Flexible Power & Biomass-to-Methanol plants: Design optimization …
This paper assesses the optimal design criteria of a flexible power and biomass to methanol (PBtM) plant, conceived to operate both without green hydrogen addition (baseline mode) and with hydrogen addition (enhanced mode), following an intermittent use of the electrolysis system, which is turned on when the electricity price …
Design Optimization of Micro-hydro Power Plant
Abstract. This article deals with the design optimization of the micro-hydropower plant. This mini-power source is designed as an additional power source for small recreational objects or remote places with access to a water stream of flow rate approximately 0.4 m 3 /s. A paddle wheel with 3 m diameter is welded from sheet metal.
Optimization of Hydro-Power Plants for Generation
Table 1 provides this comparison for a range of Plant powers between 22 and 55 MW (2600- 5800 CFS) which, on average, accounts for roughly 5/6 of the time the plant spends generating. It shows that on average about a 2.3% improvement is expected over the 22 to 55 MW plant operating range.
Optimization of Biomass and Coal Mixtures on Co …
4.1 Power Plant Performance Analysis Result of Co-firing Optimization on HHV V ariable Based on the data in T able 2 and T able 4, it is found that the optimization results on the
(PDF) Performance Optimization of a Gas Turbine Power Plant Based …
Performance Optimization of a Gas Turbine Power Plant Based on Energy and Exergy Analysis. January 2016. Mahdi Ghamami. Abolfazl fayazi barjin. Saeed Behbahani. The purpose of this study is ...
Dynamic Optimization of a Subcritical Steam Power …
The manipulation of Tsp SH and Tsp Air led to a power plant efficiency improvement from 38.3% to 40.23%. This efficiency improvement translates to a fuel saving of 3.78%, with the fuel flow rate decreasing from 56.38 kg/s to 54.25 kg/s. The carbon footprint of the plant also decreased from 0.8 kg/kWh to 0.77 kg/kWh.
Modelling and optimization of transient processes in line …
A large number of commercial and research line focusing solar power plants are in operation and under development. Such plants include parabolic trough collecto. ... R. Pitz-Paal; Modelling and optimization of transient processes in line focusing power plants with single-phase heat transfer medium. AIP Conference …
Economic Evaluation of Plant Upgrades Using Plant …
The opti-mization software includes modeling of these contract features and predicts the plant rev-enues and expenses as operations change. The interaction of price levels and plant perform-ance is a key feature of the optimization. The procedure to perform an upgrade analysis is: Build a plant performance model.
Optimization of a 660 MWe Supercritical Power Plant Performance—A Case
Modern data analytics techniques and computationally inexpensive software tools are fueling the commercial applications of data-driven decision making and process optimization strategies for complex industrial operations. In this paper, modern and reliable process modeling techniques, i.e., multiple linear regression (MLR), artificial neural …
OPTIMIZATION OF THE TRIPLE-PRESSURE COMBINED …
The average life of the combined cycle power plant is 20 years. The power plant is in operation 7500 hours a year. Price of natural gas is cf = 0.0467 $/kWh. The installed costs of the economizer, evaporator, superheater, and reheat sections of the HRSG are 45.7, 34.8, 96.2, and 56.2 $/m2, respectively, [1].
Operation and performance of the Sishen jig plant
The objective of the Sishen Expansion Project (SEP), i.e. the jig plant, was to produce 10 Mt/a of saleable product with six modules to the set physical and chemical specifi-cations by 2009. During the start of construction, it was decided to add another two jig modules to the plant to increase production to 13 Mt/a.
Operation Controllable Index Optimization of Virtual Power Plant …
Virtual power plant adopts advanced communication mode and software system to aggregate distributed generation, energy storage system, controllable load, electric vehicle and a variety of distributed energy, so that it has sufficient capacity and stable output [].Like generation side distributed generation, demand side resources …
Maximization of the annual energy production of wind power plants …
The right subplot shows the difference in wind plant power with the result of optimization in step 2, i.e., the case where yaw angles are adjusted to wind direction only using the average wind speed for that direction. The middle plot shows that the power improvements that can be achieved with wake steering vary strongly with wind direction.
Performance optimization of hydroelectric power …
Wolf Optimization, Dragony Optimization, Grasshopper Optimization and Whale Optimization Algorithms are used optimization at dierent iterations and population sizes. The numerical result of the system may be utilized for designing the hydroelectric power plants and planning the maintenance strategies.
