Technical demand response potentials of the integrated steelmaking site of Tata Steel in IJmuiden

Arzu Feta; Wina Crijns-Graus; Machteld Van Den Broek; Gerard Jägers

Technical demand response potentials of the integrated steelmaking site of Tata Steel in IJmuiden

Arzu Feta, Wina Crijns-Graus, Machteld Van Den Broek, Gerard Jägers

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

Abstract

Power generation from intermittent renewable energy sources in northwest Europe is expected to increase significantly in the next 20 years. This reduces the predictability of electricity generation and increases the need for flexibility in electricity demand. Data on demand response (DR) capacities of large electricity consumers is limited for most countries. Steel production processes are among the industrial processes with the highest DR potentials. In this study, we focus on DR options provided by changing the electricity generation rate at Tata Steel in IJmuiden (which produces 3 % of total electricity consumption in the Netherlands). For evaluating the technical DR potential we have developed a linear programming model in MATLAB. The model calculates the optimal allocation of works arising gases of Tata Steel in IJmuiden in case of a call for emergency balancing power. The optimization is done subject to the technical constraints of the distribution system and storage potential of the works arising gases, the demand of the Tata Steel plants for these gases, and the ramp-up rate of the power plant that runs on these gases. Results show that Tata Steel in IJmuiden can supply 10 MW for two Programme Time Units (i.e. PTU is defined as a 15 minute period in the Netherlands by TenneT) of positive DR capacity with an availability rate of 97 %. This is not enough for participating in the current emergency capacity programs in the Netherlands, which require at least 20 MW for longer than 1 PTU. Tata Steel can provide 20 MW DR capacity with an availability rate of 65 %. Therefore, if the availability rate requirements for emergency balancing programs in the Netherlands do not drop, Tata Steel would need to pool with other suppliers in order to participate in such programs. The negative demand response potential of Tata Steel in IJmuiden is found to be 20 MW supplied for 3 PTUs and 4 PTU with doubling of blast furnace gas storage capacities.

Original language	English
Title of host publication	ECEEE Industrial Summer Study
Publisher	European Council for an Energy Efficient Economy (ECEEE)
Number of pages	11
Volume	2016-September
ISBN (Print)	978-919804828-5
Publication status	Published - 1 Jan 2016
Externally published	Yes
Event	2016 ECEEE Industrial Summer Study: Industrial Efficiency - Berlin, Germany Duration: 12 Sept 2016 → 14 Sept 2016

Conference

Conference	2016 ECEEE Industrial Summer Study
Country/Territory	Germany
City	Berlin
Period	12/09/16 → 14/09/16

Keywords

Demand response
Demand side management (DSM)
Electronic loads
Industrial processes
Iron and steel
Potential

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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@inproceedings{04cfea94cd054b0eb8014e2ecb980ab7,

title = "Technical demand response potentials of the integrated steelmaking site of Tata Steel in IJmuiden",

abstract = "Power generation from intermittent renewable energy sources in northwest Europe is expected to increase significantly in the next 20 years. This reduces the predictability of electricity generation and increases the need for flexibility in electricity demand. Data on demand response (DR) capacities of large electricity consumers is limited for most countries. Steel production processes are among the industrial processes with the highest DR potentials. In this study, we focus on DR options provided by changing the electricity generation rate at Tata Steel in IJmuiden (which produces 3 % of total electricity consumption in the Netherlands). For evaluating the technical DR potential we have developed a linear programming model in MATLAB. The model calculates the optimal allocation of works arising gases of Tata Steel in IJmuiden in case of a call for emergency balancing power. The optimization is done subject to the technical constraints of the distribution system and storage potential of the works arising gases, the demand of the Tata Steel plants for these gases, and the ramp-up rate of the power plant that runs on these gases. Results show that Tata Steel in IJmuiden can supply 10 MW for two Programme Time Units (i.e. PTU is defined as a 15 minute period in the Netherlands by TenneT) of positive DR capacity with an availability rate of 97 %. This is not enough for participating in the current emergency capacity programs in the Netherlands, which require at least 20 MW for longer than 1 PTU. Tata Steel can provide 20 MW DR capacity with an availability rate of 65 %. Therefore, if the availability rate requirements for emergency balancing programs in the Netherlands do not drop, Tata Steel would need to pool with other suppliers in order to participate in such programs. The negative demand response potential of Tata Steel in IJmuiden is found to be 20 MW supplied for 3 PTUs and 4 PTU with doubling of blast furnace gas storage capacities.",

keywords = "Demand response, Demand side management (DSM), Electronic loads, Industrial processes, Iron and steel, Potential",

author = "Arzu Feta and Wina Crijns-Graus and {Van Den Broek}, Machteld and Gerard J{\"a}gers",

year = "2016",

month = jan,

day = "1",

language = "English",

isbn = "978-919804828-5",

volume = "2016-September",

booktitle = "ECEEE Industrial Summer Study",

publisher = "European Council for an Energy Efficient Economy (ECEEE)",

note = "2016 ECEEE Industrial Summer Study : Industrial Efficiency ; Conference date: 12-09-2016 Through 14-09-2016",

