All Stories

  1. The Background to and Outcomes from the 2023 Dubai Climate Summit (COP28)
  2. ICE Energy editorial on the global achievement of 'net-zero' greenhouse gas emissions by 2050
  3. Investment Appraisal for Full-Scale UK Biofuel Refineries using Wheat Straw as a Feedstock
  4. Micro-Combined Heat and Power Systems
  5. The Achievements and Disappointments of the 2021 Glasgow Climate Pact
  6. The 2021 Glasgow Climate Pact
  7. Reflections on the 2021 UK Industrial Decarbonisation Strategy
  8. The environmental implications of an urban community and its surrounding bioregion
  9. Industrial Energy and Carbon Emissions Reduction In the UK Glass Sector
  10. 'Green' Steel-Making
  11. Evaluation of a Hybrid Process for Hydrogen Production From Biogenic Municipal Waste
  12. Editorial - Proc. Instn Civil. Engrs: Energy, 2020, Vol. 173, Issue 1, pp 1-2.
  13. The Context and Development of Socio-technical Transitions in UK Electricity Out to 2050
  14. Technology Options and Environmental Impact of Socio-technical Transitions for UK Electricity
  15. Indicative Appraisal of Clustered Micro-generators in the Home
  16. Industrial Decarbonisation of the UK Iron and Steel Sector Out to 2050
  17. The Role of Bioenergy in a Low Carbon Future for the UK
  18. Editorial for the Inaugural Issue of the new journal 'BMC Energy' (published by Springer Nature)
  19. Editorial - Energy and Climate Change Mitigation From Here To 2050
  20. Environmental footprint analysis of low carbon, more electric UK transition pathways to 2050
  21. Energy saving potential of high temperature heat pumps in the UK Food and Drink sector
  22. Analysis of the potential for energy demand and carbon emissions reduction in the iron and steel sector
  23. Industrial Energy Use and Carbon Emissions Reduction in a UK Context
  24. Thermodynamic analysis of bioethanol production from wheat straw
  25. Challenges, insights and opportunities of industrial decarbonisation in the UK
  26. Industrial decarbonisation of the UK pulp and paper sector
  27. Transition pathways and technology options for a UK low-carbon electricity system are examined.
  28. An empirical assessment of sector-level exergy analysis
  29. Environmental and resource burdens associated with an urban community and its surrounding bioregion
  30. Thermodynamic analysis of bioethanol production from wheat straw
  31. Thermodynamic insights and assessment of the ‘circular economy’
  32. Energy demand and carbon emissions reduction in the UK chemicals sector
  33. Realising transition pathways to a low-carbon future
  34. Reconciling qualitative storylines and quantitative descriptions: An iterative approach
  35. Opportunities for Energy Demand and Carbon Emissions Reduction in the Chemicals Sector
  36. Realising UK Electricity Transition Pathways - Challenges, Insights and Opportunities
  37. The thermodynamic implications of electricity end-use for heat and power
  38. An indicative energy technology assessment of the Cardiff-Weston Tidal Barrage (UK)
  39. The life cycle greenhouse gas implications of a UK gas supply transformation on a future low carbon electricity sector
  40. The potential environmental consequences of shifts in UK energy policy that impact on electricity generation
  41. Industrial energy use and carbon emissions reduction
  42. Detailed simulation of electrical demands due to nationwide adoption of heat pumps, taking account of renewable generation and mitigation
  43. Energy Technology Assessment of Shale Gas ‘Fracking’ in the UK
  44. Potential for use of heat rejected from industry in district heating networks, GB perspective
  45. Life-cycle Energy Densities and Spatial Footprints of Various Electrical Power Systems
  46. Energy efficiency potentials: Contrasting thermodynamic, technical and economic limits for organic Rankine cycles within UK industry
  47. Editorial
  48. Carbon and Environmental Footprinting of World Biofuel Production Out to 2050
  49. Carbon and Environmental Footprinting
  50. Progress in energy demand reduction – from here to 2050
  51. Energy Technology Assessment of Shale Gas ‘Fracking’ – A UK Perspective
  52. Life-cycle Environmental Impact of Energy Systems
  53. Indicative Energy Technology Assessment of Advanced Rechargeable Batteries
  54. The 20% house – An integrated assessment of options for reducing net carbon emissions from existing UK houses
  55. An Indicative Energy Technology Assessment of the ‘Shoots Barrage’ Tidal Power Scheme (UK)
  56. An energy and carbon life cycle assessment of industrial CHP (combined heat and power) in the context of a low carbon UK
  57. Impact on energy requirements and emissions of heat pumps and micro-cogenerators participating in demand side management
  58. Prospects for Coal-fired Power Plants with Carbon Capture and Storage (CCS) in a UK Context
  59. Editorial: Progress in energy demand reduction – from here to 2050
  60. Prospects for emissions reduction in the UK cement sector
  61. Book review: The Social Dynamics of Carbon Capture and Storage: Understanding CCS Representations, Governance and Innovation MarkussonN. ShackleyS. EvarB. Routledge (The Earthscan Science in Society Series), London, UK, 2012, 978-1-84971-315-3, £29·99 ...
