Energy management services in AsiaWatt company building

Carrying out optimization measures in buildings with the aim of reducing energy consumption (fuel, electricity, water), reducing the costs paid by people for energy consumption, creating favorable building temperature conditions due to the increase in the quality of building construction and reducing environmental pollution caused by consumption. Fossil fuels are used. Therefore, in order to achieve the above objectives, AsiaWatt Engineering Company has provided energy services in various fields related to the building.

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Conducting energy audits and providing saving solutions with the aim of reducing the energy consumption of existing buildings

Considering the existing conditions of the country’s buildings and the severe deviation of their energy consumption compared to global standards, the importance of implementing energy optimization measures in this sector is determined. AsiaWatt Engineering Company, while having sufficient experience in the field of energy audit and consulting and providing energy saving solutions in the building sector, has provided energy consulting services to improve and reduce the energy consumption of existing buildings. The steps of energy audit of existing buildings are as follows:

  1. Visiting and collecting basic information about the building, including the climatic characteristics of the location of the building and collecting meteorological information of the area, architectural maps and facilities, determining the use of different spaces, the area of the building infrastructure, the characteristics of the building walls, including the operational details of the walls, the characteristics of doors, windows, and facilities. Building and how to control them, electrical installations and determining the conditions of operation and maintenance of building equipment and facilities, collecting specifications of energy-consuming equipment, collecting specifications of lighting equipment and determining how to control them, collecting energy bills and determining the energy consumption pattern of the building.

  2. Measuring, calculating and determining the energy consumption of the building in the existing conditions, which includes measuring the comfort conditions of the building, measuring and determining the performance of the building facilities and checking the insulation status of the facilities, performing calculations and simulating the building and separating the energy consumption in different parts, preparing a dynamic model. and determining the thermal and cooling loads of the building, preparing the checklist of topic 19 of national regulations and checking the insulation status of the building, determining the energy consumption index of the building and comparing it with international standards.

  3. Investigating, analyzing and presenting energy saving opportunities, which includes determining the potential of saving in different parts of the building, determining applicable solutions in each part, technical and economic analysis of saving solutions, and determining the amount of savings and the investment return time resulting from the implementation of each solution and Finally, the implementation of the proposed solutions is prioritized.

Providing energy consulting services in the field of optimal building design in the construction phase

Considering the state of energy consumption of buildings in the country, it is very important to design and build buildings considering the energy approach. AsiaWatt Engineering Company, while having sufficient experience and benefiting from experienced experts, has provided energy consulting services in the field of designing and building energy efficient buildings. Energy consulting services are performed in the following steps:

  • Optimal building design from an architectural point of view
  • Determining the right direction
  • Determining the proper position and size of openings
  • Proper arrangement of interior spaces
  • Suggesting the details of the appropriate implementation of the building walls for insulation and compliance with the topic of 19 national building regulations
  • Proposing energy-efficient installation systems and optimal design of building cooling and heating systems
  • Proposing the use of renewable energy and new technologies in providing building energy

Design, presentation, installation and operation of building energy management systems (BMS, BEMS)

AsiaWatt Engineering Company has designed, presented and launched building energy management systems with the aim of reducing energy consumption in the building sector. Building energy management systems include sensors, actuators and controllers, whose task is to control different parts of the building, and through the central computer, information on variables such as temperature, pressure, humidity, voltage, amperage, or the status and operation of equipment such as pumps, fans, boilers. , chiller, etc., which are measured by sensors and switches, and after analyzing them, sends commands to actuators and motors such as solenoid valves, motor dampers, contactors, etc.

Building energy management systems include the control of the following sections:

•    Integrated control and management of building departments
•    Intelligent control of engine room and facilities
•    Building lighting control
•    Building security control
•    Fire alarm and extinguishing system
The advantages of these control systems are summarized in achieving the following goals:
•     Energy saving
•     Reduction of manpower
•     Increasing the useful life of equipment and reducing their failure rate
•     Reducing maintenance and management costs
•     Establishing flexible automation for all building functions
•     Optimizing the performance of building systems continuously
•     Ensuring building safety

Technical inspection of the engine room

Considering the significant share of energy consumption in the building sector, which accounts for more than 40% of the country’s total energy consumption, as well as with the government’s move towards eliminating subsidies and realizing the prices of energy carriers, optimization and implementation Energy saving solutions in this sector will be more necessary. Among the energy consumers in the building sector, the heating system has the highest amount of energy consumption, and according to the surveys, about 70% of the natural gas consumed in the country is allocated to the heating of buildings. In Iran, most of the buildings have a central heating system and an engine room, therefore, focusing on the implementation of energy saving measures and reducing energy losses and improving the current condition of the building’s engine room facilities will play a significant role in reducing the country’s fossil fuel consumption. According to the surveys conducted, the engine houses of the country’s buildings are not in a good condition at the moment, the main reasons for which are the non-compliance with the correct principles in the design and selection of equipment, the inappropriate condition of the insulation of the facilities, improper operation, and the lack of a documented maintenance and repair system. And finally, there is lack of sufficient inspection and supervision on the operation status of engine houses. In addition to losses and increased energy consumption, the improper operation of the engine room causes an increase in environmental pollution.

Based on this, one of the most effective measures to reduce energy consumption, reduce the production of toxic gases and pollute the environment, de-peaking the gas network, reducing depreciation and maintenance and repair costs, is the implementation of the technical inspection plan for engine rooms of buildings.

AsiaWatt Engineering Company, while having sufficient experience in this regard and having experienced experts, declares its readiness to carry out technical inspection in the engine houses of the country’s buildings. The technical inspection of the engine room of the buildings is carried out in the following steps:

  • Checking the engine room components and completing the engine room technical checklist
  • Examining the existing clarity and correcting and repairing the insulation of the engine room facilities
  • Checking the state of the design of the engine room and the suitability of the existing boiler and burner
  • Detailed examination of fuel system components in terms of design, safety and performance
  • Analyzing combustion products using a gas analyzer and comparing with the standard mode
  • Accurate adjustment of the fuel-air ratio in the burner to reduce fuel consumption and reduce polluting gases
  • Checking and correcting the condition of the chimney and installing a barometric damper if necessary
  • Detailed examination of hot water circulation and transfer systems in terms of design and efficiency
  • Preparing a report on engine room problems and providing solutions and…

Building energy label

The criteria of the building energy label can be calculated from simple criteria such as the heat transfer coefficient of the outer shell of the building to complex criteria such as the amount of energy consumption of the building. In the country, due to the high cost of fuel consumption, the labeling criterion exceeds the limit of the heat transfer coefficient of the shell and directly targets the energy consumption of the building.

The best way to express the energy consumption of the building is to determine the amount of primary energy consumed, in which the energy consumption is calculated according to the type of energy carrier. In Iran, the classification in the energy label of buildings is based on the amount of primary energy consumed. In existing buildings, energy bills are a method to determine the amount of energy consumption of the building, but in the case of buildings under construction, it is determined by calculating the amount of energy consumption. For this purpose, using the provided instructions, the amount of energy consumed by the building in the heating and cooling sector, hot water consumption and lighting equipment is calculated. Then, by determining the energy consumption index of the building per area unit and dividing it by the energy consumption index of the ideal building, the energy ratio parameter (R) is determined and based on that, the classification of the label is determined. The method of calculation and guidelines for providing energy labels for residential and non-residential buildings has been approved as a national standard in the Iranian Institute of Standards and Industrial Research, and its executive regulations are currently being prepared.