R.B. Otto scite author profile

R.B. Otto

5Publications

16Citation Statements Received

55Citation Statements Given

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Stuttgart University of Applied Sciences

Publications

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Report on a Plus-Energy District with Low-Temperature DHC Network, Novel Agrothermal Heat Source, and Applied Demand Response

et al. 2019

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District heating and cooling networks can pose the possibility of including a variety of renewable energy sources as well as waste heat into a district’s heat supply concept. Unfortunately, low demand densities as they increasingly occur through higher building energy standards and in rural areas render conventional heating and cooling networks inefficient. At the same time, power-to-heat is becoming more and more important to make use of a larger amount of renewable energy sources on the electrical side by providing more flexibility by means of demand response and demand-side management. Within this work, a rural Plus-Energy settlement is presented addressing those topics by a low-temperature district heating and cooling network connected to a novel agrothermal collector supplying 23 residential buildings with decentralized heat pumps and PV systems. The collector, the network, and six of the buildings are equipped with comprehensive monitoring equipment. Within those buildings, forecast and optimization algorithms are implemented to adapt their heat pump operation to enable an increase of self-consumption, to include flexible electricity tariffs, and also to participate in power markets. Thereby, for the low-temperature district heating and cooling network, it has been shown that the concept can operate in the future at competitive heat costs. On the building level, up to 50% of cost savings could be achieved under ideal conditions with the optimization of the self-consumption of PV electricity. However, to ensure optimal results, the individual system components have to be dimensioned for this task.

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Laboratory for Analysis of Microgrid with Real Time Simulation

Piardi¹,

Otto²,

Sonoda³

et al. 2024

RE&PQJ

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It becomes essential for Brazil the formation of critical mass and technological base in the microgrid subject and, mainly, the creation of an infrastructure that allows the accomplishment of research in this area of knowledge. Faced with this necessity, it was verified the viability of implementing a laboratory to perform analysis of microgrids systems in the actual premises of the Laboratory of Automation and Simulation of Electrical Systems, which is allocated in Itaipu Technological Park Foundation-Brazil dependencies. In the presented context, this work brings the description of the provisioned infrastructurewhose the main feature will be to add flexibility of analysis through the joint application of real, emulated elements and realtime simulation platform, being at the same level of international reference laboratories as well as the fundamental aspects that provides the basis for your design and the possibilities of research envisaged from its implementation. The joint action of several researchers and enterprises will be stimulated and characterized as fundamental role for the transformation of this laboratory into a national reference in the study of microgrids serving as support for the electrical sector for the complete understanding of the new development trends of the future electrical power.

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Proposal of a Supervisory System for Energy Microgeneration Case Study Granja Colombari

Otto¹,

Alvarez-Ferreira²,

Silva³

et al. 2024

RE&PQJ

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The generating units form a distributed power generator system that uses biogas as fuel, which is produced on small farms that collect the waste from agricultural activities systems. The supervisory system of a biogas generation unit can monitor local and remote environmental, electrical and mechanical variables of the process and display this data in a user-friendly interface for analysis and decision-making. In addition to the user interface, the collected data will be stored to build the process history and analysis database that will be used as a study source and promotion of new research lines related to this topic.

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Power Quality Analysis of a Biogas Micro-Generation Unit; Performance Comparative of Distributed Generation in respect to Brazilian National and International Standards

Ferreira¹,

Otto²,

Kitamura³

et al. 2024

RE&PQJ

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Abstract. This paper consists on monitoring and analysis of the power quality of a distributed micro-generation connected in low voltage that use the biogas as primary source of power. The generation unit studied in this paper is a rural property dedicated to swine breeding (Colombari Farm). It is located in the city of São Miguel do Iguaçu, on the west region of Parana -Brazil and has a nominal power installed of 75 kVA that is connected to the Parana's Electrical Company (COPEL). The aspects of product quality according to Brazilian and International standards were considered to develop the analysis of power quality and the distributed generation performance comparative. As result, it is expected to acquire the power quality diagnosis and offers of solutions that could adequate the power quality of the generation unit. Also, contribute in the planning and programing of electrical action that compose the generation unit leading to an improvement of the system

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A case study on energy management and charging monitoring of battery electric vehicles in parking garages

et al. 2022

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R.B. Otto

Report on a Plus-Energy District with Low-Temperature DHC Network, Novel Agrothermal Heat Source, and Applied Demand Response

Laboratory for Analysis of Microgrid with Real Time Simulation

Proposal of a Supervisory System for Energy Microgeneration Case Study Granja Colombari

Power Quality Analysis of a Biogas Micro-Generation Unit; Performance Comparative of Distributed Generation in respect to Brazilian National and International Standards

A case study on energy management and charging monitoring of battery electric vehicles in parking garages

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