Sharif Digital Repository

In recent decades smart grid is considered as a remedy for energy sector problems, where using telecommunication grids, most grid point data would be available. The data availability gives the opportunity to manage the network more efficient as each agent could reach to the desired information and react to it for better performance.
In this research a mathematical model is developed to model the smart grid, considering consumer, producer and the electricity market. Each of consumer and producer models could calculate its optimum working conditions separately. Using smart grid, data transition among the models would be possible and each part could react to the data and adjust its... 

Due to the growth of energy consumption the use of new technologies and efficient energy conversion is necessary. An example of efficient energy conversion technology is CCHP (Combined Cooling, Heating and Power). The aim of the present research work is to develop a model that could be applied for optimal design of a hybrid CCHP system which would be Solar Combined Cooling, Heating and Power (SCCHP). In order to do so,microturbine power system, cooling and heating equipment’s such as absorption system and heat exchanger and also solar collector have been considered as an integral part of the system. The objective of the application of the model has been to identify proper sizing of all... 

The purpose of the present study is to plan an industrial system, over a period of 10 years, so that over time, while supplying the required demand, to optimal resource utilization with regard to material reuse and recovery flows of losses as well as the use of renewable resources move to implement the concept of a circular economy. One of the main incentives for the transition to a circular economy is carbon tax policy, which has been taken into account. The results of the decision-making model based on cost and flow constraints indicate that the use of carbon dioxide as a by-product of Pars Petrochemical Extraction Unit in order to produce urea in Pardis petrochemical industry in addition... 

The objective of the present study is the development of an optimization model to identify the best configuration of renewable-based integrated energy systems. The system includes a combination of renewable energy systems such as wind, solar, hydropower and hydrogen production, storage facilities, and conventional fossil-fuel generators. The developed tool consists of various modules where water-heating assumes the utilization of waste energy as an option. Furthermore, the application, which is demonstrated for a case study in Tehran has been considered. The power exchange with the distribution network and injection of hydrogen produced from excess renewable sources into gas network are... 

Buildings are responsible for 40% of total energy consumption worldwide. A significant portion of this energy contributes to building temperature control, and energy storage is an effective way to reduce energy consumption and to levelize the supply of heat load. A solution for reducing energy consumption in the building is to increase the thermal inertia of the building and to store energy using smart materials in the building components. Materials with phase change can stabilize the internal temperature of the building.In the present study, model is exmined with the help of modeling the thermal behavior of a room in Tehran in summer, using MATLAB software. The problem is solved by the... 

The building sector consumes a significant amount of potable water. It also consumes 30-40% of the world's end-use energy, and this will be even higher, considering the amount of energy consumed in water and wastewater treatment processes. In Iran, buildings account for about 35% of end-use energy consumption. Therefore, the focus on green buildings has increased as a response to growing concerns about climate change and global warming. This study seeks to develop an optimal model to meet the energy and water demand of a building considering the water and energy nexus. This model has been developed for the Energy Engineering Department in order to become a green building. As a result, the... 

Due to increasing population and economic growth that has improved the living standards of human societies, the resources of the three sectors of water, energy, and food are in short supply. The close connection between these three parts requires integrated policy-making. In this research, for an integrated water, energy, and food system, an integer linear programming model has been developed for the optimal selection of technologies, their capacity, and their water and energy flow. Agricultural development policies include the construction of greenhouses and the use of renewable energy technologies and wastewater treatment technology to supply energy and water to the domestic and... 

As producing and consuming of natural gas has increased in recent years, improving natural gas distribution and transfer network systems has become vital. Pressure reduction station (PRS) is an important part of the natural gas network. Common PRSs are facing two issues: first is the pressure reduction technology, which is throttling valve that destroys the exergy of the high pressure flow. The solution is to utilize turbo-expander instead which can recover the energy. Second is the preheating technology which is boiler and water bath heater in the common systems that cause environmental problems. Using solar collectors is one of the best solution based on the literature. Since the solar... 

The purpose of this study is to develop a new optimal solution method for controlling the greenhouse climate and minimizing energy demand for heating and cooling the greenhouse. As greenhouses move towards more advanced structures and technologies, the need for advanced control will be more important in order to reduce energy consumption. More comprehensive and accurate mathematical models are needed for complex systems, multiple inputs and multiple outputs to make system behavior perform better and more efficiently. In this research, a new method has been developed for optimal control of the greenhouse and a specific greenhouse climate model is used which is based on optimal closed loop... 

The purpose of the current study is developing an evaluation model for the electrical grid. Resilience is an approach toward risk management against disorders and protecting the system during critical conditions. The importance of resilience assessment, especially in crucial infrastructures, has always been at the center of attention. Nonetheless, previous studies in this field were mostly limited to micro-scales, meaning that only a limited part of the system was evaluated. Therefore, such studies rely on technical data and system details. This issue renders macro-scale assessments challenging. Some of the models, which are based on analytical-statistical methods, examine the systems at... 

