Design considerations for developing geothermal-assisted milk pasteurization equipment

Abstract

The naturally occurring heat inside the earth is renewable and sustainable and is known as geothermal energy. It is a renewable energy source that may be used in various applications, including milk pasteurization. This research focuses on the design considerations for developing geothermal-assisted milk pasteurization equipment which is first of its kind in Gujarat, India in direct application of geothermal energy. The novelty of this device is that it utilizes geothermal water (63 °C) from a self-flowing well to pasteurise milk. The utilization of direct heat energy from geothermal resource reduces the operational cost of milk pasteurization process. It discusses the various aspects of the design process, including efficiency calculation, heat exchange principles, system components, and control strategies. The study also discusses the result of the laboratory analysis of pasteurized milk considering microbiological and chemical parameters. The unit reduces the total plate count to 28,000 cfu/ml, within the recommended range for the WHO (30,000 cfu/ml). The paper concludes by discussing societal benefits and techno economic aspect of geothermal-assisted milk pasteurization equipment.