Barriers to improving energy efficiency within the process industries with a focus on low grade heat utilisation

Abstract Process industries are significant global energy consumers, contributing substantially to global greenhouse gas emissions. There is a need to reduce the energy intensity of production and corresponding greenhouse gas emissions, but there are significant technical and non-technical barriers to achieving this. Consultation with industrial and academic stakeholders in the UK established that cost, return on investment and technology performance were key barriers to process industry energy efficiency improvements. However, for low grade heat utilization, stakeholder engagement and strategic mapping found that ‘location’ and the need for capital support for infrastructure were the most critical factors. A large number of institutional issues were also identified which help to explain why, even when efficiency measures deliver environmental and economic benefits; they are not implemented by industry.

[1]  Paul Upham,et al.  Sustainability constraints on UK bioenergy development , 2009 .

[2]  Sven Werner,et al.  Profitability of sparse district heating , 2008 .

[3]  Geoffrey P. Hammond,et al.  Enabling technologies for industrial energy demand management , 2008 .

[4]  Patrik Söderholm,et al.  The cost-effectiveness of voluntary energy efficiency programs☆ , 2009 .

[5]  Loren Lutzenhiser,et al.  Innovation and organizational networks : barriers to energy efficiency in the US housing industry , 1994 .

[6]  Han Shi,et al.  Barriers to the implementation of cleaner production in Chinese SMEs: government, industry and expert stakeholders' perspectives , 2008 .

[7]  Jonathan B. Norman,et al.  Spatial modelling of industrial heat loads and recovery potentials in the UK , 2010 .

[8]  A. Jaffe,et al.  The energy-efficiency gap What does it mean? , 1994 .

[9]  Ryan J. Umstattd Future energy efficiency improvements within the US department of defense: Incentives and barriers , 2009 .

[10]  Patrik Thollander,et al.  Barriers to and drivers for energy efficiency in the Swedish foundry industry , 2007 .

[11]  R. Luken,et al.  Drivers for and barriers to environmentally sound technology adoption by manufacturing plants in nine developing countries , 2008 .

[12]  Patricia Thornley,et al.  Barriers to European Bioeenergy Expansion , 2009 .

[13]  Qinghua Zhu,et al.  Drivers and barriers of extended supply chain practices for energy saving and emission reduction among Chinese manufacturers , 2013 .

[14]  Richard B. Howarth,et al.  Market barriers to energy efficiency , 1993 .

[15]  Tao Ren,et al.  Barriers and drivers for process innovation in the petrochemical industry: A case study , 2009 .

[16]  Patrik Thollander,et al.  Barriers to and driving forces for energy efficiency in the non-energy intensive manufacturing industry in Sweden , 2006 .

[17]  P. Balachandra,et al.  Barriers to energy efficiency in small industry clusters: Multi-criteria-based prioritization using the analytic hierarchy process , 2006 .

[18]  E. Sardianou Barriers to industrial energy efficiency investments in Greece , 2008 .

[19]  B. Hedman,et al.  Creating markets for combined heat and power and clean distributed generation in New York State. , 2003, Environmental pollution.

[20]  Joachim Schleich,et al.  Barriers to energy efficiency: A comparison across the German commercial and services sector , 2009 .

[21]  M. El-Fadel,et al.  Drivers, barriers and incentives to implementing environmental management systems in the food industry: A case of Lebanon , 2010 .

[22]  Amulya K. N. Reddy,et al.  Barriers to improvements in energy efficiency , 1991 .

[23]  Stephen L. Gillett,et al.  Entropy and its misuse, I. Energy, free and otherwise , 2006 .

[24]  Carrie L. Mitchell Beyond barriers: examining root causes behind commonly cited Cleaner Production barriers in Vietnam , 2006 .