dc.relation | Abdelaziz, E., Saidur, R., Mekhilef, S. (2011), A review on energy saving
strategies in industrial sector. Renewable and Sustainable Energy
Reviews, 15, 150-168.
Bajpai, A., Fernandes, K.J., Kumar, M. (2018), Modeling, analysis, and
improvement of integrated productivity and energy consumption
in a serial manufacturing system. Journal of Cleaner Production,
199, 296-304.
Block, L., Larsen, A., Togeby, M. (2006), Empirical analysis of energy
management in Danish industry. Journal of Cleaner Production,
14(5), 516-526.
Bunse, K., Vodicka, M., Schönsleben, P., Brülhart, M., Ernst F. (2011),
Integrating energy efficiency performance in production management
e gap analysis between industrial needs and scientific literature.
Journal of Cleaner Production, 19, 667-679.
Cabello, J.J., Sagastume, A., Santos, V., Hernández, H., Balbis, M.,
Silva,J., Noriega, E., Vandecasteele, C. (2018), Energy Management
in the Formation of Light, Starter, and Ignition Lead-acid Batteries,
Energy Efficiency Magazine.
Cabello, J.J., Sagastume, A., Sousa, V., Hernandez, H., Balbis, M.,
Silva, J. (2017), Soft Sensors to Assess the Energy Consumption
in the Formation of Lead-acid Batteries. São Paulo-Brazil:
6th International Workshop Advances in Cleaner Production. p1-10.
Available from: http://www.advancesincleanerproduction.net/sixth/
files/sessoes/5A/7/cabello_jj_et_al_academic.pdf.
Cabello, J.J., Santos, V., Gutiérrez, A., Álvarez, M., Haeseldonckx, D.,
Vandecasteele, C. (2016), Tools to improve forecasting and control of
the electricity consumption in hotels. Journal of Cleaner Production,
137, 803-812.
Cagno, E., Trianni, A. (2014), Evaluating the barriers to specific industrial
energy efficiency measures: An exploratory study in small and
medium-sized enterprises. Journal of Cleaner Production, 82, 70-83.
Chan, Y., Kantamanen, R. (2015), Study on Energy Efficiency and Energy
Saving Potential in Industry and on Possible Policy Mechanisms.
ICF Consulting Limited. Available from: https://www.ec.europa.eu/
energy/sites/ener/files/documents/151201%20DG%20ENER%20
Industrial%20EE%20study%20-%20final%20report_clean_stc.pdf.
Chen, H., Wei, Y., Luo, Y., Duan, S. (1996), Study and application of
several-step tank formation of lead/acid battery plates. Journal of
Power Sources, 59(1), 59-62.
Cope, R.C., Podrazhansky, Y. (1999), The Art of Battery Charging. Battery
Conference on Applications and Advances. The Fourteenth Annual.
Long Beach, CA, USA. Available from: http://www.EEIexplore.
EEIe.org/document/795996/?arnumber=795996.
Cuatrecasas, A.L. (2009), Diseño Avanzado de Procesos y Plantas de
Producción Flexible: Técnicas de Diseño y Herramientas Gráficas
con Soporte Informático. Profit Editorial. p718.
Dahodwalla, H., Herat, S. (2000), Cleaner production options for leadacid battery manufacturing industry. Journal of Cleaner Production,
8(2), 133-142.
Fawkes, S., Oung, K., Thorpe, D. (2016), Best Practices and
Case Studies for Industrial Energy Efficiency Improvement.
Copenhagen: Introduction for Policy Makers. Copenhagen Centre
on Energy Efficiency and United Nations Environment Programme
(UNEP). Available from: http://www.unepdtu.org/media/Sites/
energyefficiencycentre/Publications/C2E2%20Publications/BestPractises-for-industriaIal-EE_web.ashx?la=da. [Last accessed on
2016 Aug 15].
Gamtessa, S., Olani, A.B. (2018), Energy price, energy efficiency,
and capital productivity: Empirical investigations and policy
implications. Energy Economics, 72, 650-666.
Gensch, C., Baron, Y., Moch, K., (2018), World Energy Balances:
Overview. Paris: Organization for Economic Cooperation and
Development.
Giacone, E., Mancò, S. (2012), Energy efficiency measurement in
industrial processes. Energy, 38, 331-345.
Gielen, D., Taylor, P. (2009), Indicators for industrial energy efficiency
in India. Energy, 34(8), 962-969.
Hens, L., Cabello, J.J., Sagastume, A., García, D., Cogollos, V.,
Vandecasteele, C. (2016), University-industry interaction on cleaner
production. The case of the cleaner production center at the university
of cienfuegos in Cuba, a country in transition. Journal of Cleaner
Production, 142, 63-68.
International Standard Organization (ISO). (2014), ISO Survey 2014.
Available from: http://www.iso.org.
ISO. (2012), 50004: 2012-Energy Management Systems-guidance for
the implementation, Maintenance and Improvement of an Energy
Management System. Geneva: International Organization for
Standardization.
ISO. (2014), 50006: 2014-Energy Management Systems. Measuring
Energy Performance using Energy Baselines (EnB) and Energy
Performance Indicators (EnPI). General Principles and Guidance.
Geneva: International Organization for Standardization.
ISO. (2019), ISO Survey 2017. Available from: https://www.iso.org/
the-iso-survey.html.
ITRI Ltd. (2017), Lead-acid Batteries Impact on Future Tin Use. Technical
Report 2017.
Jung, J., Zhang, L., Zhang, J. (2016), Lead-acid Battery Technologies.
