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Percorrer por autor "Bernardo, Hermano"

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  • Energy audit as an input for energy management and energy efficiency improvement in a gypsum manufacturing plant
    Publication . Bernardo, Hermano; Oliveira, Filipe Tadeu; Serrano, Luis
    This paper aims at presenting the main results of an energy audit performed to a gypsum production plant, in Portugal, which due to the amount of energy consumed must comply with the Portuguese program SGCIE (Intensive Energy Consumption Management System). The program was created in 2008 to promote energy efficiency and energy consumption monitoring in intensive energy consuming facilities (energy consumption higher than 500 toe per year). Facilities operators are required to perform energy audits and take actions to draw up an action plan for energy efficiency, establishing targets for energy consumption reduction and greenhouse gases emissions indexes. An energy audit was carried out to identify potential energy conservation measures for improving energy efficiency, and also typical energy consumption patterns, sector/equipment load profiles and thermal equipment performance. This tool gives managers the information to support decision making on improving energy performance and reducing greenhouse gas emissions. A number of tangible targets and measures were devised and set to be implemented in the next few years. Results show that there is a considerable potential for reduction in the energy consumption and greenhouse gases emissions of gypsum manufacturing plants. Here, as elsewhere in the industrial sector, energy efficiency can only be achieved through a continuous energy monitoring and management system.
    2015-04Artigo científico Acesso aberto Ver mais
  • Energy management in municipal solid waste treatment: A case study of a mechanical biological treatment facility
    Publication . Bernardo, Hermano; Oliveira, Filipe Tadeu; Quintal, Edgar
    Over the last few years, mechanical biological treatment systems for municipal solid waste have been introduced in many European countries. In most cases, this was driven by the European Union Landfill Directive, which requires the diversion of biodegradable municipal waste from landfill to alternative processes. Although this type of treatment allows energy recovery from municipal solid waste, the process of mechanical biological treatment appears to be an intensive energy consumer, due to high demand of electricity consumed by process equipment. This paper presents the main results of an energy audit performed to a Mechanical Biological Treatment facility in Portugal, which due to the amount of energy consumed must comply with the Portuguese Program called Intensive Energy Consumption Management System – SGCIE. The program was created in 2008 to promote energy efficiency and energy consumption monitoring in intensive energy facilities (energy consumption higher than 500 toe per year). Facilities operators are required to perform energy audits and take actions to draw up an action plan for energy efficiency, establishing targets for energy consumption reduction and greenhouse gases emissions indexes. To implement actions that improve energy efficiency, it is necessary for the facilities operation to be associated with an effective energy management methodology, as well as an efficient facilities management procedure. The implementation of any energy management system should start with an energy audit, which was carried out to identify potential energy conservation measures for improving energy efficiency, and also typical energy consumption patterns and sector/equipment load profiles. This tool gives managers the information to support decision making on improving energy performance and reducing greenhouse gas emissions. Results shown that there is a considerable potential for reducing energy consumption and greenhouse gases emissions on Mechanical Biological Treatment units. Here, as elsewhere in the industrial sector, energy efficiency can only be achieved through a continuous energy monitoring and management system.
    2014-06Comunicação em conferência Acesso aberto Ver mais
  • Estimation of Energy Savings Potential in Higher Education Buildings Supported by Energy Performance Benchmarking: A Case Study
    Publication . Bernardo, Hermano; Oliveira, Filipe Tadeu
    This paper presents results of work developed in the field of building energy benchmarking applied to the building stock of the Polytechnic Institute of Leiria, Portugal, based on a thorough energy performance characterisation of each of its buildings. To address the benchmarking of the case study buildings, an energy efficiency ranking system was applied. Following an energy audit of each building, they were grouped in different typologies according to the main end-use activities developed: Pedagogic buildings, canteens, residential buildings and office buildings. Then, an energy usage indicator was used to establish a metric to rank the buildings of each typology according to their energy efficiency. The energy savings potential was also estimated, based on the reference building energy usage indicator for each typology, and considering two different scenarios, yielding potential savings between 10% and 34% in final energy consumption.
