Your search keyword '"Excess heat"' showing total 853 results

1. Multi-agent Based Modeling for Investigating Excess Heat Utilization from Electrolyzer Production to District Heating Network

Author

Christensen, Kristoffer, Jørgensen, Bo Nørregaard, Ma, Zheng Grace, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Jørgensen, Bo Nørregaard, editor, Ma, Zheng Grace, editor, Wijaya, Fransisco Danang, editor, Irnawan, Roni, editor, and Sarjiya, Sarjiya, editor

Published

2025

2. Stakeholder interfaces for excess heat-based urban heat supply— Input from Swedish cases

Author

Kristina Lygnerud, Nathalie Fransson, and Sofia Klugman

Subjects

District heating, Excess heat, Cooperation, Stakeholders, Success factors, Environmental sciences, GE1-350, Urban groups. The city. Urban sociology, HT101-395

Abstract

Excess heat is generated from different industrial processes and from urban infrastructure (sewage water, transport, datacentres and buildings). Thirty-five percent of the European energy demand for heating and cooling could be met by excess heat. Today, however, this energy reserve is barely exploited. There are known barriers to excess heat recovery but limited information on stakeholder interactions in the early stages of excess heat collaborations and on successful collaborations. Sweden is world champion in terms of excess heat recovery into district heating systems, and the country has a long tradition in this field (dating back to the 1970 s). By studying two cases, we shed light on success factors in the early stages and in successful collaborations. We identify that the main success factors for excess heat recovery are (i) trust between the collaborating partners, (ii) the involvement of as many stakeholders across the DH (District Heating) value chain as possible (in the decision-making process), (iii) the establishment of joint goals, and (iv) the identification of a business model allowing for a win-win solution that prioritizes excess heat recovery and secures funding for the necessary investments. Excess heat recovery investments have features similar to those of other investments in climate change mitigation, making the success factors relevant to applications beyond the case of excess heat recovery.

Published

2024

3. Confirmation of Anomalous-heat Report.

Author

Krivit, Steven B. and Miles, Melvin H.

Subjects

NUCLEAR reactions, ELECTROCHEMISTRY

Abstract

Copyright of Journal of Electrochemistry is the property of Journal of Electrochemistry Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

4. A realistic view on heat reuse from direct free air-cooled data centres

Author

Hampus Markeby Ljungqvist, Mikael Risberg, Andrea Toffolo, and Mattias Vesterlund

Subjects

Data centre, Heat reuse, Excess heat, Waste heat, Heat recovery, Energy reuse factor, Engineering (General). Civil engineering (General), TA1-2040

Abstract

This paper examines the opportunities to reuse excess heat from direct free air-cooled data centres without incorporating heat pumps to upgrade the heat. The operation of a data centre in northern Sweden, Luleå, was simulated for a year. It was established that heat losses through the thermal envelope and from the humidification of the cooling airflow influenced the momentary energy reuse factor, iERF, with up to 7%. However, for the annual energy reuse factor, ERF, the heat losses could be neglected since they annually contributed to an error of less than 1%.It was shown that the ideal heat reuse temperature in Luleå was 13, 17, and 18 °C with an exhaust temperature of 30, 40 and 50 °C. The resulting ERF was 0.50, 0.59 and 0.66, meaning that a higher exhaust temperature resulted in potentially higher heat reuse. It could also be seen that raising the exhaust temperature lowered the power usage effectiveness, PUE, due to more efficient cooling.Using heat reuse applications with different heat reuse temperatures closer to the monthly average instead of an ideal heat reuse temperature for the whole year improved the ERF further. The improvement was 11–31% where a lower exhaust temperature meant a higher relative improvement.

Published

2023

5. Fundamental Relation for Gas of Interacting Particles in a Heat Flow.

Author

Hołyst, Robert, Makuch, Karol, Giżyński, Konrad, Maciołek, Anna, and Żuk, Paweł J.

Subjects

*THERMODYNAMIC equilibrium, *GRANULAR flow, *NONEQUILIBRIUM thermodynamics, *FIRST law of thermodynamics, *BOSE-Einstein gas, *GAS flow, *IDEAL gases

Abstract

There is a long-standing question of whether it is possible to extend the formalism of equilibrium thermodynamics to the case of nonequilibrium systems in steady-states. We have made such an extension for an ideal gas in a heat flow. Here, we investigated whether such a description exists for the system with interactions: the van der Waals gas in a heat flow. We introduced a steady-state fundamental relation and the parameters of state, each associated with a single way of changing energy. The first law of nonequilibrium thermodynamics follows from these parameters. The internal energy U for the nonequilibrium states has the same form as in equilibrium thermodynamics. For the van der Waals gas, U (S * , V , N , a * , b *) is a function of only five parameters of state (irrespective of the number of parameters characterizing the boundary conditions): the effective entropy S * , volume V, number of particles N, and rescaled van der Waals parameters a * , b * . The state parameters, a * , b * , together with S * , determine the net heat exchange with the environment. The net heat differential does not have an integrating factor. As in equilibrium thermodynamics, the steady-state fundamental equation also leads to the thermodynamic Maxwell relations for measurable steady-state properties. [ABSTRACT FROM AUTHOR]

Published

2023

6. Bidding strategies for excess heat producers participating in a local wholesale heat market

Author

Borna Doračić, Matija Pavičević, Tomislav Pukšec, and Neven Duić

Subjects

District heating, Excess heat, Renewable energy sources, Heat market, Energy planning, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The heating sector of the European Union covers 80% of the household’s final energy consumption, which shows its relevance for the energy transition to the carbon neutral society, as set out in the Green Deal. Since most of the heat demand is located in the high heat density areas, district heating shows to be a promising solution for reducing the environmental impact of this sector, as it enables the utilisation of renewable energy sources and the use of high efficiency production technologies. An especially interesting source for district heating is excess heat from various industries and tertiary sector buildings, which has a significant technical potential. However, to enable excess heat producers to supply their heat to district heating, third-party access needs to be granted, which calls for a deregulated heat market.This work consists of analysing two different bidding strategies which can be applied on the heat market: total cost and marginal cost biding. The focus here is to research the feasibility of the excess heat sources when different bidding strategies are used, especially when low temperature excess heat is considered, which has variable hourly costs due to the electricity demand for operating a heat pump. The results show that, despite the increased capacity factor of low temperature excess heat when marginal cost biding is used, it remains infeasible when supplying heat to the high temperature district heating networks through a heat market. Therefore, lower temperature district heating is a necessity for a feasible utilisation of low temperature excess heat. Finally, the effect of the power market prices on the low temperature excess heat feasibility was analysed and it was shown that it is significant, which led to the conclusion that introducing a higher share of renewables into the power market could foster the utilisation of these heat sources.

Published

2022

7. 5th generation district heating and cooling (5GDHC) implementation potential in urban areas with existing district heating systems

Author

Anna Volkova, Ieva Pakere, Lina Murauskaite, Pei Huang, Kertu Lepiksaar, and Xinxing Zhang

Subjects

5GDHC, Urban waste heat, Excess heat, Heat pumps, Data centres, District cooling, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The 5th Generation District Heating and Cooling (5GDHC) network has great advantages in terms of integration of low-temperature resources, bi-directional operation, decentralised energy flows, and possible energy sharing. One way to develop the idea and concept of 5GDHC is to identify potential agents, including residential buildings, office buildings, shopping malls, data centres, electrical transformers, and so on, in 5GDHC in each target context. The prospects for 5GDHC have been assessed in light of the conditions in the Baltics. The multi-criteria analysis method was used to quantify the main identified barriers and drivers behind the implementation of 5GDHC systems. It should be noted that new urban areas in the Baltic states are being actively developed with low-energy buildings, so 5GDHS can be integrated to supply heat to these areas. The highest score in the multi-criteria assessment was achieved by Lithuania due to support availability and open heating market conditions. When all applied criteria are weighted equally, Estonia has the most favourable conditions for 5GDHC systems due to widespread use of heat pumps and greater excess heat potential.

Published

2022

8. Design approach to extend and decarbonise existing district heating systems-case study for German cities.

Author

Divkovic, Denis, Knorr, Lukas, and Meschede, Henning

Subjects

WASTE heat, ENERGY demand management, BIOMASS, HEATING from central stations, ENERGY consumption

Abstract

This paper aims to present an approach for the planning of carbon low heat supply in a future district heating system based on open data for German cities with existing district heating networks. One focus is on the integration of industrial waste heat and the uncertainty of future waste heat sources as well as restrictions on the use of biomass. For that purpose, knowledge about the energy demand is necessary. In a first step it is shown how the demand around a heating network is estimated with spatial data and a load profile is generated. Local available heat sources are examined according to their suitability and their kind of integration in the heating network. As heat production from different units are optimised, the development of a simulation model will be presented. The simulation is based on the optimisation of the operational costs of the used technologies for heating supply. Different scenarios covering various technologies and economic assumptions are applied. The results show the levelized costs of heating as well as the ecological performance. A sensitivity analysis shows the importance of uncertainties for the economic assumptions. The results showing levelized costs of heating as well as the ecological performance underlining the advantage of excess heat integration. [ABSTRACT FROM AUTHOR]

Published

2023

9. Design approach to extend and decarbonise existing district heating systems - case study for German cities

Author

Denis Divkovic, Lukas Knorr, and Henning Meschede

Subjects

District heating, Spatial data, Heat Demand, Excess Heat, Energy System Model, Public Data, Engineering (General). Civil engineering (General), TA1-2040, Social sciences (General), H1-99

Abstract

This paper aims to present an approach for the planning of carbon low heat supply in a future district heating system based on open data for German cities with existing district heating networks. One focus is on the integration of industrial waste heat and the uncertainty of future waste heat sources as well as restrictions on the use of biomass. For that purpose, knowledge about the energy demand is necessary. In a first step it is shown how the demand around a heating network is estimated with spatial data and a load profile is generated. Local available heat sources are examined according to their suitability and their kind of integration in the heating network. As heat production from different units are optimised, the development of a simulation model will be presented. The simulation is based on the optimisation of the operational costs of the used technologies for heating supply. Different scenarios covering various technologies and economic assumptions are applied. The results show the levelized costs of heating as well as the ecological performance. A sensitivity analysis shows the importance of uncertainties for the economic assumptions. The results showing levelized costs of heating as well as the ecological performance underlining the advantage of excess heat integration.

