Common use of OCAP Clause in Contracts

OCAP. capture of carbon dioxide at industrial sources for reuse as a nutrient in the greenhouse horticulture sector. a. reuse of industrial residual heat by surrounding businesses and residences. Example: the Twence steam pipeline, which transfers residual heat from the waste processing company Twence for use by Nouryon in the form of steam. The pipeline is set to be expanded into a larger heat network with more industrial connections. b. The Rotterdam heat network transports residual heat from the port to various districts in Rotterdam and the surrounding municipalities via a transport network, so it can be reused to heat homes and buildings. Similar heat networks are being developed at various locations. Source: SER, 2019 The chart below shows an up-to-date indication of the rising costs of various technological options aimed at realising emissions reduction in industry. At a certain point, the costs will rise significantly. As a result, it is crucial that we focus on achieving cost reductions. Source: PBL (2019). Background document on the impact of the draft climate agreement: industry. The industry will put in place measures with immediate impact on its emissions (scope 1). This will also be a point of focus in the context of the 2030 target for the industry. In addition, climate gains can be made through reduction of heating and making it more sustainable,36 increased use of renewable electricity and the supply of residual heat (or carbon dioxide), for example to the built environment or the greenhouse horticulture sector (scope 2 measures). On top of that, supply chain impact, such as sustainable use of raw materials, can contribute 36 Such as geothermal energy and aquathermics. to making industry more sustainable (scope 3 measures37) and may lead to carbon emissions reduction in a cost-effective way. It is crucial in this regard that the sector should not only manufacture products and semi-manufactured products that everyone uses in daily life, but also products that are desperately needed during the energy transition, such as light-weight steel for electric cars, bicycles, wind turbines, insulation materials and heat pumps for houses, green fertilisers and plastics and metals for wind and solar energy. In this way, the circular use of raw materials, including the substitution and recycling of (critical) materials, can contribute to scaling up the energy transition and making it more sustainable.

OCAP. capture of carbon dioxide at industrial sources for reuse as a nutrient nut rient in the greenhouse horticulture sector. a. reuse of industrial residual heat by surrounding businesses and residences. Example: the Twence steam pipeline, which transfers residual heat from the waste processing company Twence for use by Nouryon in the form of steam. The pipeline is set to be expanded into a larger heat network with more industrial connections. b. The Rotterdam heat network transports residual heat from the port to various districts in Rotterdam and the surrounding municipalities munic ipalities via a transport network, so it can be reused to heat homes and buildings. Similar heat networks are being developed at various locations. Source: SER, 2019 The chart below shows an up-to-date indication of the rising costs of various technological options aimed at realising emissions reduction in industry. At a certain point, the costs will rise significantly. As a result, it is crucial that we focus on achieving cost reductions. Source: PBL (2019). Background document on the impact of the draft climate agreement: industry. The industry will put in place measures with immediate impact impac t on its emissions (scope 1). This will also be a point of focus in the context of the 2030 target for the industry. In addition, climate gains can be made through reduction of heating and making it more sustainable,36 increased use of renewable electricity and the supply of residual heat (or carbon dioxide), for example to the built environment or the greenhouse horticulture sector (scope 2 measures). On top of that, supply chain impact, such as sustainable use of raw materials, can contribute 36 Such as geothermal energy and aquathermics. to making industry more sustainable (scope 3 measures37) and may lead to carbon emissions reduction in a cost-effective way. It is crucial in this regard that the sector should not only manufacture manufac ture products and semi-manufactured semi- manufac tured products that everyone uses in daily life, but also products that are desperately needed during the energy transition, such as light-light - weight steel for electric cars, bicycles, wind turbines, insulation materials and heat pumps for houses, green fertilisers and plastics and metals for wind and solar energy. In this way, the circular use of raw materials, including the substitution and recycling of (critical) materials, can contribute to scaling up the energy transition and making it more sustainable.