为基于自然的解决方案设计提供真实学习经验的多学科方法:拓宽猴子的脸颊

Q1 Social Sciences
K. Irvine, Fa Likitswat, Asan Suwanarit, T. Koottatep
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引用次数: 3

摘要

泰国国立法理大学景观建筑工作室的学生和亚洲理工学院环境工程班的学生一起为曼谷城郊的池塘/湿地系统开发和评估基于自然的解决方案设计。景观建筑班首先发展了他们的设计愿景,随后他们的设计通过在线演示和合作现场调查介绍给工程专业的学生。工程专业的学生结合了水质采样、静态计算和概念动态城市水文模型的应用来评估设计的性能。工程专业的学生有效地将建筑设计的某些方面纳入他们的评估中,特别是那些与改善水质的人工湿地有关的方面。动态模型在水量评估和工程造价估算中的应用更具挑战性。课程评价表明,这两个班的学生对成功的水资源规划所必需的多学科过程有了更好的认识,但也希望各学科之间有更大的互动。讨论了计划中的教学改进,包括引入Steinitz的理论框架。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A multidisciplinary approach to authentic learning experiences for nature-based solutions design: broadening the monkey cheeks
ABSTRACT Students in a Landscape Architecture studio at Thammasat University and an Environmental Engineering class at Asian Institute of Technology joined to develop and assess Nature-based Solution designs for a pond/wetland system in peri-urban Bangkok. The Landscape Architecture class first developed their design visions and subsequently their designs were introduced to the Engineering students through on-line presentations and collaborative on-site investigations. The Engineering students used combinations of water quality sampling, static calculations, and application of a conceptual, dynamic urban hydrology model to assess design performance. The Engineering students effectively incorporated some aspects of the architectural designs into their assessments, particularly those related to constructed wetlands for water quality improvement. Application of the dynamic model for water quantity assessments and provision of project cost estimates proved more challenging. Course evaluations indicated that students in both classes gained a better appreciation of the multidisciplinary process necessary for successful water resource planning, but also would prefer even greater interaction between the disciplines. Planned pedagogical improvements, including introduction of Steinitz’ Framework for Theory, are discussed.
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来源期刊
CiteScore
6.40
自引率
0.00%
发文量
8
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