Published

2023

10. Policy implications of challenges and opportunities for district heating – The case for a Nordic heating system.

Author

Vilén, Karl, Lygnerud, Kristina, and Ahlgren, Erik O.

Subjects

*HOUSING, *TEMPERATURE distribution, *WASTE recycling, *ENERGY consumption, *HEAT of combustion, *HEATING from central stations, *WASTE heat

Abstract

District heating (DH) is an efficient urban heating solution. Numerous external factors (energy efficiency, fuel-price increases, heat -pump competition and policy changes) are challenging. It is relevant to explore long-term cost-competitiveness of DH. A model has been developed testing three, future DH pathways: (i) phase out of biomass (aligned to the cascading principle of the EU Taxonomy), (ii) including waste heat in the fuel supply mix (aligned to the updated Energy Efficiency Directive) and (iii) lower system temperatures (aligned to the idea of more renewables and waste heat). The model considers the long-term development of the supply and demand sides together and simultaneously. This allows the model to determine the most cost-efficient heating solution for different building types in different points in time. The results confirm that a phaseout of biomass would erode -but that developments rendering lower system temperatures and increased waste heat utilization would strengthen-the DH business case. Additionally, it is confirmed that heat pumps constitute the main competition to DH. Hence, to remain a cost-efficient heating alternative in the future, DH systems need to revisit the tradition of centralized heat supply resorting to combustion for decentralized heat supply resorting to heat supply on demand. • Local heating system modeling with new housing of different types. • Three different district heating possibilities and challenges are investigated in scenarios. • Decreased use of district heating with a phase out of biomass. • Increased district heating use with a lower district heating distribution temperature. • Somewhat increased district heating use with utilization of a new industrial excess heat source. [ABSTRACT FROM AUTHOR]

Published

2024

11. District Heating Business Models and Policy Solutions: Financing Utilization of Low-Grade Industrial Excess Heat in the People’s Republic of China

Author

Liu, Yang, Hu, Shan, Dean, Brian, Yao, Xilong, Yano, Makoto, Series Editor, Liu, Yang, editor, Taghizadeh-Hesary, Farhad, editor, and Yoshino, Naoyuki, editor

Published

2021

12. The Hot Climate of the Middle East

Author

Mirzaei, Parham A., Aghamolaei, Reihaneh, Dahiya, Bharat, Series Editor, Kirby, Andrew, Editorial Board Member, Friedberg, Erhard, Editorial Board Member, Singh, Rana P. B., Editorial Board Member, Yu, Kongjian, Editorial Board Member, El Sioufi, Mohamed, Editorial Board Member, Campbell, Tim, Editorial Board Member, Hayashi, Yoshitsugu, Editorial Board Member, Bai, Xuemei, Editorial Board Member, Haase, Dagmar, Editorial Board Member, Enteria, Napoleon, editor, Santamouris, Matteos, editor, and Eicker, Ursula, editor

Published

2021

13. Effect of localisation and climate change on operation of data centres in Ukraine towards 2050

Author

Stefan N. Petrović, Morten Andreas Dahl Larsen, Alessandro Colangelo, Oleksandr Diachuk, Roman Podolets, Andrii Semeniuk, Chiara Delmastro, and Olexandr Balyk

Subjects

Energy demand, Cooling, Excess heat, Electricity use, Energy efficiency, Energy industries. Energy policy. Fuel trade, HD9502-9502.5

Abstract

Data centres (DCs) are large electricity consumers, estimated to account for around 1% of worldwide electricity usage. They release excess heat (EH) during the operation, which can be recovered in district heating (DH) networks. DCs are expected to satisfy the rising demand for digital services.The electricity usage for cooling and available EH from the operation of DCs depends on the air temperature that changes with geographical location. The changes are not uniform and global warming pathways will influence them. Here lays the contribution of the present article. We use an existing thermodynamic model of a hyper-scale DC for different locations in Ukraine to analyse the electricity usage for cooling and EH availability for two climate scenarios (RCP2.6 and RCP 4.5) in 2010–2050.The results show that the electricity consumption for cooling and available EH can vary greatly within Ukraine. The electricity consumption for cooling is over two times higher in the hottest compared to the coldest location in the country, while the emitted EH is around 80% higher on average. The global climate pathway has a minor influence — the electricity use for cooling and EH availability are 4% higher in RCP4.5 than in RCP2.6. Finally, one hyper-scale DC of 150 MW could cover the demand for space heating and domestic hot water for roughly 100 thousand people. This assessment is an important input to consider when developing plans to rebuild Ukraine.

Published

2023

14. Fundamental Relation for Gas of Interacting Particles in a Heat Flow

Author

Robert Hołyst, Karol Makuch, Konrad Giżyński, Anna Maciołek, and Paweł J. Żuk

Subjects

thermodynamics, entropy, steady-state, excess heat, nonequilibria, Science, Astrophysics, QB460-466, Physics, QC1-999

Abstract

There is a long-standing question of whether it is possible to extend the formalism of equilibrium thermodynamics to the case of nonequilibrium systems in steady-states. We have made such an extension for an ideal gas in a heat flow. Here, we investigated whether such a description exists for the system with interactions: the van der Waals gas in a heat flow. We introduced a steady-state fundamental relation and the parameters of state, each associated with a single way of changing energy. The first law of nonequilibrium thermodynamics follows from these parameters. The internal energy U for the nonequilibrium states has the same form as in equilibrium thermodynamics. For the van der Waals gas, U(S*,V,N,a*,b*) is a function of only five parameters of state (irrespective of the number of parameters characterizing the boundary conditions): the effective entropy S*, volume V, number of particles N, and rescaled van der Waals parameters a*, b*. The state parameters, a*, b*, together with S*, determine the net heat exchange with the environment. The net heat differential does not have an integrating factor. As in equilibrium thermodynamics, the steady-state fundamental equation also leads to the thermodynamic Maxwell relations for measurable steady-state properties.

Published

2023

15. How Much Excess Heat Might Be Used in Buildings? A Spatial Analysis at the Municipal Level in Germany.

Author

Fritz, Markus, Aydemir, Ali, and Schebek, Liselotte

Subjects

*GREENHOUSE gas mitigation, *DEMAND forecasting, *INDUSTRIAL sites, *GAS as fuel, *WASTE gases, *HOT water

Abstract

Excess heat can make an important contribution to reduce greenhouse gas emissions in the heating and cooling sector. Due to the local character of heat, the local excess heat potential is decisive for using excess heat. However, the spatially distributed potential and the subdivision of the potential into different subsectors have not been sufficiently investigated in Germany. Here we analyse the excess heat potential in Germany according to different subsectors and spatially distributed to the municipal level. We use data of more than 115,000 records on exhaust gas and fuel input from over 11,000 industrial sites. We calculate the site-specific excess heat potential and check its plausibility using the fuel input of the respective industrial sites. Finally, we compare the excess heat potential with the residential heat demand at the municipal level. Our results show that the excess heat potential in Germany is about 36.6 TWh/a, and that in 148 municipalities, the annual excess heat potential is greater than 50% of the annual heat demand. In conclusion, there is a large potential for excess heat utilisation in Germany. In some regions, more excess heat is available throughout the year than is needed to provide space heat and hot water. [ABSTRACT FROM AUTHOR]

Published

2022

16. Potential of treated wastewater as an energy source for district heating: Incorporating social elements into a multi-factorial comparative assessment for cities.

Author

Lagoeiro, Henrique, Maidment, Graeme, and Ziemele, Jelena

Subjects

*WASTE heat, *HEATING from central stations, *CITIES & towns, *HEAT recovery, *SEWAGE, *HEAT pumps, *ECONOMIC impact

Abstract

Recovering waste heat from urban infrastructures is gaining greater importance in the context of decarbonisation. However, evaluating the feasibility of waste heat recovery projects requires a holistic analysis of potential impacts, which includes social elements that are often overlooked. This paper introduces a novel methodology for assessing the competitiveness of waste heat integration into district heating, based on a multi-factorial decision support tool that incorporates energy poverty as a key performance indicator, in addition to energy, environmental and economic factors. The comparative assessment is based on the implementation of large-scale heat pumps recovering wastewater heat, a resource of great potential that is still underutilised in Europe. The methodology is tested in the cities of London and Riga, which are in countries with significantly different stages of DH development. In London, an emerging market with high growth potential, and in Riga, where there is a well-established DH system. The study has shown that waste heat can significantly reduce consumers' bills for heating, which was observed in all analysed scenarios. The social benefit decreases when the replaced technology involves biomass heat-only boilers or combined heat and power. The methodology presented is generic and can be applied to other locations and heat sources. • The impacts of waste heat utilisation are compared in the cities Riga and London. • Significant economic, environmental and social benefits achieved by waste heat exploitation. • Levelized cost savings achieved by integrating wastewater heat into DH can help to mitigate energy poverty. • Environmental impact of waste heat integration is lower in DH system based on biomass or CHP. • Low prices of CO 2 quotas require additional justification for waste heat integration. [ABSTRACT FROM AUTHOR]

