The standard error it's a metric that show the deviation that your estimated coefficient could have from the estimated value (mean), that is, the error. It's a number in the same units as the coefficient, which could also be multiplied by respective variable to be read in terms of the dependent variable if needed.
It helps you create the confidence intervals, depending on your level of confidence (usually it's 95%) which helps you understand the range of values that the unknown parameter can actually have.
If your variable is size, then the value of 1.654 means that the estimated coefficient has mean 13.806 but could be between 12.152 (13.806-1.654) and 15.46 (13.806+1.654) for example, which corresponds to a confidence level of 68%. Same interpretation goes for the intercept. So the impact of size could be between 12.152 and 15.46 towards the Rent.
If you want a greater confidence level, say 95%, you need to (basically) multiply the interval by two, that is: 10.498 (13.806-1.654 x 2) and 17.114 (13.806+1.654 x 2) respectively.