-This paper demonstrates a demand side management case study: how to save energy and how research and data analysis help to create an energy management system in a pellet production facility; and shows ways to implement the EU energy efficiency directive in production facilities. The study carried out in this research serves as a far-reaching step that can be taken to improve energy efficiency during the operation mode of technological equipment. The benchmarking methodology is used for analysis of results.Internal and external factors and indicators, which affect energy management potential in pellet production are analysed. Analysis of external factors is based on the state legal framework regulating the development of the energy sector. Methodology on the analysis of energy demand includes the internal energy management of an enterprise. The experimental results discussed in this paper show that particular steps, which are oriented to specific use of technological equipment, could play significant role in energy efficiency improvement in industry which is illustrated by the pre-milling process in the pellet production system using power.
This study investigates the possibilities how to utilize the combined heat and power plant (CHP) excess heat in the industry during the hot periods of time when the heat demand is limited. in order to maximize the CHP electricity production the efficient heat load has to be increased. The goal of this article is to present the solution for the industrial CHP excess heat utilization for the local cooling. The study introduces the method and model of how to evaluate the industrial CHP plant potential and economical benefit for the production of local cooling from the excess heat.Key words: combined cooling, heat and power plant, energy efficiency, HVaC systems, industrial processes INTRODUCTIONCHP plants are widely used in the areas where there is a heat demand. They can be categorized into two categories depending on the nature of the heat consumer. Firstly, the district heating (DH) CHP plants which use the DH network to transfer the heat to the residential area which is either a city or a local settlement. Secondly, the industrial CHP, which produces the heat to the on-site industry or for the group of industries nearby. Depending on the industry production profile, the heat consumption is usually lower in the summertime whereas the cool ing demand is 137 Industrial CHP excess heat efficient usage for cooling the biggest. Therefore this makes the production of local cooling from the excess heat an efficient solution to improve the economical performance of the entire facility.The maximum heat production is limited in the summertime due to the decreased heat demand. Since the industrial CHP plants are mainly working with back pressure turbines, in order to maxi mize the thermodynamical efficiency, the electricity production will decrease accordingly during the periods of lower heat demand. Therefore, finding solutions to increase the heat load is a key factor for maximizing the CHP electricity production and hence the economical performance of the plant.technically a CHP plant can also operate in condensing mode during the summer period if the plant has sufficient auxiliary cooling devices. However, the relatively low electrical efficiency and low electricity market price do not cover the variable cost of the fuel. Utilizing the excess heat for producing local cooling enables the CHP to increase its electrical output. in an ideal case it could run as a base load plant which produces electricity on full load all year round maximizing the operational profit. Primarily, the additional income comes from increased electricity production. Some income would also come from savings on cooling costs that otherwise would be done with solely electricity driven chillers.Contribution of this study is to investigate the local absorption chiller profitability in wood industry under open electricity market conditions. in the 2nd section the previous research is introduced, in the 3rd section the CCHP operation in the open electricity market conditions is introduced, 4th section outlines the possibilities in the wood industry and...
This paper investigates the possibilities how to optimize the industrial combined heat and power plant (CHP) daily operations and decision making process. The aim of the paper is to develop a method for an economic optimization of the industrial CHP. The method takes into account the industrial production together with an energy production in order to maximize the global profit for the entire facility. The method utilizes the electricity spot market price variation for the benefit of the market participant.Index Terms--combined heat and power plant; demand side management; energy efficiency; industrial processes.
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