Biomass-based carbon capture and utilization in kraft pulp mills

Kuparinen, Katja; Vakkilainen, Esa; Tynjälä, Tero

doi:10.1007/s11027-018-9833-9

Cited by 64 publications

(39 citation statements)

References 14 publications

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“…There are other possible applications for CO2 at such a mill, but the potential for using other methods that are currently available is relatively low. Kuparinen et al (2019) described how CO2 can be used for acidulation in the production of tall oil and to produce precipitated calcium carbonate. The acidulation of raw soap, which is used to produce tall oil, is normally performed by adding H2SO4.…”

Section: Resultsmentioning

confidence: 99%

“…Sometimes, spent acid from the chlorine dioxide plant can also be added. However, CO2 is a weaker acid than H2SO4 and only some of the H2SO4 that is required can be replaced with CO2, which corresponds to 4 to 6 kg CO2/ADt (Kuparinen et al 2019). Although the production of CaCO3 varies depending on the local demand, the consumption of CO2 can be 20 kg CO2/ADt (Kuparinen et al 2019).…”

Section: Resultsmentioning

confidence: 99%

“…However, CO2 is a weaker acid than H2SO4 and only some of the H2SO4 that is required can be replaced with CO2, which corresponds to 4 to 6 kg CO2/ADt (Kuparinen et al 2019). Although the production of CaCO3 varies depending on the local demand, the consumption of CO2 can be 20 kg CO2/ADt (Kuparinen et al 2019). These alternative applications and uses for CO2, combined with lignin extraction methods, can consume up to 17,200 TPA of CO2.…”

Section: Resultsmentioning

confidence: 99%

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The feasibility of utilizing existing process streams in kraft pulp mills as a source of chemicals for lignin extraction

Kihlman

Gustavsson

2020

BioRes

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Lignin is a sustainable raw material with a high potential for use in the production of renewable products. While the market for lignin is slowly growing, lignin recovery via acid precipitation during the kraft pulping process requires the addition of chemicals that will impact the chemical balance of the pulp mill. This negatively affects both the environmental and business operations. Utilizing existing process streams as a source of chemicals will allow the mill to close the chemical loop and reduce emissions, which will have positive environmental impacts. This study investigated the internal production of sulphuric acid (H2SO4) and carbon dioxide (CO2) for use in lignin separation (also called extraction) at a Swedish kraft pulp mill. The process simulation tool CHEMCAD was used to model and analyze the wet gas H2SO4 (WSA) process to produce H2SO4. The chemical absorption process using monoethanolamine (MEA) to capturing CO2 was also analyzed. The utilization of the sulphur-containing gases to produce H2SO4 can generate an amount that corresponds to a significant lignin extraction rate. The CO2 available in the flue gases from a mill well exceeds the amount required for lignin extraction.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

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The feasibility of utilizing existing process streams in kraft pulp mills as a source of chemicals for lignin extraction

Kihlman

Gustavsson

2020

BioRes

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“…5,6 At present, the treatment methods of papermaking wastewater at home and abroad have been relatively mature, such as alkali recovery, coal water slurry (composite) additives, acid leaching and biochemical method, and so on. 7,8 Among them, the most common and most applied technology is alkali recovery, and the treatment of papermaking wastewater has been basically realized through this technology. 3 However, the treatment of sewage of alkali recovery has led to the production of a large number of solid wastes of lime mud (LM) in the paper industry.…”

Section: Introductionmentioning

confidence: 99%

Eco‐environmental benefits analysis of EcoPartnerships program of production technology of calcium carbonate from lime mud produced by alkaline papermaking