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Feta, A, Crijns-Graus, W, Van Den Broek, M & Jägers, G 2016, Technical demand response potentials of the integrated steelmaking site of Tata Steel in IJmuiden. in ECEEE Industrial Summer Study. vol. 2016-September, European Council for an Energy Efficient Economy (ECEEE), 2016 ECEEE Industrial Summer Study, Berlin, Germany, 12/09/16. <https://dspace.library.uu.nl/bitstream/handle/1874/372297/Technical.pdf>

Technical demand response potentials of the integrated steelmaking site of Tata Steel in IJmuiden. / Feta, Arzu; Crijns-Graus, Wina; Van Den Broek, Machteld et al.
ECEEE Industrial Summer Study. Vol. 2016-September European Council for an Energy Efficient Economy (ECEEE), 2016.

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

TY - GEN

T1 - Technical demand response potentials of the integrated steelmaking site of Tata Steel in IJmuiden

AU - Feta, Arzu

AU - Crijns-Graus, Wina

AU - Van Den Broek, Machteld

AU - Jägers, Gerard

PY - 2016/1/1

Y1 - 2016/1/1

N2 - Power generation from intermittent renewable energy sources in northwest Europe is expected to increase significantly in the next 20 years. This reduces the predictability of electricity generation and increases the need for flexibility in electricity demand. Data on demand response (DR) capacities of large electricity consumers is limited for most countries. Steel production processes are among the industrial processes with the highest DR potentials. In this study, we focus on DR options provided by changing the electricity generation rate at Tata Steel in IJmuiden (which produces 3 % of total electricity consumption in the Netherlands). For evaluating the technical DR potential we have developed a linear programming model in MATLAB. The model calculates the optimal allocation of works arising gases of Tata Steel in IJmuiden in case of a call for emergency balancing power. The optimization is done subject to the technical constraints of the distribution system and storage potential of the works arising gases, the demand of the Tata Steel plants for these gases, and the ramp-up rate of the power plant that runs on these gases. Results show that Tata Steel in IJmuiden can supply 10 MW for two Programme Time Units (i.e. PTU is defined as a 15 minute period in the Netherlands by TenneT) of positive DR capacity with an availability rate of 97 %. This is not enough for participating in the current emergency capacity programs in the Netherlands, which require at least 20 MW for longer than 1 PTU. Tata Steel can provide 20 MW DR capacity with an availability rate of 65 %. Therefore, if the availability rate requirements for emergency balancing programs in the Netherlands do not drop, Tata Steel would need to pool with other suppliers in order to participate in such programs. The negative demand response potential of Tata Steel in IJmuiden is found to be 20 MW supplied for 3 PTUs and 4 PTU with doubling of blast furnace gas storage capacities.

AB - Power generation from intermittent renewable energy sources in northwest Europe is expected to increase significantly in the next 20 years. This reduces the predictability of electricity generation and increases the need for flexibility in electricity demand. Data on demand response (DR) capacities of large electricity consumers is limited for most countries. Steel production processes are among the industrial processes with the highest DR potentials. In this study, we focus on DR options provided by changing the electricity generation rate at Tata Steel in IJmuiden (which produces 3 % of total electricity consumption in the Netherlands). For evaluating the technical DR potential we have developed a linear programming model in MATLAB. The model calculates the optimal allocation of works arising gases of Tata Steel in IJmuiden in case of a call for emergency balancing power. The optimization is done subject to the technical constraints of the distribution system and storage potential of the works arising gases, the demand of the Tata Steel plants for these gases, and the ramp-up rate of the power plant that runs on these gases. Results show that Tata Steel in IJmuiden can supply 10 MW for two Programme Time Units (i.e. PTU is defined as a 15 minute period in the Netherlands by TenneT) of positive DR capacity with an availability rate of 97 %. This is not enough for participating in the current emergency capacity programs in the Netherlands, which require at least 20 MW for longer than 1 PTU. Tata Steel can provide 20 MW DR capacity with an availability rate of 65 %. Therefore, if the availability rate requirements for emergency balancing programs in the Netherlands do not drop, Tata Steel would need to pool with other suppliers in order to participate in such programs. The negative demand response potential of Tata Steel in IJmuiden is found to be 20 MW supplied for 3 PTUs and 4 PTU with doubling of blast furnace gas storage capacities.

KW - Demand response

KW - Demand side management (DSM)

KW - Electronic loads

KW - Industrial processes

KW - Iron and steel

KW - Potential

M3 - Conference contribution

SN - 978-919804828-5

VL - 2016-September

BT - ECEEE Industrial Summer Study

PB - European Council for an Energy Efficient Economy (ECEEE)

T2 - 2016 ECEEE Industrial Summer Study

Y2 - 12 September 2016 through 14 September 2016

ER -

Technical demand response potentials of the integrated steelmaking site of Tata Steel in IJmuiden

Abstract

Conference

Keywords

UN SDGs

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