Techno-Economic Analysis of the Modernization Options of a Gas Turbine Power Plant Using Aspen HYSYS

Umyshev D.R. Osipov E.V. Kibarin A.A. Korobkov M.S. Khodanova T.V. Duisenbek Z.S.
March 2023 MDPI

Energies
2023 #16 Issue 6

Currently, 90% of Kazakhstan’s oil is situated in 15 oil and gas fields where simple cycle gas turbines are utilized for electricity generation. The need for developing techniques to enhance the efficiency and eco-friendliness of fuel consumption in Kazakhstan’s oil fields is imperative. In this article, methods for improving the energy efficiency of a simple gas turbine power plant functioning in an oil field are discussed, with consideration given to the impact of ambient temperature and specific environmental constraints, such as water scarcity and high temperatures. Two schemes to increase efficiency are evaluated: the first involves the utilization of a waste heat boiler for steam production intended for technological purposes, while the second involves electricity generation through a combination of a waste heat boiler and a steam turbine. Models based on Aspen HYSYS were formulated, with actual gas turbine power plant operation taken into account. Analysis indicated that a waste heat boiler scheme could generate up to 350 t/h of steam, completely replacing power boilers. Im plementation of the combined cycle power plant (CCPP) system resulted in the production of up to 262.42 MW of electricity. Environmental analyses demonstrated that both schemes exhibit comparable specific emissions in terms of power generation, with 0.56 kgCO₂/kWh for HRSG and 0.53 kgCO₂/kWh for CCPP. Technological, environmental, and economic analyses were conducted to determine the most promising technology, considering the specifics of the oil fields in Kazakhstan. Based on the payback period for HRSG (4 years) and CCPP (7 years) options, it was deduced that the former is the most favorable for implementation

Aspen HYSYS , CHP , CO₂ , gas turbine , HRSG , NOx

Text of the article Перейти на текст статьи

Department of Thermal Power Plants, Institute of Heat Power Engineering and Control Systems, Almaty University of Power Engineering and Telecommunications, Almaty, 050013, Kazakhstan
Mechanical Engineering for Chemical Industry, Institute of Mechanical Engineering for Chemical and Petrochemical Industry, Kazan National Research Technological University, Kazan, 420015, Russian Federation

Department of Thermal Power Plants
Mechanical Engineering for Chemical Industry

10 лет помогаем публиковать статьи Международный издатель

Книга Публикация научной статьи Волощук 2026 Book Publication of a scientific article 2026