Optimisation models for decision support in the development of biomass-based industrial district-heating networks in Italy

A system optimisation approach is proposed to design biomass-based district-heating networks in the context of industrial districts, which are one of the main successful productive aspects of Italian industry. Two different perspectives are taken into account, that of utilities and of policy makers, leading to two optimisation models to be further integrated. A mixed integer linear-programming model is developed for a utility company's profit maximisation, while a linear-programming model aims at minimising the balance of greenhouse-gas emissions related to the proposed energy system and the avoided emissions due to the substitution of current fossil-fuel boilers with district-heating connections. To systematically compare their results, a sensitivity analysis is performed with respect to network size in order to identify how the optimal system configuration, in terms of selected boilers to be connected to a multiple energy-source network, may vary in the two cases and to detect possible optimal sizes. Then a factorial analysis is adopted to rank desirable client types under the two perspectives and identify proper marketing strategies. The proposed optimisation approach was applied to the design of a new district-heating network in the chair-manufacturing district of North-Eastern Italy.

[1]  W. Fichtner,et al.  The efficiency of international cooperation in mitigating climate change: analysis of joint implementation, the clean development mechanism and emission trading for the Federal Republic of Germany, the Russian Federation and Indonesia , 2001 .

[2]  Dag Henning,et al.  Investments in combined heat and power plants: influence of fuel price on cost minimised operation , 2002 .

[3]  G. Becattini,et al.  Industrial districts and inter-firm co-operation in Italy , 1990 .

[4]  Roberto Aringhieri,et al.  Optimal Operations Management and Network Planning of a District Heating System with a Combined Heat and Power Plant , 2003, Ann. Oper. Res..

[5]  Daniel Favrat,et al.  An environomic approach for the modeling and optimization of a district heating network based on centralized and decentralized heat pumps, cogeneration and/or gas furnace. Part I: Methodology , 2000 .

[6]  Daniel Favrat,et al.  Multi-criteria optimization of a district cogeneration plant integrating a solid oxide fuel cell–gas turbine combined cycle, heat pumps and chillers , 2003 .

[7]  Evasio Lavagno Advanced Local Energy Planning (ALEP): a Guidebook, Annex 33 of the Energy Conservation in Buildings and Community Systems Program , 2000 .

[8]  Benny Bøhm,et al.  Operational optimization in a district heating system , 1995 .

[9]  A. Voss,et al.  Energy models for planning and policy assessment , 1981 .

[10]  E Van der Voort The EFOM 12C energy supply model within the EC modelling system , 1982 .

[11]  Leif Gustavsson,et al.  Heating Detached Houses in Urban Areas , 2003 .

[12]  Anna Sciomachen,et al.  The algorithmic structure of a decision support system for a design of a district heating network , 1990, Comput. Oper. Res..

[13]  Stig-Inge Gustafsson Municipal thermal and electricity loads : A case study in Linköping , 1998 .

[14]  Marc A. Rosen,et al.  Assessing and optimizing the economic and environmental impacts of cogeneration/district energy systems using an energy equilibrium model , 1999 .

[15]  Antonella Meneghetti,et al.  Perspectives on facilities management for industrial districts , 2002 .

[16]  H.-M. Groscurth,et al.  Modeling of energy-services supply systems , 1995 .

[17]  S. Messner,et al.  A stochastic version of the dynamic linear programming model MESSAGE III , 1996 .

[18]  Gunnel Sundberg,et al.  Ranking factors of an investment in cogeneration: Sensitivity analysis ranking the technical and economical factors , 2001 .

[19]  H.-M. Groscurth,et al.  Optimization of solar district heating systems: seasonal storage, heat pumps, and cogeneration , 2000 .

[20]  H.-M. Groscurth,et al.  Competition and synergy between energy technologies in municipal energy systems , 1997 .

[21]  Stig-Inge Gustafsson,et al.  Mixed 0–1 sequential linear programming optimization of heat distribution in a district-heating system , 2000 .

[22]  Tin-Tai Chow,et al.  Building-mix optimization in district cooling system implementation , 2004 .

[23]  Björn G. Karlsson,et al.  Interaction effects in optimising a municipal energy system , 2000 .

[24]  Björn Rolfsman,et al.  Optimal supply and demand investments in municipal energy systems , 2004 .

[25]  A. Fichera,et al.  Improvement of a district heating network through thermoeconomic approach , 1997 .

[26]  Antonella Meneghetti,et al.  Waste-to-energy application in an industrial district , 2002 .

[27]  Erik Dotzauer Experiences in mid-term planning of district heating systems , 2003 .