OPTIMIZATION OF THE TRIPLE-PRESSURE COMBINED CYCLE POWER PLANT
Modern combined cycle power plants with a triplepressure HRSG with steam reheat can easily reach thermal efficiencies above 55% [1]. Several studies have carried out thermodynamic and thermoeconomic optimizations of CCGTs. Valdes et al. [2] performed a thermoeconomic optimization of combined cycle gas turbine power plants using a …
(PDF) Joint Scheduling Optimization of Virtual Power Plants …
Joint Scheduling Optimization of Virtual Power Plants and Equitable Profit Distribution Using Shapely Value Theory Zhong-fu Tan, 1,2 Huan-huan Li, 1 Li-wei Ju, 3,4 and Qing-kun Tan 1
OPTIMIZATION OF TECHNOLOGICAL JIGS FLOW IN …
This paper deals with the optimization of the flow of technological jigs at the workplace of the paint shop in a company that is oriented to the automotive industry. The design of an …
Dynamics optimization of small branch pipes in nuclear power plants …
To address these challenges, this study proposes a comprehensive analysis and optimization of the dynamic behavior of small branch pipes in nuclear power plants, using advanced machine learning algorithms - specifically, the Backpropagation Artificial Neural Network (BP-ANN) and the Non-dominated Sorting Genetic Algorithm II (NSGA-II).
Power plant optimization software from KYOS for optimal plant …
KyPlant supports traders and plant owners in power markets. First of all, the power plant optimization software determines the value of power plants by quickly calculating the optimal dispatch. It also supports trading decisions and reports exposures. The real options-based model combines actual plant and contract characteristics with realistic ...
Optimization of the Design and Partial-Load Operation of Power Plants …
Mixed-integer optimization has also been applied to include routing and location problems into the optimization process, e.g. for biodiesel [18] and power plant operation [19]. However, in the ...
Power Plant Optimisation—Effective Use of the …
This paper demonstrates the use of a combined software package including IPSEpro and MATLAB in the optimisation of a modern thermal cycle. A 900 MW power plant unit (operating at ultra …
OPTIMIZATION OF TECHNOLOGICAL JIGS FLOW IN
DOI: 10.22306/al.v7i2.167 Corpus ID: 225680941; OPTIMIZATION OF TECHNOLOGICAL JIGS FLOW IN AUTOMOTIVE USING SOFTWARE MODULE TECNOMATIX PLANT SIMULATION @article{Pekarcikova2020OPTIMIZATIONOT, title={OPTIMIZATION OF TECHNOLOGICAL JIGS FLOW IN AUTOMOTIVE USING …
Role of Feed Characteristics in Jigging Plant Optimisation
This improved control system is used to modulate the amplitude and the frequency of the jig cycle. These two prime parameters are optimised with respect to feed characteristics for …
OPTIMIZATION OF INTEGRATED STEEL PLANTS …
Keywords: operation cost optimization, strategic planning, optimization, raw material procurement, life cycle assessment. 1. INTRODUCTION. Iron and steel making requires a wide range of different raw materials which are significantly influencing process performance resulting in a demand for a continuous optimisation of process routes.
Digital Strategies for Power Plant Optimization
The system consolidates several data sources including plant equipment, power meters, field flow instruments, and real-time and day-ahead fuel price information (including ultralow-sulfur diesel ...
Exergy analysis and optimization of the Rankine cycle in steam power
For evaluating the exergy and performing the optimization process, Zarand Power Plant in the Kerman Province was selected as a case study. Zarand is a Rankine cycle steam power plant, which enjoys two similar units each with a capacity of 30 MW. The flow diagram of the power plant is shown in Figure 1. The inlet water of the boiler …
Exergetic optimization of single level combined gas–steam …
The present study concerns a combined cycle power plant with a single level HRSG, the main goal being the development of a mathematical model to find the optimal …
Steam system optimization of an industrial heat and power plant
The primary function of the steam generation system is to convert chemical energy. bound in the fuel to produce steam at high pressure and temperature. Steam is a key work. fluid in the indust ry ...
Profit Allocation Strategy of Virtual Power Plant Based on …
A virtual power plant (VPP) can aggregate distributed renewable energy and flexible load to participate in the electricity market as a virtual controllable assembly.