In a steel production plan primary resources entered the process are converted to high value products and byproducts. To this end, resources need to pass several consecutive process that require utility streams. One could not achieve the optimum operation of an industrial process unless they maximize the product and minimize the utility and waste. Therefore, it is important to consider the process stream integrated. The aim of this work is to find the optimum consumption of water and energy in a steel production and to calculate the potential reduction in water and energy resource destruction. Present work could be define a mathematical programing problem in which water users and all streams... 

Environmental and economic scarcity of resources are the most important challenges of industry sector. Iran confronted with lack of sufficient water resources and proper management and faces with drought and its environmental and economic consequences. It is a complicated challenge to provide the water demand without any damage to the ecosystem and it needs to do social, economic and environmental assessments. Wastewater treatment (water recycling) is an alternative option for supplying water demand. Wastewater treatment system (collecting, transportation to the treatment plant, wastewater treatment, and discharge) designed in order to solve hygienic and health issues in first place, but it... 

In this dissertation, Hydrogen storage in the solids based was investigated. The carbon-based structure used is the graphene that decorated with metal atoms to increase intermolecular interactions and increase the adsorption weight capacity. The structure of graphene has been considered due to its properties such as low density, high heat transfer coefficient and high specific surface area. Initially, the structure of pure graphene was investigated using the molecular dynamics method for hydrogen storage and it was shown that the interaction between hydrogen molecules and pure graphene is very weak and it can’t be a good option for use in cars. Then, the structures of graphene reinforced... 

The power supply system is one of the most important and complex systems. Various factors affect this system. Climate change affects different parts of the power supply system. In this study, the effect of climate change on electricity demand and electricity supply system has been investigated by considering the limited water resources. The amount of water withdrawal and GHG emissions in different scenarios. Scenarios are considered in such a way that assess the probable rising prices of fuels and water, and carbon taxes at three levels. Also, scenarios of rising water prices have been considered to evaluate the effect of this policy alone. It is worth noting that power plants are modeled... 

Rapid population growth and increasing and rapid consumption of natural resources in the ecosystem leads to the destruction of resources and thus increases the entropy in the earth, and this increase in entropy in the ecosystem changes the environment and has adverse effects on it. As all components in nature interact with each other by action and reaction, therefore, any change in the environment must be adjusted by other sectors and approached a reversible process to enable sustainable ecosystem changes. On the other hand, there is evidence that the world's physical capacity is inadequate to meet the requirements of sustainable development. The reason for this fact is that the ecological... 

Sustainable development of the energy system requires policies for ensuring reliable access to energy services with the lowest economic and environmental costs. Despite owning abundant reserves of fossil resources, Iran has witnessed an imbalance in the supply and demand of energy carriers, especially gas, gasoline, and electricity, over the past years. Within a comprehensive and detailed research, the optimal pattern of utilizing non-renewable energy resources along with renewables is evaluated in the context of sustainable energy development. The developed tool based on the integrated assessment approach can be used as a scientific analytic measure for the implementation of the desired... 

The reaction of human societies with environmental limitations such as climate change and the prospect of limited mineral resources has led to the introduction of approaches such as circular economy. The implementation of circular economy requires the development of new assessment methods, technology development and planning. Even though in the economic theories of optimizing the extraction of exhaustible resources such as fossil fuel resources, methods are used to determine the optimal path of resource use, but the optimization of the return flow is less evaluated. In this research, the optimal material circulation model is developed based on material flow analysis and life cycle costing... 

ECO region is perched near to three main energy sources, namely, Russia, Persian Gulf, and Caspian Sea. In this regards, the ECO members consider their co-operation in three directions, namely Trade, Energy, and Transportation, as their main priority. The main strategy of the ECO organization in energy issue is twofold: 1) to speed-up the optimum usage of energy sources with minimal cost and, 2) enables access to each other's markets and also to the international market. In fact, the energy producer countries as well as the energy transferor countries, both have a close role in the process of production and proffering. The increased dimensions and complexity of inter-related energy system... 

Products on Research and Development (R&D) are followed by Technology development. Projects on R&D are cost intensive and considerable of financial resources should be allocated. Optimal allocation of resources could be managed through cost effective strategy. Hence, a “Model for planning and development of technology” has been developed in the present work, which lends itself to the analysis of the industrial application of planning of technological development based on minimizing costs of both development and application of a technology. Mixed Integer Programming optimization model has been developed which enables studying the structure of R&D activities. This model is based on the concept... 

The exit flue gas temperature of conventional gas fired boiler is generally high and considerable energy is lost to environment. Therefore, new methods are needed to recover water and heat from boiler flue gas in order to reduce overall plant water consumption as well as to increase energy efficiency and mitigate detrimental emissions. This project involved design of a heat and water recovery system including condensing heat exchangers to be used in residential buildings. In this project based on simulation of heat and water recovery system the recoverable amount of heat and efficiency improvement potential at various conditions such as different exit flue gas temperatures and different...