Power Plant Engineering
COGENERATION TECHNOLOGIES
Download 3.45 Mb. Pdf ko'rish
|
Power-Plant-Engineering
|
9.5.2 COGENERATION TECHNOLOGIES
(a) Gas Engines. The most common type of combined heat and power production in Denmark is connected to gas-fired internal combustion engines, which is a well-known technology. They can be found on the market at sizes from 7 kW power to about 4 mW power, and the power efficiency is good 20% for the small engines and over 40% for the largest. As power production is viewed as the main purpose, it is important that the power efficiency is continuously increased. The lower limit for a profitable cogeneration plant is a heat demand of 15,000 m natural gas per year and a power consumption of 50,000 kWh per year with the current engines at the market. The gas engine fuel is mainly natural gas and it will remain like this for several years. A few plants are based on biogas, which will gain increased utilization, while various types of biogas plants are developed and established. It is assumed that gas from thermal gasification of straw and wood will also spread as fuel for stationary cogeneration plants during the coming years. There are some differences between cogeneration plants according to operation strategy. The larger plants, typically connected to a district heating plant or an industrial company, are mainly in operation during daytime at weekdays. It is because the payment for power is most favourable at that time, which again is due to that the capacity is paid for during the periods with high consumption. In these cases the cogeneration plant produces heat both for covering the actual consumption and for storage in large water storages. The storages are then emptied for heat at night and during the weekend. It is a political request that 90% of the annual heat consumption must be supplied from the engine; a gas boiler supplies the rest. This operation strategy is only realistic when using natural gas as fuel, as there is enough at a certain time. Contrary to continuously gas production from a biogas or gasification plant. On the other hand, the demand for a variable power production will increase, when cogeneration plants with variable production are established. The smaller plants are typically base load plants that operate day and night. They supply power to own installations and cover the power consumption. In this case the plant has 2 power meters; one that registers buy from the power utility when the consumption exceeds the production, and another that registers sale when own consumption is less than the actual production. GAS TURBINE POWER PLANT 281 This type of cogeneration plants has severe environmental and resource advantages. Natural gas is the least polluting of the fossil fuels. It is partly due to the relatively high hydrogen content that becomes water in the combustion. The CO 2 emission from natural gas is therefore smaller than from oil and coal. The NO x pollution from the engines are reduced according to authorities’ demand by mounting a 3-way catalyzer or more often by using low-NO x engines (lean burn). The smallest engines are excepted from these requirements. According to resources, the advantage is as already mentioned a higher energy efficiency than at centralized thermal power plants. Download 3.45 Mb. Do'stlaringiz bilan baham: 
|