Horizon 2020 Project “Design for Resource and Energy efficiency in CerAMic Kilns- DREAM Project (Grant No: 723641), Horizon 2020 Industrial THERMal energy recovery conversion and management (Grant No:680599) and ESPRC (Grant No: EP/P004636/1)

https://bura.brunel.ac.uk/bitstream/2438/16137/3/Fulltext.pdf

Waste Heat Recovery Technologies and Applications

The fundamentals of pyrolysis, its latest developments, the different conditions of the process and its residues are of great importance in evaluating the applicability of the pyrolysis process within the waste management sector and in waste treatment. In particular the types of residue and their further use or treatment is of extreme interest as they could become the source of secondary raw materials or be used for energy generation in waste treatments. The main area of focus of this paper is the investigation of the link between the pyrolysis conditions, the chemical and mineralogical composition of their products and the benefits of pyrolysis in the waste management sector. More specifically the paper covers the fast, intermediate and slow pyrolysis of organic waste and mixtures of inorganic and organic waste from households. The influence of catalysts during fast pyrolysis on the product yield and composition is not being considered in this review.

/pdf/potential-of-pyrolysis-processes-in-the-waste-management-1zbz34utvp.pdf

Potential of pyrolysis processes in the waste management sector

Thermal protection systems for space vehicles: A review on technology development, current challenges and future prospects

Aluminium is becoming more frequently used across industries due to its beneficial properties, generally within an alloyed form. This paper outlines the entire production process of aluminium from ore to the finished metallic alloy product. In addition, the article looks at the current state of the art technologies used in each discrete process step. Particular interest is directed towards casting technologies and secondary recycling as the relative proportion of recycled aluminium is increasing dramatically and aluminium is much more energy efficient to recycle than to produce through primary methods. Future developments within the industries are discussed, in particular inert anode technology. Aluminium production is responsible for a large environmental impact and the gaseous emissions and solid residue by-products are discussed. In addition to the environmental impact, the industry is highly energy intensive and releases a large proportion of energy to atmosphere in the form of waste heat. One method of reducing energy consumption and decreasing the environmental impact of emissions is by installing waste heat recovery technology. Applied methods to reduce energy consumption are examined, with a latter focus on potential applications within the industry for waste heat recovery technologies.

/pdf/the-aluminium-industry-a-review-on-state-of-the-art-vsfv2smgk3.pdf

The Aluminium Industry: A Review on State-of-the-Art Technologies, Environmental Impacts and Possibilities for Waste Heat Recovery

A review of carbon quantum dots and their applications in wastewater treatment.

https://bura.brunel.ac.uk/bitstream/2438/14401/3/FullText.pdf

Heat pipe based systems - Advances and applications

https://bura.brunel.ac.uk/bitstream/2438/16559/2/Fulltext.pdf

Potentials of pyrolysis processes in the waste management sector

https://bura.brunel.ac.uk/bitstream/2438/13996/5/FullText.pdf

Heat pipe based municipal waste treatment unit for home energy recovery

https://bura.brunel.ac.uk/bitstream/2438/15262/1/fulltext.pdf

Experimental investigation on a flat heat pipe heat exchanger for waste heat recovery in steel industry

https://bura.brunel.ac.uk/bitstream/2438/15246/1/Fulltext.pdf

Theodora Nannou

Papers

Heat pipe based systems - Advances and applications

Potentials of pyrolysis processes in the waste management sector

Heat pipe based municipal waste treatment unit for home energy recovery

Experimental investigation on a flat heat pipe heat exchanger for waste heat recovery in steel industry

Temperature and energy performance of open refrigerated display cabinets using heat pipe shelves