Published

2024

17. Excess‐Heat Recovery and Promotion through Organic Chemical Heat Pumps.

Author

Pinela da Silva, Luis António, João, Isabel Maria, and Silva, João Miguel

Subjects

*HEAT pumps, *ORGANIC compounds, *ISOPROPYL alcohol, *HEAT recovery, *ACETONE, *ECONOMIC indicators, *BUTANOL, *ECONOMIC competition

Abstract

Heat recovery and promotion is essential to decarbonization, and chemical heat pumps based on reversible organic reactions can aid to fulfil this. This paper studied the isopropanol/acetone/hydrogen (IAH) and the tert‐butanol/isobutene/water (tB/iB) systems regarding their performance and economic competitiveness through simulation and found that the IAH presents satisfactory performance and has the potential to be a very promising solution in increasing the overall energy efficiency while also preventing the emission of massive amounts of CO2 and other greenhouse gases released during energy production and transformation. This system presents enough arguments to become a very successful solution if proper politico‐economic support and incentives are established and put into practice. [ABSTRACT FROM AUTHOR]

Published

2021

18. Renewable energy and waste heat recovery in district heating systems in China: A systematic review.

Author

Yuan, Meng, Vad Mathiesen, Brian, Schneider, Noémi, Xia, Jianjun, Zheng, Wen, Sorknæs, Peter, Lund, Henrik, and Zhang, Lipeng

Subjects

*HEAT recovery, *HEATING from central stations, *RENEWABLE energy sources, *HEATING, *HEAT storage, *WASTE heat

Abstract

Decarbonising the heating sector is one of the key elements to realizing the ambitious dual carbon goals of China, which is the largest carbon emitter and energy consumer globally. Currently, district heating (DH) systems have penetrated approximately 88% of the urban heating areas in Northern China. Nevertheless, around 90% of the heating demand in China still relies on fossil fuels. A larger scale integration of renewable energy and waste heat sources into the DH systems is critical for decarbonising the entire heating sector in China. However, a deeper level of comprehension is required to harness its full potential. This paper provides a thorough investigation of the status, potential, and national policy schemes of renewable energy and waste heat recovery in the DH systems of China. Combined with a critical review of recent literature on relevant areas published in both international and Chinese domestic sources, the trends, challenges, and future perspectives are discussed from scientific research and practical implementation aspects. This paper highlights the synergy of the integration of renewable energy and waste heat sources in DH, the energy efficiency improvements as well as the use of thermal storage technologies through the implementation of 4th generation district heating and smart energy systems that could offer a more economically viable pathway forward. • Focus on renewable energy and waste heat (REWH) in the district heating (DH) systems in China. • A systematic review of REWH in Chinese DH systems from status, policy, and literature aspects. • Identification of research gaps based on the review of both international and Chinese journals. • Policy recommendations proposed to promote REWH in Chinese DH systems. • The introduction of international experiences on REWH in DH for analysis in the Chinese context. [ABSTRACT FROM AUTHOR]

Published

2024

19. How Much Excess Heat Might Be Used in Buildings? A Spatial Analysis at the Municipal Level in Germany

Author

Markus Fritz, Ali Aydemir, and Liselotte Schebek

Subjects

waste heat, excess heat, spatial analysis, industrial energy demand, heat demand, industrial subsectors, Technology

Abstract

Excess heat can make an important contribution to reduce greenhouse gas emissions in the heating and cooling sector. Due to the local character of heat, the local excess heat potential is decisive for using excess heat. However, the spatially distributed potential and the subdivision of the potential into different subsectors have not been sufficiently investigated in Germany. Here we analyse the excess heat potential in Germany according to different subsectors and spatially distributed to the municipal level. We use data of more than 115,000 records on exhaust gas and fuel input from over 11,000 industrial sites. We calculate the site-specific excess heat potential and check its plausibility using the fuel input of the respective industrial sites. Finally, we compare the excess heat potential with the residential heat demand at the municipal level. Our results show that the excess heat potential in Germany is about 36.6 TWh/a, and that in 148 municipalities, the annual excess heat potential is greater than 50% of the annual heat demand. In conclusion, there is a large potential for excess heat utilisation in Germany. In some regions, more excess heat is available throughout the year than is needed to provide space heat and hot water.

Published

2022

20. MATHEMATICAL AND EXPERIMENTAL SIMULATION OF CARBON OXIDES AND EXCESS HEAT PROPAGATION IN GAS-AIR INDOOR ENVIRONMENT

Author

Besarion C. Meskhi, Evgeny I. Maslov, Arkady N. Solovyev, Yury I. Bulygin, and Denis A. Koronchik

Subjects

air pollution, excess heat, concentration, temperature, ventilation., Mechanics of engineering. Applied mechanics, TA349-359

Abstract

Results of the mathematical and experimental simulation of the distribution of carbon monoxide and excess heat in the air of the garage premises are presented. Fields of air movement, carbon oxide concentration and temperature indoor comparable to the experimental data have been obtained on the ground of the theoretical and experimental method.

Published

2018

21. EXCESS HEAT UTILISATION COMBINED WITH THERMAL STORAGE INTEGRATION IN DISTRICT HEATING SYSTEMS USING RENEWABLES.

Author

DORAČIĆ, Borna, GROZDEK, Marino, PUKŠEC, Tomislav, and DUIĆ, Neven

Subjects

*HEAT storage, *HEATING, *COGENERATION of electric power & heat, *SOLAR thermal energy, *HEATING from central stations, *HEAT

Abstract

District heating systems already play an important role in increasing the sustainability of the heating sector and decreasing its environmental impact. However, a high share of these systems is old and inefficient and therefore needs to change towards the 4th generation district heating, which will incorporate various energy sources, including renewables and excess heat of different origins. Especially excess heat from industrial and service sector facilities is an interesting source since its potential has already been proven to be highly significant, with some researches showing that it could cover the heat demand of the entire residential and service sector in Europe. However, most analyses of its utilisation in district heating are not done on the hourly level, therefore not taking into account the variability of its availability. For that reason, the main goal of this work was to analyse the integration of industrial excess heat into the district heating system consisting of different configurations, including the zero fuel cost technologies like solar thermal. Furthermore, cogeneration units were a part of every simulated configuration, providing the link to the power sector. Excess heat was shown to decrease the operation of peak load boiler and cogeneration, that way decreasing the costs and environmental effect of the system. However, since its hourly availability differs from the heat demand, thermal storage needs to be implemented in order to increase the utilisation of this source. The analysis was performed on the hourly level in the energyPRO software. [ABSTRACT FROM AUTHOR]

Published

2020

22. The "anomalous heat effect" is a normal event in the cold fusion phenomenon – On the paper "excess heat evolution from nanocomposite samples under exposure to hydrogen isotope gases" by Kitamura et al. Published in the int. J. Hydrogen Energy43, pp. 16,187–16,200 (2018) –

Author

Kozima, Hideo

Subjects

*COLD fusion, *HYDROGEN isotopes, *HYDROGEN as fuel, *NUCLEAR energy, *HYDROGEN, *DEUTERIUM, *NUCLEAR reactions

Abstract

The anomalous heat effect reported in the paper, "Excess heat evolution from nanocomposite samples under exposure to hydrogen isotope gases" by Kitamura et al. published in the Int. J. Hydrogen Energy 43 , pp. 16,187–16,200 (2018), is investigated in the science of the cold fusion phenomenon (CFP) established in these 30 years. It is concluded that the effect is a normal event in the CFP consistent with many events observed in materials with various components and compositions composed of host elements and hydrogen isotopes. • Cold fusion phenomenon means the nuclear reactions in solids with hydrogen isotopes. • Nuclear reactions occur in solids without any acceleration mechanism. • Excess energy accompanied to the nuclear reaction is useful for an energy source. [ABSTRACT FROM AUTHOR]

Published

2020

23. A realistic view on heat reuse from direct free air-cooled data centres

Author

Markeby Ljungqvist, Hampus, Risberg, Mikael, Toffolo, Andrea, Vesterlund, Mattias, Markeby Ljungqvist, Hampus, Risberg, Mikael, Toffolo, Andrea, and Vesterlund, Mattias

Abstract

This paper examines the opportunities to reuse excess heat from direct free air-cooled data centres without incorporating heat pumps to upgrade the heat. The operation of a data centre in northern Sweden, Luleå, was simulated for a year. It was established that heat losses through the thermal envelope and from the humidification of the cooling airflow influenced the momentary energy reuse factor, iERF, with up to 7%. However, for the annual energy reuse factor, ERF, the heat losses could be neglected since they annually contributed to an error of less than 1%. It was shown that the ideal heat reuse temperature in Luleå was 13, 17, and 18 °C with an exhaust temperature of 30, 40 and 50 °C. The resulting ERF was 0.50, 0.59 and 0.66, meaning that a higher exhaust temperature resulted in potentially higher heat reuse. It could also be seen that raising the exhaust temperature lowered the power usage effectiveness, PUE, due to more efficient cooling. Using heat reuse applications with different heat reuse temperatures closer to the monthly average instead of an ideal heat reuse temperature for the whole year improved the ERF further. The improvement was 11–31% where a lower exhaust temperature meant a higher relative improvement., Validerad;2023;Nivå 2;2023-11-15 (hanlid);Full text license: CC BY

