On 2nd March 2017 Andrew Marshall (Spirax Sarco Ltd) presented Symbioptima at the IOR's International Refrigeration Committee, focused on the business opportunities of environmental policy and international energy reduction targets: what are the drivers and successes to date in achieving energy efficiency savings and lowering emissions?
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Download presentation Case Study SYMBIOPTIMA Smart Thermal Grid Data Storage.
- Written by Admin
Substantial energy and resource efficiency improvements are priority requirements for manufacturing industry. Energy costs charged by energy companies fluctuate according to time and consumption peaks; to reduce the energy bill, manufacturing industries need to manage production operations with an energy effective planning to avoid peaks and to perform high consumption operations when the energy cost is cheaper. The need to optimize energy and resource becomes also more critical inside an industrial park, where the energy consumption of the different plants needs balancing to avoid supply shortage.
It is unfeasible of course to drive production only on an energy base, as a plant has usually many other constraints; however, it is quite always possible to tune production to get a better energy efficiency. To get this target it is necessary to correlate precisely energy consumption with production data in order to be able to understand the impact of different steps of execution in term of energy and production.
Within SYMBIOPTIMA (work package 3), an Energy and Resource Management System (ERMS) application has been developed to combine energy and production data and to provide a clear picture of manufacturing operations.
The role of ERMS is to collect energy consumption data from the devices involved in a given manufacturing operation and associate these data to the production details (i.e. production step, machinery, material usage, production outcome etc.) in order to provide a comprehensive description of all resources used in a given production step. Through the analysis of each production steps it is possible to design an optimized production process and planning.
The design of ERMS is structured on separate layers (i.e. Virtual directory and ERMS platform layers), which process the information, in separate and self-consistent blocks, and transform the raw data coming from the production unit into business relevant information. The Virtual Directory layer connects the line sensors and equipment and has the aim of transforming the data originated in various formats, into consistent data, based on consistent and globally shared ontology. Virtual Directory allows the easy deployment of the ERMS on different lines producing a separation between the ERMS engine and data sources and reduce customization efforts.
The ERMS platform layer is designed according to Service Oriented Architecture (SOA) principles and provides a data model and business logic for the consistent processing of data inside a cluster environment. Energy and manufacturing data, aggregated according to production steps, are exposed through standard interface to be consumed by specific tools.ERMS is implemented using standard technologies and can be deployed in standalone mode inside a single plant or as distributed system in an industrial park.
ERMS architectural stack
The configuration for industrial park or cluster of plants has to face additional constraints regarding protected communication and data confidentiality. In this configuration a federation of applications is used; internal systems with full data access are installed at plant level and these system communicate with an external aggregator that exposes a subset of aggregate data assuring the confidentiality of the production data of each plant.
In conclusion, the developed ERMS allows energy data collection and the association of energy and production data to evaluate the impact of energy in each production step. This aggregate information is fundamental to understand the impact of energy in the production process and it is necessary to reshape production execution, in term of Bill of Process and production scheduling to get an energy aware production able to save costs in terms of money and environmental impact.
- Written by Giovanni Venturi (Siemens) and Christian Blaschke (Semantic Web Company)