via the PTO/PTI generator.

MHI-MME’s solutions have until now consisted of waste heat recovery systems and Organic Rankine Cycle (ORC) systems, which are small-scale binary power generation systems that efficiently recover and use extremely low-temperature heat sources. Applications have primarily focused on large container ships. Now, with addition of the latest solution, MHI-MME will offer an even wider array of energy-saving solutions for ships that have conventionally employed shaft generators, to help them comply with the more stringent environmental regulations to go into effect in the near future.