Published

2023

24. Evaluation of Excess Heat Driven Carbon Capture Integrated at a Swedish Pulp Mill

Author

Nilsson, Frida and Nilsson, Frida

Abstract

As the atmospheric carbon dioxide keeps increasing, bioenergy with carbon capture and storage (BECCS) is getting increased attention as a measure to reduce the emissions of carbon dioxide. It is especially interesting in Sweden where the extensive paper and pulp industry constitutes point sources of biogenic carbon dioxide. As carbon capture requires energy, it is important to investigate the opportunity to use excess heat to cover the energy demand in order to avoid causing new emission which would counteract the purpose of implementing BECCS. In this thesis, integration of excess heat driven carbon capture was investigated on two flue gas streams at the Södra Cell Värö pulp mill in Sweden: the recovery boiler and lime kiln flue gases. Three different carbon capture technologies were investigated, which included the commercially available aqueous MEA (monoethanolamine) and HPC (hot potassium carbonate) as well as the novel technology of AMP (2-amino-2-methyl-1-propanol) in DMSO (dimethyl sulfoxide). Their energy demands were calculated through mass and energy balances. A mapping of sources of excess heat at the mill was also executed. The results showed that the lime kiln flue gases would be more reasonable to treat due to the smaller flue gas stream with a higher CO2 concentration. Partial carbon capture of the recovery boiler flue gases could also be an option worth considering. For the lime kiln flue gases, two components of the mill, the condensing turbine and the surface condenser, proved to be sources of excess heat that could cover the heat demand at the cost of some electrical power. The condensing turbine was more promising as it could cover the heat demand regardless of which technology is used while the surface condenser could only be used on the AMP in DMSO technology. In addition, a heat pump is required to make use of the heat from the surface condenser, making the electrical power demand higher for the surface condenser than for the condensing turbin, Genom att använda koldioxidinfångning som drivs av överskottsvärme på ett massabruk i sydvästra Sverige så kan mer än en tredjedel av de fossila utsläppen från hela pappers- och massaindustrin fångas in genom så kallade negativa utsläpp. Detta visar på hur snabbt Sveriges fossila utsläpp kan minska genom användning av koldioxidinfångning. På ett massabruk används trä som den huvudsakliga råvaran i tillverkningen av pappersmassa, men det är också den främsta energikällan. Genom att förbränna resterna som inte behövs till pappersmassan så kan man producera ånga och elektricitet som används runt om på bruket, men även som säljs till fjärrvärme- och elnätet. Vid förbränningen produceras även koldioxid och andra gaser som kallas rökgaser. Dessa renas från partiklar och föroreningar och släpps sedan ut i atmosfären. Eftersom koldioxiden kommer från träd som nyligen fångat in koldioxid från atmosfären i takt med att de vuxit och inte från fossila källor som varit isolerade från kolets kretslopp i miljontals år, så benämns dessa utsläpp av koldioxid som biogena utsläpp. De biogena koldioxidutsläppen står för ungefär 97% av de totala utsläppen från pappers- och massaindustrin. Resterande 3% är fossila utsläpp, och det är bara dessa utsläpp som syns i statistiken. Totalt 2% av Sveriges fossila koldioxidutsläpp kommer från pappers- och massaindustrin, vilket betyder att de totala utsläppen av koldioxid från pappers- och massaindustrin är nästan lika stora som alla fossila koldioxidutsläpp i hela Sverige. Genom att fånga in den i huvudsak biogena koldioxiden från pappers- och massaindustrin så kan vi snabbt kompensera för stora delar av de fossila utsläppen i Sverige. Då uppnår vi så kallade negativa utsläpp, eftersom mer koldioxid kan fångas in än vad som syns i utsläppsstatistiken. Att fånga in koldioxid kräver dock energi, främst i form av värme, och för att kunna uppnå verkligt negativa utsläpp är det viktigt att nya utsläpp inte uppstår för att den energin ska produceras.

Published

2023

25. Effect of localisation and climate change on operation of data centres in Ukraine towards 2050

Author

Petrović, Stefan N., Larsen, Morten Andreas Dahl, Colangelo, Alessandro, Diachuk, Oleksandr, Podolets, Roman, Semeniuk, Andrii, Delmastro, Chiara, Balyk, Olexandr, Petrović, Stefan N., Larsen, Morten Andreas Dahl, Colangelo, Alessandro, Diachuk, Oleksandr, Podolets, Roman, Semeniuk, Andrii, Delmastro, Chiara, and Balyk, Olexandr

Abstract

Data centres (DCs) are large electricity consumers, estimated to account for around 1% of worldwide electricity usage. They release excess heat (EH) during the operation, which can be recovered in district heating (DH) networks. DCs are expected to satisfy the rising demand for digital services. The electricity usage for cooling and available EH from the operation of DCs depends on the air temperature that changes with geographical location. The changes are not uniform and global warming pathways will influence them. Here lays the contribution of the present article. We use an existing thermodynamic model of a hyper-scale DC for different locations in Ukraine to analyse the electricity usage for cooling and EH availability for two climate scenarios (RCP2.6 and RCP 4.5) in 2010–2050. The results show that the electricity consumption for cooling and available EH can vary greatly within Ukraine. The electricity consumption for cooling is over two times higher in the hottest compared to the coldest location in the country, while the emitted EH is around 80% higher on average. The global climate pathway has a minor influence — the electricity use for cooling and EH availability are 4% higher in RCP4.5 than in RCP2.6. Finally, one hyper-scale DC of 150 MW could cover the demand for space heating and domestic hot water for roughly 100 thousand people. This assessment is an important input to consider when developing plans to rebuild Ukraine.

Published

2023

26. High efficiency far-infrared barrel heating control with excess heat prediction based on generalized predictive control in injection molding.

Author

Pan, Yifeng, Xie, Jun, Zhang, Chengqian, Zhu, Xiaocong, and Zhao, Peng

Subjects

*HEATING control, *TEMPERATURE control, *INJECTION molding, *HEAT transfer, *ENERGY consumption, *HIGH temperatures

Abstract

• Thermal management of far-infrared barrel heating in injection molding is studied. • Excess heat is real-time predicted and reused during the heating process. • A comprehensive heat transfer model of excess heat generation is developed. • A framework combing predictive control and excess heat prediction is proposed. • Energy efficiency and temperature accuracy are achieved at the same time. Injection molding accounts for a huge share of the energy consumption of material processing. It has received considerable attention for its potential to enhance production efficiency, which relies on both product consistency and energy efficiency. Far-infrared heating, which has the advantages of high energy efficiency and low dissipation, has emerged as a promising heating technology in injection molding. However, the issue of low heat dissipation can lead to excess heat accumulation and cause substantial temperature errors. In this paper, a new barrel heating control method based on generalized predictive control (GPC) with real-time excess heat prediction model is proposed, in order to improve control accuracy and heating efficiency of far-infrared heating. A constrained multistep optimization combined with excess heat compensation is stated and an experimental platform is designed to validate the superiority of the proposed method under different operation scenarios. Experimental results show that the proposed method outperforms traditional proportional-integral-differential (PID) and GPC methods. Specifically, the proposed method can improve temperature control accuracy by 85.3 and 78.9 %, compared to PID and GPC, respectively. Such high temperature accuracy goes a long way in improving product consistency. Moreover, energy efficiency is improved, e.g., heating time is reduced by 42.7 and 16.5 %, energy consumption is reduced by 27.9 and 25.4 %, compared to PID and GPC, respectively. Control robustness is also verified under different operating conditions. In second-heating experiments, the temperature accuracy is improved by 84.4 % compared to PID. Therefore, the proposed method has the potential to enhance the production efficiency of injection molding. [ABSTRACT FROM AUTHOR]

Published

2024

27. Data center excess heat for mealworm farming, an applied analysis for sustainable protein production.

Author

Vesterlund, Mattias, Borisová, Stanislava, and Emilsson, Ellinor

Subjects

*SUSTAINABILITY, *SERVER farms (Computer network management), *AGRICULTURE, *PROTEIN analysis, *INDUSTRIAL ecology, *HEAT shock proteins, *SOY proteins

Abstract

Since Sweden joined the EU in 1995, importing food became easier and cheaper, leading to certain parts of the country, such as Norrbotten, becoming highly dependent on imports. This dependency, along with the inherent environmental impact of imports, could be significantly reduced by local farming. The environmental emissions originating from animal farming could be lowered even further by substituting the highly polluting soybean feed with, e.g., insect feed. This study examines the farming of mealworms, utilizing excess heat from a data center, part of a growing industry in Norrbotten county, as a means of alternative feedstock for animal production and a case study for industrial symbiosis. This industrial symbiosis project is in line with the EU's incentive to use other sources of protein and thus lower the EU's reliance on the import of foreign protein. Three different feeding approaches are tested, in a room heated with data center excess heat of 30 °C and at room temperature of about 20 °C. After the adult mealworms were harvested, a sample was taken to analyze their nutritional values. The results show that protein, lipid, and fiber content is 19,1 g, 12,6 g, and 2,7 g per 100 g, respectively. All amino acids except tryptophan were detected. This project concludes that it is possible to reach full-grown mealworms in about 8 weeks, which is about half the time stated in the literature. • Data center excess heat was utilized for mealworm farming. • 10 kg of mealworm was farmed with different temperatures, feed schedules and access to water. • The growth in length and weight was analyzed. • The nutrition composition was analyzed. • By using data center excess heat the production time of mealworms could be halved. [ABSTRACT FROM AUTHOR]

Published

2024

28. Electricity Generation from Low and Medium Temperature Industrial Excess Heat in the Kraft Pulp and Paper Industry

Author

Igor Cruz, Magnus Wallén, Elin Svensson, and Simon Harvey

Subjects

excess heat, waste heat, kraft mill, pulp and paper, electricity generation, heat integration, Technology

Abstract

The recovery and utilisation of industrial excess heat has been identified as an important contribution for energy efficiency by reducing primary energy demand. Previous works, based on top-down studies for a few sectors, or regional case studies estimated the overall availability of industrial excess heat. A more detailed analysis is required to allow the estimation of potentials for specific heat recovery technologies, particularly regarding excess heat temperature profiles. This work combines process integration methods and regression analysis to obtain cogeneration targets, detailed excess heat temperature profiles and estimations of electricity generation potentials from low and medium temperature excess heat. The work is based on the use of excess heat temperature (XHT) signatures for individual sites and regression analysis using publicly available data, obtaining estimations of the technical potential for electricity generation from low and medium temperature excess heat (60–140 °C) for the whole Swedish kraft pulp and paper industry. The results show a technical potential to increase the electricity production at kraft mills in Sweden by 10 to 13%, depending on the level of process integration considered, and a lower availability of excess heat than previously estimated in studies for the sector. The approach used could be adapted and applied in other sectors and regions, increasing the level of detail at which industrial excess heat estimations are obtained when compared to previous studies.

