diesel-gas turbine power plant

简明释义

柴油机燃气轮机联合动力装置

英英释义

例句

1.Our city is investing in a diesel-gas turbine power plant 柴油-燃气涡轮发电厂 to ensure reliable energy supply during peak hours.

我们城市正在投资建设一个柴油-燃气涡轮发电厂以确保高峰时段的可靠能源供应。

2.After extensive testing, the diesel-gas turbine power plant 柴油-燃气涡轮发电厂 was approved for commercial operation.

经过广泛测试，柴油-燃气涡轮发电厂获得了商业运营的批准。

3.The efficiency of the diesel-gas turbine power plant 柴油-燃气涡轮发电厂 makes it a preferred choice for many industrial applications.

由于效率高，柴油-燃气涡轮发电厂成为许多工业应用的首选。

4.The new diesel-gas turbine power plant 柴油-燃气涡轮发电厂 has significantly reduced emissions compared to older facilities.

新建的柴油-燃气涡轮发电厂比旧设施显著降低了排放。

5.The diesel-gas turbine power plant 柴油-燃气涡轮发电厂 can quickly ramp up production to meet sudden increases in demand.

柴油-燃气涡轮发电厂能够快速提高产量以满足需求的突然增加。

作文

In the modern world, energy production is a crucial aspect of our daily lives. One of the most efficient and versatile methods of generating electricity is through a diesel-gas turbine power plant. This type of power plant combines the benefits of diesel engines and gas turbines to produce energy more effectively than traditional methods. Understanding how a diesel-gas turbine power plant works can provide insights into its advantages and applications in today's energy landscape.A diesel-gas turbine power plant primarily utilizes two types of engines: diesel engines and gas turbines. Diesel engines are known for their reliability and efficiency in converting fuel into mechanical energy. On the other hand, gas turbines are favored for their high power-to-weight ratio and ability to operate at high speeds. By integrating these two technologies, a diesel-gas turbine power plant can achieve optimal performance in various conditions.The operation of a diesel-gas turbine power plant begins with the combustion of diesel fuel in the diesel engine. This process generates mechanical energy, which then drives the gas turbine. The gas turbine, in turn, converts this mechanical energy into electrical energy. This dual-cycle approach not only enhances the overall efficiency of the power plant but also allows for greater flexibility in fuel usage. The ability to switch between diesel and natural gas as fuel sources makes the diesel-gas turbine power plant an attractive option for many energy providers.One of the significant advantages of a diesel-gas turbine power plant is its ability to provide reliable power generation, especially in remote areas where access to a stable electricity supply may be limited. These power plants can be deployed quickly and can operate independently of the main power grid. This characteristic is particularly valuable in emergency situations or during natural disasters when conventional power sources may be compromised.Moreover, a diesel-gas turbine power plant is capable of responding rapidly to changes in electricity demand. Unlike coal-fired power plants, which require lengthy start-up times, diesel-gas turbine power plants can adjust their output almost instantaneously. This flexibility makes them ideal for balancing the grid and ensuring a stable supply of electricity, especially as renewable energy sources like wind and solar become more prevalent.Despite their many advantages, diesel-gas turbine power plants are not without challenges. Environmental concerns related to emissions from diesel combustion have led to increased scrutiny and regulation. As a result, many power plants are being retrofitted with advanced emission control technologies to minimize their environmental impact. Additionally, the fluctuating prices of diesel fuel can affect the economic viability of these power plants, prompting operators to seek alternative fuel sources.In conclusion, the diesel-gas turbine power plant represents a significant advancement in energy generation technology. Its unique combination of diesel and gas turbine systems allows for efficient, reliable, and flexible power production. As the world continues to grapple with energy demands and environmental challenges, understanding and optimizing the use of diesel-gas turbine power plants will be essential for meeting our future energy needs. With ongoing innovations and improvements in technology, these power plants will likely play a vital role in the transition to a more sustainable energy landscape.

在现代社会，能源生产是我们日常生活中至关重要的一个方面。生成电力最有效和多功能的方法之一是通过柴油-燃气涡轮发电厂。这种类型的发电厂结合了柴油发动机和燃气涡轮的优点，以比传统方法更有效地生产能源。理解柴油-燃气涡轮发电厂的工作原理可以为我们提供对其优势和在当今能源格局中的应用的深入了解。柴油-燃气涡轮发电厂主要利用两种类型的发动机：柴油发动机和燃气涡轮。柴油发动机以其可靠性和燃料转化为机械能的效率而闻名。而燃气涡轮因其高功率重量比和高速度运行能力而受到青睐。通过整合这两种技术，柴油-燃气涡轮发电厂能够在各种条件下实现最佳性能。柴油-燃气涡轮发电厂的操作始于柴油燃料在柴油发动机中的燃烧。这个过程产生机械能，然后驱动燃气涡轮。燃气涡轮进一步将这些机械能转换为电能。这种双循环的方法不仅提高了发电厂的整体效率，而且还允许在燃料使用上具有更大的灵活性。能够在柴油和天然气之间切换作为燃料来源，使柴油-燃气涡轮发电厂成为许多能源供应商的有吸引力的选择。柴油-燃气涡轮发电厂的一个显著优势是它能够提供可靠的电力生产，特别是在偏远地区，那里稳定电力供应的获取可能有限。这些发电厂可以迅速部署，并且可以独立于主电网运行。这一特性在紧急情况下或自然灾害发生时尤其有价值，因为此时常规电源可能会受到影响。此外，柴油-燃气涡轮发电厂能够快速响应电力需求的变化。与需要较长启动时间的煤电厂不同，柴油-燃气涡轮发电厂几乎可以瞬时调整其输出。这种灵活性使它们非常适合平衡电网并确保电力供应的稳定，尤其是在风能和太阳能等可再生能源变得越来越普遍的情况下。尽管具有许多优势，柴油-燃气涡轮发电厂也面临挑战。与柴油燃烧相关的排放环境问题导致了对其的审查和监管增加。因此，许多发电厂正在进行改造，配备先进的排放控制技术，以最大限度地减少其对环境的影响。此外，柴油燃料价格的波动可能会影响这些发电厂的经济可行性，促使运营商寻求替代燃料来源。总之，柴油-燃气涡轮发电厂代表了能源生成技术的重大进步。其独特的柴油和燃气涡轮系统的组合使得高效、可靠和灵活的电力生产成为可能。随着全球继续应对能源需求和环境挑战，理解和优化柴油-燃气涡轮发电厂的使用对于满足我们未来的能源需求至关重要。随着技术的不断创新和改进，这些发电厂很可能在向更可持续的能源格局过渡中发挥重要作用。