In pulp and paper mills, refineries, and chemical factories, cogeneration is still prevalent. In this type of industrial cogeneration, heat is often recovered at higher temperatures—likely above 100 degrees Celsius—and put to use for drying or process steam.Compared to low-grade waste heat, this is more valuable and adaptable, although there is a minor loss in power generation. Industrial CHP is more appealing now that there is a greater emphasis on sustainability because it has a lower carbon footprint than on-site fuel burning or steam generation and grid electricity import. Smaller industrial co-generation units are a viable off-grid solution for a range of remote applications to cut carbon emissions. These units have an output capacity of 5 MW to 25 MW. The bigger scale power that utilities normally have compared to the industry helps to offset the higher capital expenditures of high pressure. Compared to industrial operations, which deal with shutting down or starting up units that may represent a sizable percentage of either steam or power demand, utilities are less prone to experience abrupt load swings. The bagasse leftover from sugar refining, which is burned to create steam, is used as fuel for cogeneration in the sugarcane sector. It is possible to pass some steam via a turbine, which turns a generator and generates electricity.
Following are some comparisons between a heat pump and a CHP unit. The lost electrical generation is equivalent to using a heat pump to provide the same heat by taking electrical power from the generator running at a lower output temperature and higher efficiency if the exhaust steam from the turbo-generator must be taken at a higher temperature to supply thermal energy than the system would produce the majority of electricity at. At about 90 °C (194 °F), approximately 6 units of heat are typically made available for every unit of electrical power lost. Micro cogeneration, also known as micro combined heat and power, is a type of so-called distributed energy resource. A home or small business installation is typically less than 5 kW. Some of the energy produced by burning fuel is instead transformed into electricity in addition to heat, rather than just heating either air or water. If the grid management approves, this electricity may be resold into the electrical grid or used inside the home or company. Microturbines, internal combustion engines, Stirling engines, closed-cycle steam engines, and fuel cells are among the five different technologies used in micro combined heat power installations. When it comes to reducing carbon emissions, one author said in 2008 that Micro combined heat power based on Stirling engines is the most affordable of the so-called microgeneration technologies. According to a 2013 UK analysis by Ecuity Consulting, the most economical way to use gas to generate electricity at the residential level is through micro-combined heat power. But improvements in reciprocating engine technology are making CHP facilities more effective, especially in the biogas sector. Because it has been demonstrated that CHP and mini-combined heat power both lower emissions.
A heat recovery steam generator is a type of steam boiler that produces steam by heating water using hot exhaust gases from gas turbines or reciprocating engines in a combined heat and power plant. The steam is then utilized to power a steam turbine or to heat up an industrial process. The bulk of industrialized nations sources their energy needs from huge, centralized facilities with large electrical power production capabilities. Although these plants take advantage of economies of scale, they might need to transmit electricity across large distances, which could result in transmission losses. Due to restrictions in the local demand, cogeneration or trigeneration production may occasionally need to be reduced (e.g., heat or cooling production to match the demand).
Along with the benefits to the environment, cogeneration utilizing sugarcane bagasse offers advantages in terms of efficiency when compared to thermoelectric generation, thanks to the use of the generated energy. While some of the heat generated during thermoelectric generation is lost, with cogeneration, this heat may be utilized in the manufacturing processes, improving the process’ overall efficiencyn
Industrial applications under Cogeneration Phenomena Engr. Dr. Muhammad Nawaz Iqbal
on 02/02/2023