Published

2021

29. Model-Based Contract Design for Low Energy Waste Heat Contracts: The Route to Pricing

Author

Edward Wheatcroft, Henry P. Wynn, Victoria Volodina, Chris J. Dent, and Kristina Lygnerud

Subjects

district heating and cooling, urban waste heat recovery, data centres, contracts, low-temperature, excess heat, Technology

Abstract

Urban Waste Heat Recovery, heat recovery from low-temperature urban sources such as data centres and metro systems, has a great deal of potential in terms of meeting domestic and commercial heat demands whilst significantly reducing carbon emissions. Urban sources of heat are advantageous in that they tend to be close to areas of high heat demand and are therefore highly suitable as inputs to existing and newly constructed district heating networks. This paper has two main focuses. Firstly, the issue of efficiency in waste heat recovery is addressed with a focus on Technical, Economic, Social, and Environmental (TESE) efficiencies, which we consider should be given equal consideration. Secondly, we address the question of contractual efficiency and argue that contracts should be underpinned by mathematical modelling. We then focus on the contractual relationship between the owner of the waste heat and the district heating operator and consider the question of waste heat pricing. We suggest a profit sharing approach in which the price per unit of waste heat is allowed to vary according to important aspects such as demand and the electricity price. A demonstration of this approach is presented using a simple model of a waste heat recovery system that extracts heat from a data centre in Brunswick, Germany.

Published

2021

30. Sustainability Problems and a Novelty in the Concept of Energy

Author

Berkovich, Simon, Jajodia, Sushil, Series editor, Pino, Robinson E., editor, Kott, Alexander, editor, and Shevenell, Michael, editor

Published

2014

31. Characterization and visualization of industrial excess heat for different levels of on‐site process heat recovery.

Author

Svensson, Elin, Morandin, Matteo, and Harvey, Simon

Subjects

*HEAT recovery, *WASTE heat, *HEAT, *RANKINE cycle, *VISUALIZATION, *INDUSTRIAL capacity

Abstract

Summary: Increased utilization of industrial excess heat (or waste heat) can reduce primary energy use and thereby contribute to reaching energy and climate targets. To estimate the potential availability of industrial excess heat, it is necessary to capture the significant heterogeneity of the industrial sector. This requires the development of methodologies based on case study assessments of individual plants, adopting a systematic approach and consistent assumptions. Since the recovery of excess heat for power generation or off‐site delivery competes with internal recovery for on‐site fuel savings, a well‐founded approach should enable a comparison of the excess heat availability at different levels of internal process heat recovery. To determine the best solution for excess heat utilization for a given process, there is a need for easy screening of various options, while considering that some techniques require heat at a constant temperature while others can exploit a nonisothermal heat supply. This paper presents a new tool, the excess heat temperature (XHT) signature, for exploring the potential heat availability and trade‐offs for excess heat utilization by weighting the heat according to predefined temperature levels and ranges. A set of reference conditions are defined, and an energy targeting approach is proposed that can be used for characterizing the Theoretical XHT signature, which represents the unavoidable excess heat that can be recovered after maximized internal process heat recovery and ideal integration of a power generation steam cycle. The Theoretical XHT signature is contrasted with the Process Cooling XHT signature, which represents the excess heat that can be recovered given the current design and operation of the process and its utility system. The XHT signature curves provide a consistent representation of the excess heat, enabling comparison between sites and aggregation of results from different case studies. [ABSTRACT FROM AUTHOR]

Published

2019

32. Techno-economic evaluation of biomass drying in moving beds: The effect of drying kinetics on drying costs.

Author

Myllymaa, Tiina, Holmberg, Henrik, and Ahtila, Pekka

Subjects

*BIOMASS, *ECONOMIC research, *ENERGY conversion, *ATMOSPHERIC temperature, *CHEMICAL industry

Abstract

Drying woody biomass holds the potential to improve the energy efficiency of certain processes, such as in CHP plants. Drying can also be a necessary unit process in several energy conversion processes (e.g. in biomass gasification). Belt dryers are typically used for drying when low temperature air (100–110 °C) is used. This article aims to produce new knowledge about the influence of the main design parameters on the drying costs of a low temperature belt dryer when three different materials (forest residue, bark, as well as sawdust and soot sludge mixture) are dried using it. The influence is analyzed by changing the following parameters: bed height, air temperature, air velocity and initial/final moisture contents of the material. The study aims to evaluate which of these parameters has an actual effect on drying costs. Results indicate that the lowest costs are achieved with the highest air temperature if the heat price is the same for every air temperature level. However, an optimal bed height depends on the material. Increasing the air velocity does not necessarily decrease the costs. In the sensitivity analysis, to factor in the influence of the temperature on the heat price, the price was changed for every drying air temperature (1, 5, 10 and 15 €/MWh). This analysis showed that the lowest drying costs are achieved by the lowest air temperature in all cases, thus indicating that the price of the heat has a remarkable influence on the economics of drying. Furthermore, the results support the use of low temperature heat sources in drying if they are clearly less expensive than higher temperature heat sources. However, if the prices for lower and higher air temperatures are of the same magnitude, the higher air temperatures are preferable. In general, this paper shows that it is important to pay attention to the main design parameters to optimize total drying costs. For example, if an overly low bed height is used in woodchips or bark drying, the total drying costs might be dozens of per cent higher than in the most economic case. [ABSTRACT FROM AUTHOR]

Published

2019

33. Exploring the opportunities for carbon capture in modular, small-scale steam methane reforming: An energetic perspective.

Author

Sharma, Ishan, Friedrich, Daniel, Golden, Timothy, and Brandani, Stefano

Subjects

*STEAM reforming, *HYDROGEN production, *FLUE gases, *THERMAL efficiency, *NATURAL gas, *CARBON dioxide

Abstract

Small-scale steam methane reforming units produce more than 12% of all the CO 2 -equivalent emissions from hydrogen production and, unlike large-scale units, are usually not integrated with other processes. In this article, the authors examine the hitherto under-explored potential to utilise the excess heat available in the small-scale steam methane reforming process for partial carbon dioxide capture. Reforming temperature has been identified as a critical operating parameter to affect the amount of excess heat available in the steam methane reforming process. Calculations suggest that reforming the natural gas at 850 °C, rather than 750 °C, increases the amount of excess heat available by about 28.4% (at 180 °C) while, sacrificing about 1.62% and 1.09% in the thermal and exergetic efficiency of the process, respectively. Preliminary calculations suggest that this heat could potentially be utilised for partial carbon capture from reformer flue gas, via structured adsorbents, in a compact capture unit. The reforming temperature can be adjusted in order to regulate the amount of excess heat, and thus the carbon capture rate. Image 1 • CO 2 capture in small-scale, on-site, steam methane reforming. • Reforming temperature as an effective means to raise energy for CO 2 capture. • Limited loss in overall efficiency results in significant rise in heat availability. • Heat can be used to regenerate a structured adsorbent-based, compact CO 2 capture unit. [ABSTRACT FROM AUTHOR]

Published

2019

34. Introducing modern heat pumps to existing district heating systems – Global lessons from viable decarbonizing of district heating in Finland.

Author

Kontu, K., Rinne, S., and Junnila, S.

Subjects

*HEAT pumps, *HEATING from central stations, *CARBONIZATION, *CARBON dioxide mitigation

Abstract

Abstract District heating companies have ambitious targets for lowering carbon emissions in production. Large heat pumps offer an interesting alternative for district heating production allowing utilization of various heat sources. The primary objective of this study is to examine the viability of large heat pumps in existing district heating systems. The study uses three types of systems to simulate how increasing the share of heat pump production influences district heating systems when optimized for the lowest production costs. The second objective of this study is to understand the district heating companies' perspective on increasing amounts of heat pumps in their systems. Based on the simulations, the largest potential for heat pumps is in small district heating systems, where they reduce the use of fossil fuels. In medium and large systems with economical combined heat and power production, the potential of heat pumps is smaller. The findings of the simulations together with insights from the interviews imply that the viable amount of heat pump based heat production in DH systems would be around 10–25% in Finland, which is much higher than the current 3%. Highlights • The viability of large heat pumps in existing district heating systems is examined. • The role and advantages of heat pumps were analyzed with simulations and interviews. • Heat pumps have higher potential in district heating systems compared present level. • Heat pumps bring needed diversity for district heating systems. [ABSTRACT FROM AUTHOR]

Published

2019

35. Comparative assessment of heat recovery from treated wastewater in the district heating systems of the three capitals of the Baltic countries.