Geng

Ma²,

Liu

2021

Env Prog and Sustain Energy

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Lime mud (LM) is a kind of industrial solid waste produced in alkali recovery in papermaking industry. LM is a global environmental challenge that both China and the United States are facing. With the support of the EcoPartnership Program under the 10-year Sino-US Energy and Environment Cooperation Framework, China Sun Paper Joint Stock Co., Ltd. has successfully formed a partnership with America Mineral Technologies Inc. (MTI). MTI has applied the production technology of calcium carbonate from LM produced by alkaline papermaking (PTCC) to the Sun Paper Company. Compared with the traditional treatment technology of LM in Sun Paper Company, the reduction efficiency of the PTCC technology can reach 97.99%. The waste residue is relatively more stable and poses less threat to the environment than traditional technology. The energy consumption is low, and 4.15 kgce can be saved by treating per ton of LM. It does not release carbon dioxide to the environment, but consumes 0.485 tons of carbon dioxide per ton of LM on the contrary. Because the calcium carbonate produced can be used as a product, RMB 531 yuan can be saved in the treatment of each ton of LM. The PTCC process is conducive to the coordinated development of economic, environmental, and social benefits, and realizes the sustainable development of the paper industry.

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“…One prominent example is the biomass-dedicated boiler at Värtaverket in Stockholm with 0.9 Mt biogenic CO 2 released in 2019 (SEPA, 2020). Others, such as many pulp and paper mills, could utilize excess heat to capture CO 2 (Kuparinen et al, 2019). There are also substantial amounts of biogenic CO 2 emitted from Sweden's many waste incineration plants as well as a few larger point sources from biogas and bioethanol production (Fridahl, 2018).…”

Section: Introductionmentioning

confidence: 99%

Mapping Multi-Level Policy Incentives for Bioenergy With Carbon Capture and Storage in Sweden

Fridahl¹,

Bellamy²,

Hansson³

et al. 2020

Front. Clim.

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Bioenergy with carbon capture and storage (BECCS) is considered a key mitigation technology in most 1.5–2.0°C compatible climate change mitigation scenarios. Nonetheless, examples of BECCS deployment are lacking internationally. It is widely acknowledged that widespread implementation of this technology requires strong policy enablers, and that such enablers are currently non-existent. However, the literature lacks a more structured assessment of the “incentive gap” between scenarios with substantive BECCS deployment and existing policy enablers to effectuate BECCS deployment. Sweden, a country with progressive climate policies and particularly good preconditions for BECCS, constitutes a relevant locus for such examinations. The paper asks to what extent and how existing UN, EU, and Swedish climate policy instruments incentivize BECCS research, development, demonstration, and deployment in Sweden. The analysis is followed by a tentative discussion of needs for policy reform to improve the effectiveness of climate policy in delivering BECCS. Drawing on a tripartite typology of policy instruments (economic, regulatory, and informational) and the ability of these instruments to create supply-push or demand-pull, the article finds that: (1) no instruments create a demand-pull to cover operational expenditure; (2) economic instruments provide partial support for research and the capital expenditure associated with demonstration, and; (3) regulatory instruments provide partial clarity on environmental safeguards and responsibilities. A few regulatory barriers also continue to counteract deployment. The article concludes that the existing policy mix requires considerable reform if BECCS is to contribute substantially to the Swedish target for net-zero emissions. Continued effort to dismantle regulatory barriers must be complemented with a strong demand-pull instrument that complements the current focus on supply-push incentives. If unreformed, the existing policy mix will most likely lead to substantial public expenditure on BECCS research, development, and demonstration without leading to any substantial deployment and diffusion.

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Biomass-based carbon capture and utilization in kraft pulp mills

Cited by 64 publications

References 14 publications

The feasibility of utilizing existing process streams in kraft pulp mills as a source of chemicals for lignin extraction

The feasibility of utilizing existing process streams in kraft pulp mills as a source of chemicals for lignin extraction

Eco‐environmental benefits analysis of EcoPartnerships program of production technology of calcium carbonate from lime mud produced by alkaline papermaking

Mapping Multi-Level Policy Incentives for Bioenergy With Carbon Capture and Storage in Sweden

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