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Journal ArticleDOI

A comparison of cost-benefit analysis of biomass and natural gas CHP projects in Denmark and the Netherlands

Tanja Groth1, Bert Scholtens
Aarhus University1
01 Feb 2016-Renewable Energy (PERGAMON-ELSEVIER SCIENCE LTD)-Vol. 86, pp 1095-1102
TL;DR: In this paper, the authors investigate what drives differences in the project appraisal of biomass and natural gas combined heat and power (CHP) projects in two countries with very similar energy profiles.
About: This article is published in Renewable Energy.The article was published on 2016-02-01 and is currently open access. It has received 14 citations till now. The article focuses on the topics: Project appraisal.

Summary (2 min read)

Jump to: [1. Introduction][2.1. Background of the case study][2.2. CBA analysis][3. Results] and [4. Conclusion]

1. Introduction

  • Full harmonization of common, binding provisions for the support of renewably sourced electricity is a long-term aspiration for the EU Commission (EC), where full harmonization extends across the level of support, the support schemes and the legal framework including regulatory issues [1].
  • Externalities relating to energy generation and the valuation perspective of consumers are usually being investigated with willingness to pay studies.
  • The methodology aims to find out whether benefits of a project or policy actually outweigh its costs, and by how much in relation to the alternatives (among which usual a ‘do nothing’ option) [7].
  • The purpose of their paper is to demonstrate the extent and determinants of any disparities between two EU member states, the Netherlands and Denmark, by applying their respective CBA methods to the same case study.
  • Both countries have significantly higher shares of CHP generation than the EU-28 as a whole, and both countries are net exporters of natural gas.

2.1. Background of the case study

  • Assuming that support policies are related to an ex post estimation of net benefits and to correct market externalities, it makes sense to use CBA to determinewhether disparities in CBA methodology might threaten potential gains from harmonizing energy policy across EU member states.
  • Any such differences in conditions between countries might be reflected in the socioeconomic values for economic externalities e positive and negative e set for the CBA of public projects.
  • Natural variations between states in, for instance, electricity prices are assumed to reflect national priorities and comparative advantages.
  • The energy profiles of Denmark and the Netherlands share a number of common characteristics, such as substantial natural gas fields and an abundance of biomass and wind resources.
  • For Denmark the average share for 2011 was 46%, with corresponding values for the Netherlands and the EU-28 at 33% and 11% respectively.

2.2. CBA analysis

  • Cost-benefit analysis (CBA) is an approach that is used for estimating the strengths andweaknesses of several project alternatives [6,7].
  • The extra electricity produced by the natural gas CHP systemwas sold to the grid previously, but with the biomass unit, all electricity produced is used onsite instead.
  • The Dutch price projection is based on the background data used to evaluate the Dutch energy agreement [24].
  • After the net tax impact factors, the values correspond roughly with the price projections used in the recent public CBA analysis of a 6,000 MW wind farm [29].
  • The amount of emissions associated with each generated unit of energy (emission intensity) depends not only on the fuel type but also on technology characteristics of the energy plant used [39].

3. Results

  • Table 3 provides the results of the NPV calculations.
  • These are net benefits of the biomass CHP over the natural gas CHP.
  • Deadweight social loss has a minor impact in both states and for both alternate natural gas systems in this case study.
  • The Danish subsidy levels are significantly lower than the Dutch ones for the same technology, and they do change in line with the reduction in NPV from one comparison to the other.
  • In their fifth sensitivity analysis, the authors increase respectively decrease electricity costs with 25% and calculate the impact on the net NPV as reported in Table 3 (Panel C) and in the first line of Table 5.

4. Conclusion

  • The aim of this paper was to examine sources of any discrepancies in cost-benefit analysis (CBA) methodology and to estimate how this might impact the results.
  • The authors want to find out whether the CBA yields similar results for identical projects located in two EU member states with highly identical preferences.
  • Any differences in the results of their case study would suggest that there is divergence in the methodology or a natural variance between the two countries, or a combination of both.
  • These differences are pervasive enough that the net fuel costs are included as a benefit in the Danish case, i.e. the switch from natural gas CHP to biomass CHP results in annual fuel cost savings, while net fuel costs in the Netherlands impose an additional cost on the biomass CHP owner.
  • Related is that the inclusion or exclusion of the impact of methane on the environment turns out to make a huge difference regarding the value and appraisal of the investment projects.