Author

Ziemele, Jelena, Volkova, Anna, Latõšov, Eduard, Murauskaitė, Lina, and Džiuvė, Vytautas

Subjects

*HEAT recovery, *HEATING from central stations, *HEATING, *SEWAGE, *HEAT radiation & absorption, *INCOME, *WASTE heat, *HEAT pumps

Abstract

Urban cities have a great potential for the sewage wastewater (WW) and treated WW but this heat resource is still underutilised in many European cities, including the three Baltic capitals of Tallinn, Riga, and Vilnius. The aim of this paper was to evaluate the integration of waste heat (WH) into a district heating (DH) system via absorption heat pumps by using key performance indicators (KPIs) in the fields of energy, environment, economy and social sphere in the three Baltic capitals. The paper presents a three-step methodology that develops an innovative multi-dimensional approach to energy poverty analysis and includes the three main drivers of energy poverty: fuel prices, household income, and energy efficiency. The paper shows that the integration of WH is economically feasible from the consumer's point of view and reduces energy poverty, especially when the price of fuel increases. • Multidimensional energy poverty approach is used for the methodology of treated wastewater. • The potential of treated wastewater is evaluated in Tallinn, Riga and Vilnius. • Economic benefits of incorporating wastewater heat into the DH system is assessed. [ABSTRACT FROM AUTHOR]

Published

2023

36. Unconventional Excess Heat Sources for District Heating in a National Energy System Context

Author

Steffen Nielsen, Kenneth Hansen, Rasmus Lund, and Diana Moreno

Subjects

energy planning, district heating, energy systems analysis, heat pumps, excess heat, Technology

Abstract

District heating (DH) is an important technology in future smart energy systems as it allows for an efficient implementation of various renewable energy sources. As DH develops towards lower temperatures and renewable electricity production increases, new types of heat sources become relevant. Thus, the aim of this article is to assess the potential for utilizing four unconventional excess heat (UEH) sources in DH systems, namely: Data centers, wastewater treatment, metros and service sector buildings. The main method used to assess the UEH potentials is an energy system analysis focusing on the availability and economic feasibility of utilizing the UEH sources in national contexts. The analysis consists of 2015 and 2050 scenarios for Germany, Spain and France. The results show a potential for utilizing the UEH potentials in all three countries, both in 2015 and 2050 systems. The potentials are highest in the 2050 scenarios, primarily due to larger DH shares. Furthermore, the potentials are limited by competition with other heat supply sources, conjunction with heat demands and feasible heat pump operation. In conclusion, the four UEH sources could impact the local DH systems, but in a national energy system context they are expected to play a minor role.

Published

2020

37. The Role of Low Temperature Waste Heat Recovery in Achieving 2050 Goals: A Policy Positioning Paper

Author

Edward Wheatcroft, Henry Wynn, Kristina Lygnerud, Giorgio Bonvicini, and Daniela Leonte

Subjects

district heating and cooling, urban waste heat recovery, data centres, metro systems, low temperature, excess heat, Technology

Abstract

Urban waste heat recovery, in which low temperature heat from urban sources is recovered for use in a district heat network, has a great deal of potential in helping to achieve 2050 climate goals. For example, heat from data centres, metro systems, public sector buildings and waste water treatment plants could be used to supply 10% of Europe’s heat demand. Despite this, at present, urban waste heat recovery is not widespread and is an immature technology. Based on interviews with urban waste heat stakeholders, investors interested in green investments, and experience from demonstrator projects, a number of recommendations are made. It is suggested that policy raising awareness of waste heat recovery, encouraging investment and creating a legal framework should be implemented. It is also recommended that pilot projects should be promoted to help demonstrate technical and economic feasibility. A pilot credit facility is suggested aimed at bridging the gap between potential investors and heat recovery projects.

Published

2020

38. The effect of price regulation on the performances of industrial symbiosis: a case study on district heating

Author

Romain Sacchi and Yana Konstantinova Ramsheva

Subjects

District heating, Heat recovery, Industrial symbiosis, Excess heat, Life cycle assessment, Engineering (General). Civil engineering (General), TA1-2040, Social sciences (General), H1-99

Abstract

This study of the district heating system of Aalborg (Denmark) analyses how fiscal instruments affect the extent excess heat recovery helps reduce the carbon footprint of heat. It builds on a supply-and-demand framework and characterizes the changes in excess heat supply with consequential life cycle assessment in reference to one gigajoule distributed. The heat supply curve is defined through ten scenarios, which represent incremental shares of excess heat as the constraints of the said legal instruments are lifted. The heat demand curve follows the end-users’ response to price changes. The most ambitious scenario doubles the amount of excess heat supplied and reduces the heat carbon footprint by 90% compared to current level, for an end-user price increase of 41%. The price increase results from a higher supply of excess heat at a higher price and an unchanged purchase cost from the coal-fired CHP plant despite a lower supply. This highlights the necessity of a flexible supplier when the share of recovered excess heat is high.

Published

2018

39. Animal thermal comfort index for the state of Paraíba, Brazil: trend, influencing factors, and mitigating measures

Author

Fernanda Fernandes de Melo Lopes, Jaciara Ribeiro Miranda, Robson de Sousa Nascimento, Valquiria Cordeiro da Silva, Dermeval Araújo Furtado, and José Pinheiro Lopes Neto

Subjects

Toxicology, Atmospheric Science, Heat index, Index (economics), Excess heat, Air temperature, Sunshine duration, Environmental science, Climatic variables, Thermal comfort, Climate change

Abstract

The present work had the objective to determine the tendency and the influence percentage of climatic variables on the Temperature and Humidity Index (THI) in the interannual, rainy, and dry seasons for the state of Paraiba. First, the occurrence or not of a trend on the THI was determined by the Mann-Kendall method in the periods under study. After normalizing all variables under study, it was possible to calculate the influence percentage of each variable and to identify which variables most contributed to the increase/decrease of the THI in the municipalities. Also, it was calculated the THI under conditions of future climate change scenarios (RCP4.5 and RCP8.5) and made a zoning for all States proposing mitigating measures to reduce the impacts on the thermal discomfort. Thus, the present work shows that there was an increase in the THI trend for all municipalities, except in Monteiro, which presented a reduction of −0.73 per decade. The air temperature was the variable which presented the highest contribution percentage, except in Patos during the rainy period because it had sunshine duration as the variable which most influenced the THI. The present work shows also that climatic variables that are not present in the THI calculation exert influences on it. Under conditions of climate change, more than half of Paraiba State will be in moderate stress for dairy cattle, taking as mitigation measure the planting of trees or through tiles, straw, or curtains, facilitating the maintenance of homeothermia and reducing the excess heat received by direct solar radiation.

Published

2021

40. Excess‐Heat Recovery and Promotion through Organic Chemical Heat Pumps

Author

João M. Silva, Isabel M. Joao, and Luis António Pinela da Silva

Subjects

Excess heat, Waste management, General Chemical Engineering, media_common.quotation_subject, Economic analysis, General Chemistry, Entransy efficiency, Industrial and Manufacturing Engineering, Reversible organic reactions, Promotion (rank), Environmental science, Chemical heat pump, media_common

Abstract

Submitted by Isabel Melo (imelo@sa.isel.pt) on 2021-10-13T13:26:39Z No. of bitstreams: 1 Excess-heat_IMJoao.pdf: 782969 bytes, checksum: 4d23f78828c9cc9e6443fab2b2c2e2bf (MD5) Made available in DSpace on 2021-10-13T13:26:39Z (GMT). No. of bitstreams: 1 Excess-heat_IMJoao.pdf: 782969 bytes, checksum: 4d23f78828c9cc9e6443fab2b2c2e2bf (MD5) Previous issue date: 2021-09 info:eu-repo/semantics/publishedVersion

Published

2021

41. Cost estimation methods for CO2 capture processes

Author

Aromada, Solomon Aforkoghene

Subjects

CAPEX, plate heat exchanger, shell and tube heat exchanger, emissions, carbon capture and storage, CO2, OPEX, waste heat, excess heat, techno-economic analysis, optimization, energy

