We are looking for Solar MARS 100 Gas Tubines
Price, availability, general conditionms, number of hrs of peration, year of manufactured for the (3) Solar MARS 100 gas tubines
Kristo Regjo - U.S.A
The Solar MARS 100 is a type of gas turbine produced by Solar Turbines, a subsidiary of Caterpillar Inc. The MARS (Mobile Auxiliary Power) turbine family is designed for various applications, including power generation, mechanical drive, and marine propulsion.
Here are some key features and details about the Solar MARS 100 gas turbine:
Power Output: The MARS 100 gas turbine is capable of producing approximately 10 megawatts (MW) of power. It is considered a compact and medium-sized turbine in Solar Turbines' product lineup.
Efficiency and Flexibility: The MARS 100 is known for its high efficiency and flexibility. It offers quick-start capabilities, allowing for rapid response to changing power demands. The turbine can also operate on a wide range of gaseous and liquid fuels, providing versatility in different applications and locations.
Combined Heat and Power (CHP): The MARS 100 turbine is often used in combined heat and power systems, also known as cogeneration. In these systems, the turbine's exhaust heat is captured and utilized to generate steam or hot water for industrial processes or heating purposes, increasing overall energy efficiency.
Applications: The MARS 100 gas turbine is commonly employed in various industries, including oil and gas, utilities, manufacturing, and district heating. It can be used for onshore and offshore power generation, as well as mechanical drive applications in pumps, compressors, and other equipment.
Reliability and Maintenance: Solar Turbines' gas turbines, including the MARS 100, are renowned for their reliability and durability. They are designed for continuous operation in demanding environments and undergo rigorous testing and quality control measures. The turbines also feature advanced diagnostic systems for condition monitoring and predictive maintenance.
The Solar MARS 100 gas turbine is a well-established technology that offers efficient and flexible power generation solutions across different sectors. Its compact design, combined with its ability to operate on various fuels, makes it a popular choice for distributed power generation and cogeneration applications.
The Solar MARS 100 gas turbine is known for its high efficiency, which contributes to its popularity in power generation and cogeneration applications. The efficiency of the turbine can be measured in two primary ways: thermal efficiency and overall efficiency.
Thermal Efficiency: The thermal efficiency of a gas turbine represents how effectively it converts the chemical energy in fuel into useful mechanical or electrical power. The MARS 100 gas turbine achieves a thermal efficiency of around 35 to 40 percent. This means that 35 to 40 percent of the energy content in the fuel is converted into mechanical or electrical power.
Overall Efficiency: The overall efficiency of the MARS 100 turbine takes into account the additional benefits derived from combined heat and power (CHP) applications. In cogeneration systems, the turbine's exhaust heat is captured and utilized to generate steam or hot water for various industrial processes or heating purposes. This utilization of waste heat increases the overall energy efficiency of the system. The overall efficiency of a MARS 100 gas turbine in a cogeneration configuration can reach up to 80 percent or more, considering the combined electrical and thermal energy output.
It's important to note that the efficiency of a gas turbine can vary depending on several factors, including operating conditions, maintenance practices, ambient temperature, fuel quality, and specific configuration of the system. Additionally, advancements in technology and design may lead to improvements in the efficiency of newer models or variants of the MARS 100 turbine.
Solar Turbines focuses on continuous research and development to enhance the efficiency and performance of their gas turbines, including the MARS 100, to meet the evolving energy needs of various industries while reducing environmental impact.