NAVDEX, a helpful tool for the classification of environmental legislation

Since its launch in 1998 the thematic indexation of the Flemish Environmental Navigator is carried out manually by legal experts of the University of Ghent, Belgium. However, due to the exponential growth of legal documents a physical indexation process eventually was no longer tenable, nor desirable. Hence, a semi-automatic indexing tool for environmental legislation, called NAVDEX, was developed. A specific algorithm was determined, based On the presence of similar terms in law objects. A parameter was defined, reflecting the strength of the relation between law objects in order to computerise the return on a user's query. 1/7 view, of managing the relations between law objects, a visualisation tool was created in order to provide the legal experts with a detailed overview of all associated law Objects. The testing corpus was decided to be VLAREA, a Flemish order concerning waste prevention and management. The evaluation of the test results was carried out by experts in environmental legislation, who computed the relative recall of several search terms. With an average score of 0.63 NAVDEX is able to retrieve nearly two third of the associated law objects. Consequently the evaluators' conclusions were unanimous so as to define NAVDEX as a useful tool to determine and visualise associated LawObjects

Methodology for energy audits in the framework of the energy efficiency directive

The Energy Efficiency Directive 2012/27/EU (EED) was released in October 2012 and transposed in June 2014 by Member States. The Directive requires large companies to carry out an energy audit before December 2015, which has to be repeated every 4 years. A possibility for companies to be exempted from regular energy audits is to be or become certified by an approved energy management system (EnMS), most likely the international standard ISO 50001. In both cases it means that companies have to set plans and define actions to comply with European and national requirements that aim at improving their energy efficiency. Considering the differences across European countries regarding the awareness and involvement of the industrial sector in terms of energy management, a large number of companies still lack systematic and comprehensive systems to understand, monitor and improve their energy consumption in a cost-effective and sustainable way. This paper presents a methodology to carry out indicative energy audits in compliance with the European standard EN 16247-1 and including the ISO 50001 requirements of the energy planning phase (e.g. energy review, energy baseline and energy performance indicators). The proposed methodology follows a top down approach, starting from the energy bill and identifying major energy sources. It covers the evaluation of the actual system’s energy efficiency, identifies energy savings opportunities and presents an innovative approach for energy consumption monitoring via surrogate models of processes. It makes use of state-of-the-art techniques such as data reconciliation, heat integration via total site pinch analysis and statistical tools. Since natural gas and electricity usually take up the largest share of the total energy consumption in industry, the focus is put on these two energy carriers. One of the interesting aspects of the methodology concerns the data gathering and processing phases. Here the required data are targeted and classified in a systematic way in order to characterise the energy consumers and identify the areas of significant energy use presenting a potential for energy efficiency improvement. Once the energy review step is carried out, strategies for energy consumption monitoring should be developed. The methodology proposes an innovative approach to generate specific energy consumption models of industrial processes (surrogate models) that could be used to monitor units, online or offline, and detect deviations from expected behaviour

Wireless synchronisation for low cost wireless sensor networks using DCF77

Wireless Sensor Networks (WSN) consist out of multiple end nodes containing sensors and one or more coordinator nodes which poll and command the end nodes. WSN can prove very efficient in distributed energy data acquisition, e.g. for phasor or power measurements. These types of measurements however require relatively tight synchronisation, which is sometimes difficult to achieve for low-cost WSN. This paper explores the possibility of a low-cost wireless synchronization system using the DCF77 long wave time signal to achieve sub-millisecond synchronisation accuracy. The results are compared to conventional GPS based synchronisation. As a practical example, the implementation of the described synchronisation method is proposed for a non-contact electrical phase identifier, which uses synchronised current measurements to distinguishing between the different phases in an unmarked electrical distribution grid

District heating networks in the framework of spatial planning

The way to a more sustainable energy future is running over a transition process that drives change in our views and actions on renewables, emissions and efficiencies. The interaction between energy and space evolves in this transition, with district heating taking up a growing role. Distributed (renewable) energy generation, the reuse of waste and excess heat significantly contributes to the sustainable energy system, but more than the former it is constrained by spatial dependencies. In contrast to North and East European countries, Flanders has a highly centralised energy production profile. When focusing on thermal energy, decentralised supply such as district heating and cooling is rare. Adding to the poor transportability of heat and the high investment cost of network infrastructure, spatial factors such as proximity and density of heat demand play an important role. Meanwhile acknowledging the need for an integral approach, this paper explores the relationship between district heating and spatial planning. Via heat mapping, areas with sufficient heat demand are located and investigated for their spatial potential. First a linear heat density map is drawn and subsequently the preliminary district heating potential is represented in a heat tariff map. The latter proves to be prospective for screening district heating projects by network administrators