Abstract

Cost engineering and economic assessment play a crucial role in evaluation of CO2 capture technologies and energy systems. Cost is one of the key decisive factors when considering industrial deployment of a technology. Economic analysis is very important when a selection is to be made from different options. Estimates of CO2 capture and storage processes are essential for making policies, and for making important decisions like funding of research and projects, as well as investment in industrial implementations. Capital cost estimates made by engineering and procurement contractors (EPC) are usually accurate. Nevertheless, their methodologies are usually not open and transparent for others to adopt due to commercial policies. The technical and economic underlying assumptions utilised are normally not disclosed. They are also difficult and expensive to access by researchers, students and others that are not in the commercial and governmental sectors. The common practice for capital cost estimation in the open literature is that a single overall installation factor is applied uniformly on all equipment. The results from this study propose that it may likely lead to over-estimation of very expensive equipment and under-estimation of least expensive equipment. At best, it limits such methods suitability to only cost estimation of new and large plants. It has been stated in literature that the accuracy of capital cost estimates can be improved by applying detailed factors and sub-factors as provided by the Enhanced Detailed Factor (EDF) method. The EDF method is robust, especially with the introduction of the plant construction characteristic factors (PCCF). They account for different situations that may be encountered in different plant construction projects. In the EDF method, installation factors are assigned to each piece of equipment based on their costs. A very expensive equipment unit is assigned a lower installation factor while a less expensive equipment unit will have a high installation factor. Therefore, the EDF method is suitable and robust for capital cost estimation of new plants, modification projects and retrofit plants, and large and small plants. The EDF method’s installation factors are more sensitive to differences in equipment costs compared to the Lang Factor method, Hand Factor method, percentage of delivered equipment (PDE) cost and the Bare Erected Cost (BEC) method. All the seven methods studied in this project estimated the same cost optimum minimum temperature approach (∆𝑇𝑚𝑖𝑛) based on CO2 capture cost. Nevertheless, the capture costs were different, ranging from €66/tCO2 to €79/tCO2. The total plant cost estimates of the BEC method, the Lang Factor method, and the percentage of delivered equipment cost method which are purely based on application of a single installation factor uniformly on all equipment were 31 – 54 % higher than the result of the EDF method. Due to the details involved in the EDF method, it is relatively time intensive, and it requires more work to implement. This becomes challenging when there is a need for several iterative calculations. For example, iterative cost estimation with each iteration involving process simulations, equipment dimensioning, capital cost, operating cost and other economic analysis. This is the case for sensitivity analysis and cost optimisation studies which are very important in techno-economic analysis. Therefore, the Iterative Detailed Factor (IDF) scheme was proposed as a simple tool for cost estimation and optimisation tool for fast and accurate cost estimation based on the EDF method. The IDF scheme was implemented by means of the spreadsheets incorporated in Aspen HYSYS. The models for equipment dimensioning, capital cost and operating cost, as well as other key performance indicators were created inside the Aspen HYSYS spreadsheets. It is based on estimating new equipment costs using the Power Law when subsequent simulations iterations are performed after the initial one. When a process parameter is varied, immediately after the simulation has converged, all cost estimates can be automatically obtained. For the columns, a cost exponent of 1.1 for new sizes above the original size and 0.85 below the initial size achieved the most accurate estimates in this study. A cost exponent of 0.65 was utilised for estimation of the costs of all equipment that is affected by the change in the process parameter. Other equipment not affected was assigned a cost exponent of 1. The error with the IDF scheme was 0 – 0.4 % in estimation of total plant cost compared to the EDF method. Different specific types of heat exchangers for CO2 absorption plant were studied. This was to evaluate their cost reduction and emissions reduction potentials. They are the fixed tubesheet shell and tube heat exchanger, floating head shell and tube heat exchanger, U-tube shell and tube heat exchanger, gasketed plate heat exchanger and welded plate heat exchanger. The gasketed plate heat exchanger outperformed all the other heat exchanger types in capital cost, CO2 capture cost, CO2 avoided cost and CO2 actual emissions reduction. Their limitations are not very important in a solvent based CO2 capture system. This project recommends the use of plate heat exchangers for the cross-heat exchanger with a minimum temperature approach of 4 – 7 ℃. It is also recommended for the lean amine cooler and for the direct contact unit water cooler in a CO2 absorption and desorption process. Cost estimation and optimisation were performed for a standard monoethanolamine based process and for several other alternative processes. For example, the EDF method based on the IDF scheme was also applied to study a combined rich and lean vapour compression configuration for CO2 capture. The combined configuration achieved the best energy and economic performance compared to the simple rich vapour compression and the simple and lean vapour compression configurations. The EDF method was mainly implemented in the IDF Scheme (automatic) approach in this PhD study and in master students’ projects as well as master’s theses. Most of the studies focused on automatization of cost estimation and process parameters cost optimisation. The studies demonstrated that the EDF method implemented in the IDF scheme approach is fast and robust to optimize process parameters like minimum temperature approach of the lean/rich heat exchanger, columns packing heights and others. Therefore, this work recommends the EDF/IDF method for cost estimation of CO2 absorption processes and process parameters optimisation.

Published

2022

42. Spatiotemporal and economic analysis of industrial excess heat as a resource for district heating.

Author

Bühler, Fabian, Petrović, Stefan, Holm, Fridolin Müller, Karlsson, Kenneth, and Elmegaard, Brian

Subjects

*INDUSTRIAL heating, *THERMODYNAMICS, *HEATING costs, *HEATING from central stations, *FOOD production

Abstract

Industrial excess heat may often be utilised for district heating and thus replace existing expensive or CO 2 -emitting technologies. Previous works analysed the distribution of excess heat by temperature intervals and their geographical distribution relative to district heating areas. A more detailed analysis of the most suitable types of industries and the costs is required, allowing a targeted exploitation of this resource. This work extends the spatial and thermodynamic analysis, to account for the temporal match between industrial excess heat and district heating demands, as well as the costs for implementation and operation of the systems. This allows the determination of cost-effective district heating potentials, as well as the analysis of different industries and technological requirements. The results show that the temporal mismatch between excess heat and district heating demand and lack of demand, reduces the theoretical substitution potential by almost 30%. If heat storages are introduced, the total potential is reduced by only 10%. A majority of the excess heat can be utilised at socio-economic heating costs lower than the average Danish district heating price and the cost of solar district heating. Excess heat from oil refineries, building material and food production can be utilised at the lowest specific costs. [ABSTRACT FROM AUTHOR]

Published

2018

43. A feasibility study of improved heat recovery and excess heat export at a Swedish chemical complex site.

Author

Eriksson, Lina, Morandin, Matteo, and Harvey, Simon

Subjects

*HEAT recovery, *CHEMICAL industry, *GREENHOUSE gas mitigation, *HEATING from central stations, *PROFITABILITY

Abstract

Summary: New ambitious targets for reduced greenhouse gas emissions and increased energy efficiency in industry and in the stationary energy sector provide incentives for industrial plants to investigate opportunities for substantially increasing recovery and use of excess heat from their operations. This work investigates the economic feasibility of recovering industrial excess heat at a Swedish chemical complex site for increased site internal heat recovery or export to a regional district heating (DH) network. The work is based on investment cost data estimated in previous work by the authors. A site‐wide heat collection and distribution system based on circulating hot water was envisioned, which is also connected to a regional DH network. With the help of multiobjective optimization, the optimal heat contributions from the individual plant sites were identified that minimize the total system cost for a large range of options involving different quantities of internally recovered heat and heat export to the DH system. A payback period analysis was conducted together with a risk assessment to take into account uncertainty regarding utility steam production cost and heat sale price. The results of the study indicate that a payback period of around 3 years can be achieved for a number of cases in which 30% to 50% of the total excess heat produced by the site plants is recovered. Although it seems more profitable to recover heat at the site rather than exporting heat to the DH system only, profitability appears to be maximized by hybrid solutions that allow a share of the excess heat to be sold to the DH system and some heat to be recovered at the site simultaneously. [ABSTRACT FROM AUTHOR]

Published

2018

44. Evaluation of Excess Heat Utilization in District Heating Systems by Implementing Levelized Cost of Excess Heat.

Author

Doračić, Borna, Novosel, Tomislav, Pukšec, Tomislav, and Duić, Neven

Subjects

*HEAT transfer, *HEAT recovery, *ENERGY conversion, *ENERGY consumption, *RENEWABLE energy sources

Abstract

District heating plays a key role in achieving high primary energy savings and the reduction of the overall environmental impact of the energy sector. This was recently recognized by the European Commission, which emphasizes the importance of these systems, especially when integrated with renewable energy sources, like solar, biomass, geothermal, etc. On the other hand, high amounts of heat are currently being wasted in the industry sector, which causes low energy efficiency of these processes. This excess heat can be utilized and transported to the final customer by a distribution network. The main goal of this research was to calculate the potential for excess heat utilization in district heating systems by implementing the levelized cost of excess heat method. Additionally, this paper proves the economic and environmental benefits of switching from individual heating solutions to a district heating system. This was done by using the QGIS software. The variation of different relevant parameters was taken into account in the sensitivity analysis. Therefore, the final result was the determination of the maximum potential distance of the excess heat source from the demand, for different available heat supplies, costs of pipes, and excess heat prices. [ABSTRACT FROM AUTHOR]

Published

2018

45. Pengaruh Variasi Temperatur Air 7°C, 17°C, dan 27°C Pada Campuran Beton Terhadap Nilai Kuat Tekan Beton Struktural

Author

M. Galuh Khomari, Mirza Ghulam Rifqi, and Niken Indriyani

Subjects

Slump, Materials science, Compressive strength, Excess heat, Water temperature, Hydration reaction, Composite material

Abstract

This study discusses the effect of water temperature variations of 7°C, 17°C, and 27°C on concrete mixes on compressive strength values ​​of structural concrete. Concrete is a material that is often used in civil engineering construction. The use of concrete in large volumes causes the heat temperature of the hydration reaction to increase. It is necessary to monitor the temperature of the water in the concrete mixture to reduce the excess heat due to the hydration reaction. Water temperature is adjusted according to the planned temperature of 7°C, 17°C, and 27°C to determine the effect on the compressive strength and workability values. Concrete compressive strength testing is carried out at 3, 7, 14, and 28 days. The number of specimens needed was 36 cylindrical samples with a diameter of 15 cm and a height of 30 cm. The results of slump testing at 7°C, 17°C, and 27°C respectively 3 cm, 5 cm and 10 cm. And for testing the compressive strength of concrete obtained data respectively 30.06 MPa, 35.31 MPa and 45.09 MPa. Increased compressive strength of concrete in each variation of 0.2%, 17.7% and 24.3%.

