Australasia, Emissions & Environment, Equipment & Technology, On Site Power

KPA Unicon to support Danone Nutricia reach carbon neutrality

Finnish company, KPA Unicon will be conducting its first delivery in the Oceanian market by delivering a biomass steam boiler plant to Danone’s Nutricia spray drying facility in New Zealand’s South Island.

The delivery of the boiler plant includes all process equipment, buildings and installation.

The Nutricia spray-drying plant, located in Balclutha, processes raw milk sourced from local farms into powder that is used as the basis of infant milk formula. Steam production plays an important role in the process: the conversion of milk into a dry powder is done by heat. The new biomass steam generating plant will reduce the spray drying plant’s emissions by about 20,000 tonnes per year.

The new steam generating plant, with a capacity of 15 MW, will produce 21 TpH (tonnes per hour) of saturated steam for the milk powder process.

Furthermore, the plant uses locally produced sustainable wood fuel and the core of the plant is a Unicon Renefluid fluidized bed boiler designed to utilize energy sources of varying quality, ensuring maximum energy efficiency.

Read more about Danone’s carbon neutral initiative
Danone in $25m biomass deal to make plant carbon neutral

According to Pentti Savolainen, project manager from KPA Unicon, the contract was based on good experiences with KPA Unicon´s modern, high-efficiency fluidized bed technology and project deliveries in Central Europe. “In addition, emission control and a flexible response to our customer’s load changes were counted as our strengths,” Savolainen states.

Together with the plant delivery, KPA Unicon and Danone have entered into a separate service agreement whereby KPA Unicon will provide annual maintenance services. The new plant also has the capability to be connected to KPA Unicon’s service center in Haapavesi, Finland. From the service center, KPA Unicon can remotely monitor the plant and anticipate the need for maintenance.