  62. Heat recovery opportunities in UK industry
  63. The implications of upstream emissions from the power sector
  64. Effect of operating conditions on performance of domestic heating systems with heat pumps and fuel cell micro-cogeneration
  65. Contrasting Thermodynamic, Technical and Economic Potentials: The Example of Organic Rankine Cycle Use within UK Industry
  66. Energy Density and Spatial Footprints of Various Electrical Power Systems
  67. Carbon and Environmental Footprinting of Global Biofuel Production
  68. A Briefing Paper on Carbon Capture and Storage (CCS) Faces a Challenging Future
  69. Potential of Demand Side Management to Reduce Carbon Dioxide Emissions Associated with the Operation of Heat Pumps
  70. Special issue on micro-generation and related energy technologies and practices for low carbon buildings
  71. Life cycle assessment of a small-scale anaerobic digestion plant from cattle waste
  72. The energy and environmental implications of UK more electric transition pathways: A whole systems perspective
  73. Challenges of the transition to a low carbon, more electric future: From here to 2050
  74. Carbon and Environmental Footprinting of Low Carbon UK Electricity Futures to 2050
  75. Environmental life cycle assessment of bioethanol production from wheat straw
  76. Thermodynamic efficiency of low-carbon domestic heating systems: heat pumps and micro-cogeneration
  77. Assessment of community energy supply systems using energy, exergy and exergoeconomic analysis
  78. Environmental life cycle assessment of lignocellulosic conversion to ethanol: A review
  79. Book review: Energy and Carbon Emissions: The Way We LiveEnergy and Carbon Emissions: The Way We Live Terry Nicola. UIT, Cambridge, UK, 2011, ISBN 978 1 90686 014 1, £9.99, 256 pp.
  80. Impact review of past UK public industrial energy efficiency RD&D programmes
  81. An energy and carbon life cycle assessment of tidal power case study: The proposed Cardiff–Weston severn barrage scheme
  82. Risk assessment of UK biofuel developments within the rapidly evolving energy and transport sectors
  83. Editorial
  84. Carbon footprints in a bipolar, climate-constrained world
  85. Decomposition analysis of energy-related carbon emissions from UK manufacturing
  86. Whole systems appraisal of a UK Building Integrated Photovoltaic (BIPV) system: Energy, environmental, and economic evaluations
  87. Greenhouse gas reporting for biofuels: A comparison between the RED, RTFO and PAS2050 methodologies
  88. Barriers to and drivers for UK bioenergy development
  89. Techno-economic appraisal of fossil-fuelled power generation systems with carbon dioxide capture and storage
  90. Developing transition pathways for a low carbon electricity system in the UK
  91. North and south: Regional footprints on the transition pathway towards a low carbon, global economy
  92. Ecological Debt: Exploring the Factors that Affect National Footprints
  93. Thermodynamic and carbon analyses of micro-generators for UK households
  94. Integrated appraisal of a Solar Hot Water system
  95. The Lebanese electricity system in the context of sustainable development
  96. Egalite, fraternite, sustainabilite: evaluating the significance of regional affluence and population growth on carbon emissions
  97. The Influence of Thermodynamic Ideas on Ecological Economics: An Interdisciplinary Critique
  98. Embodied Carbon: The Concealed Impact of Residential Construction
  99. Integrated appraisal of a building integrated photovoltaic (BIPV) system
  100. Enabling technologies for industrial energy demand management
  101. A bioenergy resource assessment for the south west of England
  102. Guest Editorial
  103. Energy analysis and environmental life cycle assessment of a micro-wind turbine
  104. Risk assessment of UK electricity supply in a rapidly evolving energy sector
  105. Prospects for and barriers to domestic micro-generation: A United Kingdom perspective
  106. Development of biofuels for the UK automotive market
  107. Embodied energy and carbon in construction materials
  108. Integrated appraisal of micro-generators: methods and applications
  109. Developing transition pathways for a low carbon electricity system in the UK
  110. Development of design for remanufacturing guidelines to support sustainable manufacturing
  111. Footprints on the landscape: An environmental appraisal of urban and rural living in the developed world
  112. Development of robust design-for-remanufacturing guidelines to further the aims of sustainable development
  113. Industrial energy analysis, thermodynamics and sustainability
  114. Industrial energy-analysis and management: A European perspective
  115. Time to give due weight to the 'carbon footprint' issue
  116. Thermodynamic and related analysis of natural gas combined cycle power plants with and without carbon sequestration
  117. Energy and sustainability in a complex world: Reflections on the ideas of Howard T. Odum
  118. ?People, planet and prosperity?: The determinants of humanity's environmental footprint
  119. Towards sustainability: energy efficiency, thermodynamic analysis, and the ‘two cultures’
  120. Sustainability and the built environment at and beyond the city scale
  121. Science, sustainability and the establishment in a technological age
  122. The use and misuse of thermodynamic ideas outside the sphere of engineering
  123. Predicting boiling heat transfer using computational fluid dynamics
  124. Life-Cycle Assessment of Mineral and Rapeseed Oil in Mobile Hydraulic Systems
  125. Convective coolant heat transfer in internal combustion engines
  126. The Low-Down on Entropy and Interpretive Thermodynamics
  127. Thermal performance of a trapezoidal-shaped solar collector/energy store
  128. Exergy analysis of the United Kingdom energy system
  129. Energy, Environment and Sustainable Development
  130. Alternative Energy Strategies for the United Kingdom Revisited
  131. Nuclear Energy into the 21st Century
  132. Nuclear energy into the twenty-first century
  133. Projections of UK oil and gas supply and demand to 2010
  134. An intermediate-level model of external convection for building energy simulation
  135. Turbulent Prandtl Number Distribution within a Near-Wall Flow
  136. Improved data correlations for buoyancy-driven convection in rooms
  137. Complete Velocity Profile and “Optimum” Skin Friction Formulas for the Plane Wall-Jet
  138. Intermittent air injection into rooms—the isothermal ceiling jet
  139. Mixing of two intersecting plane turbulent air jets
  140. An interferometric study of a cold air jet with by-pass streams issuing into still ambient air
  141. Nuclear Power in the Twenty-first Century
  142. Sustainability Criteria for Energy Resources and Technologies
  143. A Robust Description and Tool for Remanufacturing: A Resource and Energy Recovery Strategy