    2018-07-24Artigo científico Acesso aberto Ver mais
  • Forecasting Heating and Cooling Energy Demand in an Office Building using Machine Learning Methods
    Publication . Godinho, Xavier; Bernardo, Hermano; Oliveira, Filipe Tadeu; Sousa, João
    Forecasting heating and cooling energy demand in buildings plays a critical role in supporting building management and operation. Thus, analysing the energy consumption pattern of a building could help in the design of potential energy savings and also in operation fault detection, while contributing to provide proper indoor environmental conditions to the building's occupants.This paper aims at presenting the main results of a study consisting in forecasting the hourly heating and cooling demand of an office building located in Lisbon, Portugal, using machine learning models and analysing the influence of exogenous variables on those predictions. In order to forecast the heating and cooling demand of the considered building, some traditional models, such as linear and polynomial regression, were considered, as well as artificial neural networks and support vector regression, oriented to machine learning. The input parameters considered in the development of those models were the hourly heating and cooling energy historical records, the occupancy, solar gains through glazing and the outside dry-bulb temperature.The models developed were validated using the mean absolute error (MAE) and the root mean squared error (RMSE), used to compare the values obtained from machine learning models with data obtained through a building energy simulation performed on an adequately calibrated model.The proposed exploratory analysis is integrated in a research project focused on applying machine learning methodologies to support energy forecasting in buildings. Hence, the research line proposed in this article corresponds to a preliminary project task associated with feature selection/extraction and evaluation of potential use of machine learning methods.
    2020-07Comunicação em conferência Acesso aberto Ver mais
  • Livro de Atas - 4.ª Conferência Campus Sustentável (CCS2022)
    Publication . Bernardo, Hermano; Morais, Joana; Ramos, João; Sousa, João; Santos, Joaquim; Gonçalves, Luísa; Neves, Luís; Oliveira, Mário; Matos, Rui; Mendes, Susana; Ribeiro, Vânia; Santos Ribeiro, Vânia
    A sustentabilidade, nas suas variadas vertentes designadamente ambiental, económica e social, tem estado, desde sempre, no topo das prioridades do Instituto Politécnico de Leiria (IPL). Esta postura encontra-se espelhada, nomeadamente, no plano estratégico 2030 da instituição que prevê um conjunto alargado de medidas que fomentam a adoção de práticas sustentáveis nas atividades e quotidiano da comunidade académica. Dada a situação específica do IPL no que concerne à sua abrangência territorial, que abarca várias cidades da região centro do país com características geomorfológicas e sociais diversas, as questões da sustentabilidade assumem uma dimensão mais complexa e simultaneamente desafiante potenciando o desenvolvimento de abordagens inovadoras e adaptadas a cada realidade. (...) [Excerto] Boas Vindas João Pedro Silva [Pró-Presidente do Politécnico de Leiria]
    2022Livro Acesso aberto Ver mais
  • Predictable impact of lighting control on the energy consumption of a building through computational simulation
    Publication . Bernardo, H.; Leitão, S.; Neves, L.; Amaral, P.; Bernardo, Hermano; Pires Neves, Luís
    Building energy simulation tools provide accurate predictions of the energetic performance of buildings and thermal comfort of its occupants, allowing an evaluation of the impact of proposed improvement measures, in order to support choice for the more economically viable. This paper aims at determining the energy saving potential that can be obtained by adequate measures and investments. It presents the simulated values of the impact on the energy consumptions of a building, caused by artificial lighting control systems set to maximize use of natural lighting. Results show that optimization measures have a significant impact on energy consumptions reduction, and lead to important economical savings.
    2009-04Artigo científico Acesso aberto Ver mais
  • Using a Calibrated Building Energy Simulation Model to Study the Effects of Improving the Ventilation in a School
    Publication . Bernardo, Hermano; Quintal, Edgar; Oliveira, Filipe
    This paper aims at presenting the development of a calibrated building energy simulation model of a school building to study the impact of improving the ventilation system on energy performance. The simulation model was developed with the DesignBuilder/Energyplus software and it was calibrated based on data collected during an energy audit to the school building. Schools need high outdoor airflow rates to remove indoor air contaminants related to occupants and building components, thus requiring mechanical ventilation systems. Due to budget restrictions, school managers decided to schedule the building management system to keep the HVAC systems active only between 6:00 am and 10:00 am. According to the values measured in this school, it was patent that the CO2 concentration was too high in certain periods. Too high peak values undermine the indoor air quality in the remaining occupancy time of the classroom, harming the work conditions for teachers and students. To solve this problem, an extended usage schedule of the mechanical ventilation was simulated (8:00 am to 5:00 pm) according to the required enhancement of indoor air quality, which together with the adoption of the new calculated fresh air flow rates will enhance air quality while avoiding excessive cost, thus increasing energy efficiency.
    2017-05Artigo científico Acesso aberto Ver mais