[1] https://www.dw.com/fa-ir/رشد-صفر-درصدی-ظرفیت-تولید-برق-ایران-در-آذرماه/a-60397101.
[2] Holmberg H., Tuomaala M., Haikonen T., Ahtila P., Allocation of fuel costs and CO2-emissions to heat and power in an industrial CHP plant: Case integrated pulp and paper mill, Appl. Energy, Vol. 93, pp. 614-623, 2012.
https://www.isna.ir/news/98041708450.
[3] Bertani A., Borghetti A., Alberto Nucci C., Management of low voltage grids with high penetration of distributed generation: Concepts, implementations and experiments, Cigré 2006 Session, Paris, France, 2006.
[4] Meybodi M. A., Behnia M., Impact of carbon tax on internal combustion engine size selection in a medium scale CHP system, Appl. Energy, Vol. 88, No. 12, pp. 5153-5163, 2011.
[5] Mago P. J., Chamra L. M., Moran A., Modeling of micro-cooling, heating, and power (micro-CHP) for residential or small commercial building applications, ASME 2006 International Mechanical Engineering Congress and Exposition, chicago, illinois, 2006.
[6] Peacock A. D., Newborough M., Impact of micro-CHP systems on domestic sector CO2 emissions, Applied Thermal Engineering, Vol. 25, No. 17–18, pp. 2653-2676, 2005.
[7] Popovic P., Marantan A., Radermacher R., Garland P., Integration of microturbine with single-effect exhaust-driven absorption chiller and solid wheel desiccant system, in ASHRAE Transactions, 2002.
[8] Sun Z. G., A combined heat and cold system driven by a gas industrial engine, Energy Conversion Management, Vol. 48, No. 2, pp. 366-369, 2007.
[9] Kong X. Q., Wang R. Z., Li Y., Huang X. H., Optimal operation of a micro-combined cooling, heating and power system driven by a gas engine, Energy Conversion. Management, Vol. 50, No. 3, pp. 530-538,2009.
[10] Kong X. Q., Wang R. Z., Huang X. H., Energy efficiency and economic feasibility of CCHP driven by stirling engine, Energy Conversion Management, Vol. 45, No. 9–10, pp. 1433-1442, 2004.
[11] Maidment G. G., Zhao X., Riffat S. B., Combined cooling and heating using a gas engine in a supermarket, Applied Energy, Vol. 68, No. 4, PP. 321-335, 2001.
[12] Gambini M., Vellini M., Stilo T., Manno M., Bellocchi S., High-efficiency cogeneration systems: The case of the paper industry in Italy, Energies, Vol. 12, No. 3, 2019.
[13] Skvorčinskienė R., Striūgas N., Kurkela E., Bakas R., Radinas M., Integration of waste heat streams into industrial chps or district heating units , 27th European Biomass Conference and Exhibition, 2019.
[14] Pastore L. M., lo Basso G., de Santoli L., Can the renewable energy share increase in electricity and gas grids takes out the competitiveness of gas-driven CHP plants for distributed generation, Energy, Vol. 256, No. 124659, 2022.
[15] Liu M., Liu M., Chen W., Yan J., Operational flexibility and operation optimization of CHP units supplying electricity and two-pressure steam, Energy, Vol. 263, No. 125988, 2023.
[16] Mishra V., Trimbake S., 4E analysis of DG set based micro combined heat and power (CHP) system and its employment for shelter heating in high altitude areas, Materials Today Proceedings, Vol. 72, pp. 1803–1810, 2023.
[17] Arakelyan E. K., Andryushin A. V., Mezin S. V., Pashchenko F. F., Kosoy A. A., Yagupova Y. Y., Problems of optimizing the modes of CHP with a complex composition of equipment, taking into account the peculiarities of the CCGT and steam power units operation, in IFAC-PapersOnLine, Vol. 54, No. 13, 2021.
)