Fundamentals, Materials, and Applications. New York: CRC Press,
Taylor and Francis Group.
Kiessling, R. (1992), Lead Acid Battery Formation Techniques. Digatron
Firing Circuits. Available from: http://www.digatron.com/fileadmin/
pdf/lead_acid.pdf.
Li, Z., Luan, X., Liu, T., Jin, B., Zhang, Y. (2014), Room Cooling Load
Calculation Based on Soft Sensing. International Conference on Life
System Modeling and Simulation and International Conference on
Intelligent Computing for Sustainable Energy and Environment.
Berlin Heidelberg, Germany: Springer. p331-341.
May, G.J., Davidson, A., Monahov, B., (2018), Lead batteries for utility
energy storage: A review. Journal of Energy Storage, 15, 145-157.
Miloloža, I. (2013), Tendencies of development of global battery market
with emphasis on republic of Croatia. Interdisciplinary Description
of Complex Systems, 11, 318-333.
Montalbano, P., Nenci, S. (2018), Energy efficiency, productivity and
exporting: Firm-level evidence in Latin America. Energy Economics.
DOI: 10.1016/j.eneco.2018.03.033.
Ospino, A. (2014), Análisis del potencial energético solar en la región
caribe para el diseño de un sistema fotovoltaico. Revista Inge-CUC,
6, 95-102.
Palamutcu, S. (2010), Electric energy consumption in the cotton textile
processing stages. Energy, 35(7), 2945-2952.
Pavlov, D. (2011), Lead-acid Batteries: Science and Technology:
A Handbook of Lead-acid Battery Technology and its Influence on
the Product. 1st ed. Ámsterdam: Elsevier.
Pavlov, D., Petkova, G., Dimitrov, M., Shiomi, M., Tsubota, M. (2000),
Influence of fast charge on the life cycle of positive lead–acid battery
plates. Journal of Power Sources, 87(1), 39-56.
Petkova, G., Pavlov, D. (2003), Influence of charge mode on the capacity
and cycle life of lead–acid battery negative plates. Journal of Power
Sources, 113(2), 355-362.
Pillot, C. (2015), The Rechargeable Battery Market and Main Trends
2014-2025. Avicenne Energy, 32nd International Battery Seminar
and Exhibit. p69.
Porter, M.E., Van der Linde, C. (1995), Toward a new conception of the
environment-competitiveness relationship. Journal of Economic Perspectives, 9(4), 97-118.
Poscha, A., Brudermann, T., Braschela, N., Gabriel, M. (2015), Strategic
energy management in energy-intensive enterprises: A quantitative
analysis of relevant factors in the Austrian paper and pulp industry.
Journal of Cleaner Production, 90, 291-299.
Rantik, M. (1999), Life Cycle Assessment of Five Batteries for Electric
Vehicles under different Charging Regimes. Stockholm: KFBKommunikations Forsknings-beredningen.
Report Buyer Ltd. (2015), Global and China Lead-acid Battery Industry
Report, 2015-2018. Available from: https://www.reportbuyer.com/
product/3548160/global-and-china-lead-acid-battery-industryreport-2015-2018.html.
Rudberg, M., Waldemarsson, M., Lidestam, H. (2013), Strategic
perspectives on energy management: A case study in the process
industry. Applied Energy, 104, 487-496.
Rydh, C.J., Sandén, B.A. (2005), Energy analysis of batteries in
photovoltaic systems. Part I: Performance and energy requirements.
Energy Conversion and Management, 46(11), 1957-1979.
Sagastume, A., Cabello, J.J., Sousa, V., Hernández, H., Hens, L.,
Vandecasteele, C. (2018), Electricity management in the production
of lead-acid batteries: The industrial case of a production plant in
Colombia. Journal of Cleaner Production, 198, 1443-1458.
Sullivan, J.L., Gaines, L. (2010), A Review of Battery Life-cycle Analysis:
State of Knowledge and Critical Needs (No. ANL/ESD/10-7). USA:
Argonne National Laboratory (ANL).
Thi, M.N. (2009), Lead Acid Batteries in Extreme Conditions: Accelerated
Charge, Maintaining the Charge with Imposed Low Current, Polarity
Inversions Introducing Non-conventional Charge Methods. Doctoral
Dissertation, Université Montpellier II-Sciences et Techniques
du Languedoc. France. Available from: https://www.tel.archivesouvertes.fr/tel-00443615/document.
Vine, E. (2005), An international survey of the energy service company
(ESCO) industry. Energy Policy, 33(5), 691-704.
Weighall, M.J. (2003), Techniques for jar formation of valve-regulated
lead–acid batteries. Journal of Power Sources, 116(1), 219-231.
Weinert, N., Chiotellis, S., Seliger, G. (2011), Methodology for planning
and operating energy-efficient production systems. CIRP Annals,
60, 41-44.
Wong, Y.S., Hurley W.G., Wölfle W.H. (2008), Charge regimes for
valve-regulated lead-acid batteries: Performance overview inclusive
of temperature compensation. Journal of Power Sources, 183(2),
783-791.
Zhang, C., Wei, Y.L., Cao, P.F., Lin, M.C. (2018), Energy storage system:
Current studies on batteries and power condition system. Renewable
and Sustainable Energy Reviews, 82, 3091-3106.
Zhu, L., Chen, J. (2019), A dynamic approach to energy efficiency
estimation in the large-scale chemical plant. Journal of Cleaner
Production, 212, 1072-1085. | |