The amount of food waste in Japan is extremely high. In 2016, food waste generated by the food industry was 27.59 million tons. The breakdown is as follows: 16.17 million tons from food manufacturers, 270,000 tons from food wholesalers, 1.27 million tons from food retailers, and 1.99 million tons from restaurants, while consumers wasted 7.89 million tons. This means that about 6.43 million tons of food is lost (i.e. food that can be eaten has been thrown out). The total restaurant food waste rate is approximately 10% of which only 23% is recycled. Recycled food from restaurants is turned into fertilizer and feed. The main reasons for food waste in restaurants are leftovers and overstocking. As there are many different types of food restaurants in Japan, there has been little research on food loss reduction. We interviewed 15 restaurants and conducted a survey of consumers' awareness about food waste and loss. The results indicated that the most common cause of food loss was leftover foods. Therefore, many restaurants in Japan try to reduce food loss by offering "doggy bags" as a means for consumers to take leftover foods home. However, it is difficult to accept doggy bags in Japan. Consumers are becoming more conscious of food loss thus many are willing to take leftover food if there is an established and acceptable system. However, a small number of consumers said they did not want to take the leftover foods home, because if they live alone, they may use it and they end up discarding it. To promote doggy bags to reduce food loss in restaurants, may be necessary to improve communications between providers (restaurants) and consumers. In addition, at university restaurants like big cafeterias, there were many unsold foods. Thus, using the food share application for unsold foods is one tool to help reduce food waste, and some consumers want to use this food share application.
Usage of polymer materials in a quenching chamber is one of the most effective methods of improving performance of an air circuit breaker [1, 2]. During a high current interruption in the air circuit breaker, an arc discharge touches the insulator, and ablation gasses are emitted [3]. It is considered that the quenching performance and an arc characteristic are affected by this ablation gasses. In order to clarify the quenching performance of each polymer material, we are conducting the experiments. With these experiments, the relationships of the ablation gasses among the number of arcing cycles, arcing peak voltage, arcing conductances, and the pressure rise will be discussed with four kinds of polymer materials.
An insulator in a q uenchin g chamber of a switch causes ablation, and releases g ases when arcin g . These released gases are known to have an influence on the arc characteristics.
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