Energy Intensity Reduction in Large-Scale Non-Residential Buildings by Dynamic Control of HVAC with Heat Pumps

Franco, Alessandro; Miserocchi, Lorenzo; Testi, Daniele

doi:10.3390/en14133878

Cited by 9 publications

(9 citation statements)

References 39 publications

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“…Besarnya energi yang dibutuhkan menjadikan sistem pengondisi udara sebagai objek pengubahsuaian yang signifikan, maka dari itu diperlukan inovasi dan penyesuaian sistem pengondisi udara agar sesuai dengan prinsip berkelanjutan, yang sekaligus dapat mengurangi konsumsi energi dan biaya. Dalam penelitian yang dilakukan oleh Franco [14] dengan menggunakan Heat Pump Elektrik dan Demand Controller Ventillation pada sistem HVAC didapat penghematan energi sebesar 75% dibandingkan dengan sistem HVAC konvensional.…”

Section: Analisis Regresi Linear I Uji Multikolinearitasunclassified

Faktor-Faktor yang Paling Berpengaruh pada Pekerjaan Retrofitting Rumah Sakit Berbasis Peraturan yang Berlaku di Indonesia

Hidayah

Husin

2022

JITS

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The construction and building sector are growing rapidly, that the world is facing a new challenge to adapt green principles in order to maintain the environment sustainability. Many countries have regulations for implementing green principles, including Indonesia, which has the Minister of Public Works and Public Housing Regulation Number 21 of 2021. Green principles not only required to be applied in new buildings, but also to existed buildings, which outnumber the new buildings. This study aims to analyze which factors are the most influential for retrofitting hospital projects based on current regulations using statistical program, SPSS.

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Section: Analisis Regresi Linear I Uji Multikolinearitasunclassified

Faktor-Faktor yang Paling Berpengaruh pada Pekerjaan Retrofitting Rumah Sakit Berbasis Peraturan yang Berlaku di Indonesia

Hidayah

Husin

2022

JITS

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“…The HVAC system consists of an Air Handling Unit (AHU) equipped with a plate heat exchanger for Heat Recovery (HR), a mixing chamber, a preheat, cooling and dehumidification, and reheat coil heat exchangers, an adiabatic humidifier, a chiller, a boiler or an air-to-water heat pump, and fans. The model has been extensively described in recent papers by the authors, as [9,18], and its representation in the baseline configuration involving the boiler, a hydraulic scheme and constant flow rate fans is presented in Figure 2. The building energy demands are used to evaluate the air supply flow rate, tempe ature, and humidity ratio to guarantee the exact balance between the energy required an the energy delivered based on the control strategy involved: the values depend on th considered ventilation technique, since CAVs operate at a constant flow rate while VAV The building energy demands are used to evaluate the air supply flow rate, temperature, and humidity ratio to guarantee the exact balance between the energy required and the energy delivered based on the control strategy involved: the values depend on the considered ventilation technique, since CAVs operate at a constant flow rate while VAVs modulate it according to the needs.…”

Section: Hvac System Modelmentioning

confidence: 99%

“…In this study, we explore HVAC operational characteristics and associated savings through the analysis of buildings for educational purposes. In a previous paper [18], the authors have shown how a significant energy consumption reduction, of about 80%, can be achieved in a large academic building with the use of electrically driven heat pumps (HPs), of Variable Air Volume (VAV) systems, and of Demand Controlled Ventilation (DCV), compared to a benchmark solution involving the use of fossil fuels and a Constant Air Volume (CAV) system. This has led to the identification of a fossil-fuel-free generation and an occupancy-aware ventilation as the possible keys to improve the energy management in the building sector on full scale.…”

Section: Introductionmentioning

confidence: 99%

“…The application of the control strategies applied to different buildings is certainly helpful for investigating whether the different features of the buildings influence the overall energy savings and vary the relative importance of each measure. Moreover, with respect to the analysis already provided in [18], the comparison between two different buildings also puts the shape factor at the center of the analysis.…”

Section: Introductionmentioning

confidence: 99%

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HVAC Energy Saving Strategies for Public Buildings Based on Heat Pumps and Demand Controlled Ventilation

2021

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The paper analyzes and compares the perspectives for reducing the energy consumption associated to the operation of Heating Ventilation and Air Conditioning system for climatic control of large-size non-residential buildings. Three different control strategies are considered comparing the use of boiler and heat pumps as heating systems and analyzing the use of demand-controlled ventilation, operating on the effective occupancy of the building. The control strategies are applied to two different educational buildings with shapes representative of typical educational structures. The results of the analysis show how the energy consumption can be reduced up to 70%, shifting from the actual values of the energy intensity of over 300 kWh/m2 for year to values of less than 100 kWh/m2 per year. The significance of the energy savings achieved in such different buildings has led to the identification of a possible benchmark for HVAC systems in the next future years which could help reach the environmental targets in this sector.

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“…Still, a common consensus in the research community regarding gaps in this field is the lack of demonstrations that implement MPC on heat-pump systems with off-the-shelf components and compare its performance with conventional controllers under almost-identical conditions [5,15,16]. The technical challenges in deploying such optimization-based energy plant management systems are firstly the inclusion of the operational restrictions of these components and secondly the integration of the controller in existing building automation and control (BAC) frameworks.…”

Section: Introductionmentioning

confidence: 99%

Demonstration of Optimal Scheduling for a Building Heat Pump System Using Economic-MPC

et al. 2021

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It is considered necessary to implement advanced controllers such as model predictive control (MPC) to utilize the technical flexibility of a building polygeneration system to support the rapidly expanding renewable electricity grid. These can handle multiple inputs and outputs, uncertainties in forecast data, and plant constraints, amongst other features. One of the main issues identified in the literature regarding deploying these controllers is the lack of experimental demonstrations using standard components and communication protocols. In this original work, the economic-MPC-based optimal scheduling of a real-world heat pump-based building energy plant is demonstrated, and its performance is evaluated against two conventional controllers. The demonstration includes the steps to integrate an optimization-based supervisory controller into a typical building automation and control system with off-the-shelf HVAC components and usage of state-of-art algorithms to solve a mixed integer quadratic problem. Technological benefits in terms of fewer constraint violations and a hardware-friendly operation with MPC were identified. Additionally, a strong dependency of the economic benefits on the type of load profile, system design and controller parameters was also identified. Future work for the quantification of these benefits, the application of machine learning algorithms, and the study of forecast deviations is also proposed.

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Energy Intensity Reduction in Large-Scale Non-Residential Buildings by Dynamic Control of HVAC with Heat Pumps

Cited by 9 publications

References 39 publications

Faktor-Faktor yang Paling Berpengaruh pada Pekerjaan Retrofitting Rumah Sakit Berbasis Peraturan yang Berlaku di Indonesia

Faktor-Faktor yang Paling Berpengaruh pada Pekerjaan Retrofitting Rumah Sakit Berbasis Peraturan yang Berlaku di Indonesia

HVAC Energy Saving Strategies for Public Buildings Based on Heat Pumps and Demand Controlled Ventilation

Demonstration of Optimal Scheduling for a Building Heat Pump System Using Economic-MPC

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