Optimal operations and resilient investments in steam networks

Steam is a key energy vector for industrial sites, most commonly used for process heating and cooling, cogeneration of heat and mechanical power as a motive fluid or for stripping. Steam networks are used to carry steam from producers to consumers and between pressure levels through letdowns and steam turbines. The steam producers (boilers, heat and power cogeneration units, heat exchangers, chemical reactors) should be sized to supply the consumers at nominal operating conditions as well as peak demand. First, this paper proposes an Mixed Integer Linear Programing formulation to optimize the operations of steam networks in normal operating conditions and exceptional demand (when operating reserves fall to zero), through the introduction of load shedding. Optimization of investments based on operational and investment costs are included in the formulation. Though rare, boiler failures can have a heavy impact on steam network operations and costs, leading to undercapacity and unit shutdowns. A method is therefore proposed to simulate steam network operations when facing boiler failures. Key performance indicators are introduced to quantify the network’s resilience. The proposed methods are applied and demonstrated in an industrial case study using industrial data. The results indicate the importance of oversizing key steam producing equipments and the value of industrial symbiosis to increase industrial site resilience

Positive balancing service by solar virtual power plants

During the past years, a large amount of photovoltaic (PV) capacity has been installed in Belgium. The main driver for this was the abundant government support (GreenPower Certicates). However, during the last few years, the support for new installations has been withdrawn and new PV capacity ceased. In previous research, it has been proven that selling PV energy of existing plants directly on the wholesale market is not feasible due to the large share of green power certicates awarded to these plants. However, the price of green power certicates has dropped signicantly and hence the balance between certicate and commodity revenue is restored. This paper investigates the possibility of providing positive balancing services to the transmission system operator by aggregating solar power in a technical Virtual Power Plant. The paper concludes that it seems not interesting, neither economically nor energetically, to keep solar plants solely for positive balancing purposes. Combination of solar power with other sources or consumers can however be profitable, as solar power is quickly switched in case it is needed to react fast

Windkracht 13

The so-called 20/20/20 goals of the European Union are key measures in the context of the sustainable development policy of the EU. The highest potential for emission reductions is present in the electricity sector. Hitherto, the Flemish government mainly invested in photovoltaic panels and large (mainly offshore) wind turbines. However, studies prove that the use of small and medium size wind turbines may claim a part. Despite their potential, though, the market for wind turbines minus 100 kW is not yet developed. ‘Windkracht 13’ is a demonstration and dissemination project in the frame of the New Industrial Policy of the Flemish government and aims at opening the market for small and medium size wind turbines (SMWT) in Flanders. The project studies the current barriers by performing a focused LESTS (Legal, Economic, Spatial, Technical, Social) analysis. Based on this pentagonal mapping, recommendations are made for lowering the thresholds to install SMWT in Flanders. Starting from realistic and pragmatic criteria, new locations are explored. The (re)use of masts and towers is a study focus, as well as the potential of rural and industrial environments. Farm sites and business parks often have a high wind energy profile, combined with specific (renewable) energy requirements, thus offering perspective for SMWT. Active participation of the project stakeholders in the users committee is encouraged, leading to implementation of SMWT at strategic locations. These demonstrations are necessary to increase the social acceptance of SMWT. The project results and recommendations are bundled in a best practices manual for a successful implementation of SMWT in Flanders

Techno-economic energy models for low carbon business parks

To mitigate climate change, global greenhouse gas emissions need to be reduced substantially. Industry and energy sector together are responsible for a major share of those emissions. Hence the development of low carbon business parks by maximising energy efficiency and changing to collective, renewable energy systems at local level holds a high reduction potential. Yet, there is no uniform approach to determine the optimal combination and operation of energy technologies composing such energy systems. However, techno-economic energy models, custom tailored for business parks, can offer a solution, as they identify the configuration and operation that provide an optimal trade-off between economic and environmental performances. However, models specifically developed for industrial park energy systems are not detected in literature, so identifying an existing model that can be adapted is an essential step. In this paper, energy model classifications are scanned for adequate model characteristics and accordingly, a confined number of models are selected and described. Subsequently, main model features are compared, a practical typology is proposed and applicability towards modelling industrial park energy systems is evaluated. Energy system evolution models offer the most perspective to compose a holistic, but simplified model, whereas advanced energy system integration models can adequately be employed to assess energy integration for business clusters up to entire industrial sites. Energy system simulation models, however, provide deeper insight in the system’s operation