溫度控制使用電量對蝴蝶蘭苗生產的影響-以G公司為例

Abstract

現今因為環境變化與能源需求日益增加，與節能相關的研究及技術與生產效率之間的平衡，對於全球經濟和永續發展具有相當重要的意義。蝴蝶蘭作為一種廣泛栽培的觀賞植物，其苗株時期的栽培生長和品質，會直接影響至成熟植株的市場價值。不同的溫度控制策略對蝴蝶蘭苗的生長和品質有明顯的影響。過高的溫度會導致苗株品質下降；過低的溫度則會抑制蝴蝶蘭苗的生長，延長生產周期，而且會導致花梗抽梗，因而降低其產品價值。 因此，如何在有效提高蝴蝶蘭苗的生產效率的同時，又可以節能，成為了蝴蝶蘭產業迫切需要解決的問題。本研究旨在探討蝴蝶蘭苗株生產的溫度控制與使用電量之關係，以深入探討其生長過程中對溫度變化與使用電量需求間的關係。 本研究期望為蝴蝶蘭產業提供科學基礎，同時為其他植物和農業作物的節能栽培提供借鑒。這將有助於我們在未來的研究中，進一步優化溫度控制策略，為蝴蝶蘭產業提供更為科學化的指引。

In the present, global environmental changes and increasing energy demands, researching the balance between energy-saving technologies and production efficiency is of great significance for the global economy and sustainable development. Moth orchid, as a widely cultivated ornamental plant, have growth and quality directly affecting the market value of mature plants. Therefore, how to improve the production efficiency of Moth orchid seedling while saving energy has become an urgent problem to be solved in the industry. This study aims to explore the influence of power consumption in temperature control on Moth orchid seedling production. We will analyze the growth requirements of Moth orchid to determine their temperature variation and power consumption during the growth process. The temperature control strategy had significant effect on the growth and quality of Moth orchid seedlings. Excessively high temperatures will lead to a decrease in quality of seedlings. While excessively low temperatures can inhibit the growth of Moth orchid seedlings, prolong the production cycle and reducing product value due to weak flower stalk development. This study is expected to provide a scientific basis for the Moth orchid industry, the impact of power consumption in temperature control on Moth orchid seedling production, as well as for the energy-efficient cultivation of other plants and agricultural crops. This will help us further optimize the temperature control strategy in future research and provide more scientific guidance for the Phalaenopsis industry."