Published

2021

46. Intensidad y duración del estrés térmico en verano en el área urbana de Madrid

Author

Alberto Martí Ezpeleta and Dominic Royé

Subjects

education.field_of_study, Geography, Excess heat, Close relationship, Population, education, Humanities, Heat stress

Abstract

espanolEn este trabajo se aplica una metodologia nueva al estudio de las noches calurosas, tambien denominadas “tropicales”, en el area metropolitana de Madrid, de cara a evaluar desde una perspectiva temporal y espacial aquellas noches en las que la poblacion pueda verse afectada por estres termico. La utilizacion de dos indicadores obtenidos a traves de datos horarios, junto a la informacion climatica suministrada por el modelo UrbClim, ha permitido conocer a una escala de detalle las caracteristicas termicas de las noches del mes de julio entre 2008 y 2017, pudiendo asi evaluar con mas precision el riesgo para el bienestar y la salud de la poblacion. Los resultados muestran una gran variabilidad interurbana en cuanto a intensidad y duracion del estres termico, asi como una correlacion significativa entre las intensidades de la isla de calor y los indices de exceso de calor. Asimismo se ha comprobado la existencia de una estrecha relacion entre las tipologias de usos del suelo y estructuras urbanas definidas en el Urban Atlas, y los indices de exceso de calor nocturno. EnglishThis paper applies a new methodology to the study of hot nights, also known as “tropical” nights, in the metropolitan area of Madrid, in order to evaluate from a temporal and spatial perspective those nights in which the population may be affected by heat stress. The use of two indicators obtained through hourly data, together with the climatic information provided by the UrbClim model, has made it possible to know on a detailed scale the thermal characteristics of the nights of July between 2008 and 2017, thus being able to assess more accurately the risk to the wellbeing and health of the population. The results show a large inter-urban variability in the intensity and duration of heat stress, as well as a significant correlation between heat island intensities and excess heat indices. A close relationship between land use typologies and urban structures as defined in the Urban Atlas and night-time excess heat indices was also found.

Published

2021

47. Decadal changes of heatwave aspects and heat index over Egypt

Author

Gamal El Afandi and Mostafa Morsy

Subjects

Atmospheric Science, Percentile, Heat index, Excess heat, Anomaly (natural sciences), Climatology, Environmental science, Relative humidity

Abstract

This study aims to utilize the existing new and superior heatwave (HW) indices (ClimPACTv2) software to identify the decadal changes of HW aspects (number (HWN), duration (HWD), frequency (HWF), amplitude (HWA), and magnitude (HWM)) over Egypt during the period 1979–2018. The 90th percentile threshold maximum (TX90), minimum (TN90) temperatures, and excess heat factor (EHF) indices were chosen to compute these five HW aspects. The results showed that the lowest decadal summations of HWN (5–20), HWD (20–40 days), and HWF (20–80 days) were detected in the first decade (1979–1988) and increased significantly with positive decadal anomaly trends up to the last decade (2009–2018). Furthermore, Egypt especially the southeastern part subjected to HWA above 300 °C and HWM above 200 °C from both TX90 and TN90 and is confined to the northwestern part with HWA above 140°C2 and HWM exceed 50°C2 from EHF, particularly during the last two decades. Also, the decadal averages of temperature (T, °C) increased gradually over time especially in the southeastern part of Egypt, while the decadal averages of relative humidity (RH, %) nearly remained constant. Therefore, T has a most effective role than RH in determining HI over Egypt during the study period. This creates a relatively tolerable environment for the human body despite the increasing trend over time in the five HW aspects. Thus, all of Egypt falls within the heat index (HI) caution range (26–32 °C) except for the southeastern part which has extreme caution values (32–41 °C) in the last two decades.

Published

2021

48. 5th generation district heating and cooling (5GDHC) implementation potential in urban areas with existing district heating systems

Author

Volkova, A., Pakere, I., Murauskaite, L., Huang, Pei, Lepiksaar, K., Zhang, Xingxing, Volkova, A., Pakere, I., Murauskaite, L., Huang, Pei, Lepiksaar, K., and Zhang, Xingxing

Abstract

The 5th Generation District Heating and Cooling (5GDHC) network has great advantages in terms of integration of low-temperature resources, bi-directional operation, decentralised energy flows, and possible energy sharing. One way to develop the idea and concept of 5GDHC is to identify potential agents, including residential buildings, office buildings, shopping malls, data centres, electrical transformers, and so on, in 5GDHC in each target context. The prospects for 5GDHC have been assessed in light of the conditions in the Baltics. The multi-criteria analysis method was used to quantify the main identified barriers and drivers behind the implementation of 5GDHC systems. It should be noted that new urban areas in the Baltic states are being actively developed with low-energy buildings, so 5GDHS can be integrated to supply heat to these areas. The highest score in the multi-criteria assessment was achieved by Lithuania due to support availability and open heating market conditions. When all applied criteria are weighted equally, Estonia has the most favourable conditions for 5GDHC systems due to widespread use of heat pumps and greater excess heat potential. © 2022 The Author(s)

Published

2022

49. Implementation of large-scale heat storage of excess heat in Växjö´s combined heat and power plant. : A techno-economic analysis

Author

Chandrasardula, Parit and Chandrasardula, Parit

Abstract

To achieve greater economic stability, CHP plant operators such as VEAB from Växjö are motivated to search for a new business model that are compatible with their existing facilities while also contribute to increasing the overall revenue of the company. These processes include hydrogen production and biochemical products such as biopolymer and biofuels. However, these processes also produce a substantial amount of heat that needs to be taken care of. Alternatively, the extra heat storage capacity could allow the plant to be more selective of when to produce those heat to maximize profit. Therefore, it is important to investigate different approaches to achieve that, both traditional approach (e,g, convective cooling) and alternative approaches (different large scale underground heat storages). Lake source cooling is also investigated to determine whether it can replace convective cooling as a method of cooling off waste heat from the plant. The technical analysis showed that the alternative approach is certainly promising albeit with more land use (BTES requiring 36 000 m2 against 750 m2 of convectional cooling system) with some limitations that must be addressed when deciding the appropriate approach. In addition, it is found that by increasing the scale of the BTES system, the amount of heat loss per heat capacity reduces while increasing the borehole depth decreases the overall heat loss of the system. The economic analysis showed that when used solely to deal with the waste heat, the alternative approach is costs magnitude more than convective cooling, the alternative costing almost 6 times more than the convective cooling. There are certainly opportunities in the future that can make the BTES system to be a much more feasible choice if additional utilization of the BTES system could be found or potential demand may make the BTES system a more attractive choice to deal with the excess heat that comes with expanding the business of a CHP plant operator.

Published

2022

50. A case study on the integration of excess heat from Data Centres in the Stockholm district heating system

Author

Tofani, Arianna and Tofani, Arianna

Abstract

The data centre industry is becoming more and more important due to the rapid increase of digitalisation in our society. However, data centres are large electricity consumers since electricity is needed for both the Information Technology (IT) equipment and the cooling systems, as a certain temperature must be maintained in the server rooms in order to guarantee service operations. Thus, it is important to make data centres less energy intensive and implement a circular economy approach in the sector. One possible way to implement circularity is to reuse the waste heat generated in data centres in district heating networks. However, the potential of using waste heat from low-temperature sources, such as data centres, is mainly unexploited; therefore, more studies are needed in order to inform such use. In particular, it is essential to understand how this potential could be assessed. The main purpose of this study is to identify the barriers to more heat recovery utilisation and the opportunities that heat recovery contracts can bring from the perspective of key stakeholders linked to DCs’ systems operation and service use, such as DC operators, DH operators, and municipalities. The study also aims at understanding how municipalities can enhance a greater integration of waste heat from data centres in district heating systems. To reach the objectives, this study is constructed as an explorative case study on the use of excess heat from data centres in the Stockholm district heating system. Eight stakeholders belonging to those categories were interviewed and the data collected were analysed with a Strengths – Weaknesses – Opportunities and Threats (SWOT) analysis. The study concludes that the main barriers preventing the implementation of heat recovery investments, in the explorative analysis for the Stockholm county, seem to be more business related than technical. For example, not having a clear business model in place. In terms of main opportunities, these are, Datacenterbranschen blir allt viktigare på grund av den snabba ökningen av digitaliseringen i vårt samhälle. Datacenter är dock stora elkonsumenter eftersom el behövs både för IT-utrustningen och för kylsystemen, eftersom en viss temperatur måste hållas i serverrummen för att garantera serviceverksamheten. Det är därför viktigt att göra datacenter mindre energikrävande och införa en cirkulär ekonomi inom sektorn. Ett möjligt sätt att genomföra cirkulär ekonomi är att återanvända den spillvärme som genereras i datacentren i fjärrvärmenäten. Potentialen för att använda spillvärme från källor med låg temperatur, t.ex. datacenter, är dock i huvudsak outnyttjad, och därför behövs fler studier för att informera om sådan användning. I synnerhet är det viktigt att förstå hur denna potential kan bedömas. Huvudsyftet med den här studien är att identifiera hindren för ett ökat utnyttjande av värmeåtervinning och de möjligheter som avtal om värmeåtervinning kan ge ur de viktigaste intressenternas perspektiv när det gäller drift av DC-system och användning av tjänster, t.ex. DC-operatörer, DH-operatörer och kommuner. Studien syftar också till att förstå hur kommunerna kan främja en ökad integrering av spillvärme från datacenter i fjärrvärmesystemen. För att nå målen är denna studie uppbyggd som en explorativ fallstudie om användningen av överskottsvärme från datacenter i Stockholms fjärrvärmesystem. Åtta intressenter som tillhörde dessa kategorier intervjuades och de insamlade uppgifterna analyserades med en SWOT-analys (Strengths - Weaknesses - Opportunities and Threats). I studien dras slutsatsen att de främsta hindren för investeringar i värmeåtervinning, i den explorativa analysen för Stockholms län, verkar vara mer affärsrelaterade än tekniska. Till exempel att man inte har en tydlig affärsmodell på plats. När det gäller de viktigaste möjligheterna är dessa relaterade till en förbättring av hållbarheten, t.ex. att spara resurser genom att ersätta dem med överskottsvärme o

Published

2022