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Citations
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Journal ArticleDOI
Techno-economic analysis of a trigeneration system based on biomass gasification

[...]

Raquel Segurado1, Sandrina Pereira1, D. Correia1, Mário Costa1
Instituto Superior Técnico1
01 Apr 2019-Renewable & Sustainable Energy Reviews
TL;DR: In this article, the authors present a case study that assesses the potential of the use of biomass gasification in an existing Portuguese trigeneration natural gas-fired plant located in Lisboa.
Abstract: Biomass is one of the renewable energy sources (RES) with highest potential to contribute to the world's energy needs and can thereby play a key role in the path towards smart energy systems. Smart energy systems aim to integrate all energy sectors to increase the penetration of RES in the energy supply. Biomass gasification is a key technology to fulfil the goal of sustainable RES systems. Its main product (syngas) can be used as fuel, in various conversion technologies, to produce different products, including electricity, heat, cooling, biofuels and chemicals, which makes this technology an important tool for the energy system flexibility. Initially, the present manuscript reviews the relevant studies on the use of biomass gasification in trigeneration and polygeneration systems. Subsequently, it presents a case study that assesses the potential of the use of biomass gasification in an existing Portuguese trigeneration natural gas-fired plant located in Lisboa. The literature review revealed that most of the studies analysed are based on modelling data and not on experimental and/or pilot installations data. These studies show the environmental and energy added value of this type of system but stress the system's complexity and high investment costs. As for the case study, all scenarios considered show a negative net present value; nevertheless, the decrease of the biomass cost or the increase of the natural gas cost can turn financially feasible some scenarios.

76 citations

Journal ArticleDOI
Cost-benefit analysis of district heating systems using heat from nuclear plants in seven European countries

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Martin Leurent1, Pascal da Costa1, Miika Rämä2, Urban Persson3, Frédéric Jasserand1 
Université Paris-Saclay1, VTT Technical Research Centre of Finland2, Halmstad University3
15 Apr 2018-Energy
TL;DR: In this article, the potential cost savings and greenhouse gas (GHG) reduction of district heating (DH) systems using heat from nuclear combined heat and power plants (NCHP) in Europe were evaluated.

30 citations

Journal ArticleDOI
Day-Ahead Scheduling of Distribution Level Integrated Electricity and Natural Gas System Based on Fast-ADMM With Restart Algorithm

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Jian Chen1, Weitong Zhang1, Yicheng Zhang2, Guannan Bao
Shandong University1, Nanyang Technological University2
01 Jan 2018-IEEE Access
TL;DR: A day-ahead scheduling framework of integrated electricity and NG system (IENG) is proposed at a distribution level based on the fast alternating direction multiplier method with restart algorithm considering demand side response and uncertainties.
Abstract: Power generated by the natural gas (NG) is a promising option for solving the restrictions on the development of the power industry. Consequently, the high interdependence between NG network and electricity network should be considered in this integration. In this paper, a day-ahead scheduling framework of integrated electricity and NG system (IENG) is proposed at a distribution level based on the fast alternating direction multiplier method with restart algorithm considering demand side response and uncertainties. Within the proposed framework, the detailed model of the IENG system at a distribution level is established, where the NG flow equation is processed by incremental linearization method to improve the computational efficiency. The objective is to minimize the operation costs of the entire system. With consideration of the uncertainties of distributed generation and electricity load as well as the uncertainties from the NG load, a two-stage robust optimization model is introduced to obtain the worst case within the uncertainty set, which is solved by column and constraints generation algorithm. In addition, the demand-side response (DSR) model including the decentralized air conditioning (AC) load model and the centralized ice-storage AC load model is integrated into the scheduling framework. Finally, the proposed day-ahead scheduling framework is verified by numerical studies where the optimal scheduling schemes are obtained in different cases, both the effects of the uncertainties and the performance with introducing DSR to the system operation are analyzed.

29 citations

Does willingness to pay for green energy differ by source? A contingent choice experiment

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Allison M. Borchers
01 Jan 2007
TL;DR: In this article, the authors present the findings of a choice experiment designed to estimate consumer preferences and willingness-to-pay (WTP) for voluntary participation in green energy electricity programs and compare it to WTP for green energy from specific sources, including wind, solar, farm methane, and biomass.
Abstract: Abstract We present the findings of a choice experiment designed to estimate consumer preferences and willingness-to-pay (WTP) for voluntary participation in green energy electricity programs. Our model estimates WTP for a generic “green energy” source and compares it to WTP for green energy from specific sources, including wind, solar, farm methane, and biomass. Our results show that there exists a positive WTP for green energy electricity. Further, individuals have a preference for solar over a generic green and wind. Biomass and farm methane are found to be the least preferred sources.

24 citations

Journal ArticleDOI
Factors influencing prices for heat from biogas plants

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Carsten Herbes, Verena Halbherr, Lorenz Braun
01 Jul 2018-Applied Energy
TL;DR: In this article, the authors surveyed 602 plant operators in Germany, yielding 1035 price points and identified five factors that contribute to higher heat prices: the operator of the plant also operates the heat grid, the heat contract offer full supply security, and the heat be sold for heating buildings.

23 citations

References
More filters
Journal ArticleDOI
Social Costs of Direct and Indirect Land Use by Transport Infrastructure. An Estimation for The Netherlands

[...]

Mark J. Koetse, Frank Bruinsma, Piet Rietveld, Ron Vreeker
01 Apr 2002-European Journal of Transport and Infrastructure Research
TL;DR: In this article, the social costs of land use for transport infrastructure are investigated for the Netherlands and they find that direct and indirect land use equals respectively 7.2% and 1.6% of the total area of the Netherlands.
Abstract: In this paper the social costs of land use for transport infrastructure are investigated for theNetherlands. We pay attention to the acquisition costs of land for infrastructure and theindirect costs of land use caused by transport. The paper gives an overview of the problemsassociated with measuring land related costs of transport infrastructure. Estimates are givenof land use (in m2) for various types of transport infrastructure. In addition some of the landrelated cost categories are estimated. These costs are allocated to the various transportmodes (cars and trucks of various types, barges, rail, and aircraft) on the basis of theirrelative transport kilometres and their passenger car equivalents. We find that direct andindirect land use equals respectively 7.2% and 1.6% of the total area of the Netherlands.Indirect land use appears to be especially important for aviation. The importance of indirectland use is shown by the value of land involved. The economic valuation of the indirect landuse is about 16% of the total land related costs of transport infrastructure.

4 citations

"A comparison of cost-benefit analys..." refers background in this paper

  • ...Land cost estimates for the Dutch case are derived from the direct cost estimates [33], and inflated with respect to the 2011 price level....

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Frequently Asked Questions (2)
Q1. What are the contributions in "A comparison of cost-benefit analysis of biomass and natural gas chp projects in denmark and the netherlands" ?

The authors investigate what drives differences in the project appraisal of biomass and natural gas combined heat and power ( CHP ) projects in two countries with very similar energy profiles. Concurrently, it is also promoting the use of cost benefit analysis ( CBA ) for transnational energy infrastructure projects. The authors use CBA to assess the same project proposal in Denmark and the Netherlands, following the respective country 's guidelines. This is of importance as the European Commission is assessing the potential scope of harmonizing renewable electricity support schemes post 2020. Furthermore, the authors establish that the sensitivity of the CBA results not only from policy differences in the countries, but also from differences in the methodology 

The authors suggest that further research in the formulation of CBA methodology for a common EC policy framework includes case studies to demonstrate the extent of sensitivity both due from natural variations between states and from discrepancies in the approach used.